path: root/Dragon/src/MACXSR.f

*DECK MACXSR
      SUBROUTINE MACXSR(MAXFIS,NGROUP,NBMIX,NIFISS,NANISO,NDELG,NTYPE,
     >                  XSTOTL,XSTOT1,XSFISS,XSSPEC,XSFIXE,XSTRAN,
     >                  XSDIFF,XSNFTO,XSH,XSSCAT,LOLDXS,LNEWXS,CARLIR,
     >                  LADD,LUPD,IPRINT,ISCATA,XSNUDL,XSCHDL,XSDIFX,
     >                  XSDIFY,XSDIFZ,XSOVRV,XSINT0,XSINT1,HADF,XADF)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Read cross sections from input file.
*
*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): G. Marleau
*
*Parameters: input
* MAXFIS  set to max(1,NIFISS).
* NGROUP  number of energy groups.
* NBMIX   maximum number of mixtures.
* NIFISS  number of fissile isotopes.
* NANISO  maximum Legendre order:
*         =1 isotropic collision;
*         =2 linearly anisotropic collision.
* NDELG   number of precursor groups for delayed neutrons.
* NTYPE   number of boundary regions types for ADF calculations.
* LOLDXS  flag for cross section type already present on the macrolib.
* CARLIR  last string read.
* LADD    flag (true) for reading invcrementsçal XS.
* LUPD    flag (true) for updating XS.
* IPRINT  print level.
*
*Parameters: input/output
* XSTOTL  P0 total cross section of mixture.
* XSTOT1  P1 total cross section of mixture.
* XSFISS  nu*fission cross section of mixture.
* XSNFTO  fission cross section of mixture.
* XSSPEC  fission spectrum.
* XSFIXE  fixe sources.
* XSTRAN  transport correction.
* XSDIFF  isotropic diffusion coefficient.
* XSH     power factor.
* XSSCAT  scattering cross section of mixture/group.
* XSNUDL  delayed nu*fission cross section of mixture.
* XSCHDL  delayed-neutron fission spectrum.
* XSDIFX  x-directed diffusion coefficients.
* XSDIFY  y-directed diffusion coefficients.
* XSDIFZ  z-directed diffusion coefficients.
* XSOVRV  reciprocal neutron velocities.
* XSINT0  P0 volume-integrated flux of mixture.
* XSINT1  P1 volume-integrated flux of mixture.
*
*Parameters: output
* LNEWXS  flag for cross section modified.
* ISCATA  check for scattering anisotropy.
* HADF    names of the boundary flux types.
* XADF    averaged fluxes in boundary regions.
*
*-----------------------------------------------------------------------
*
      USE GANLIB
*----
*  SUBROUTINE ARGUMENTS
*----
      PARAMETER (NCXST=18)
      INTEGER   MAXFIS,NGROUP,NBMIX,NIFISS,NANISO,NDELG,IPRINT,
     >          ISCATA(NANISO)
      REAL      XSTOTL(NBMIX,NGROUP),XSTOT1(NBMIX,NGROUP),
     >          XSFISS(NBMIX,MAXFIS,NGROUP),XSSPEC(NBMIX,MAXFIS,NGROUP),
     >          XSFIXE(NBMIX,NGROUP),XSTRAN(NBMIX,NGROUP),
     >          XSDIFF(NBMIX,NGROUP),XSNFTO(NBMIX,NGROUP),
     >          XSH(NBMIX,NGROUP),XSSCAT(NGROUP,NBMIX,NANISO,NGROUP),
     >          XSNUDL(NBMIX,MAXFIS,NDELG,NGROUP),
     >          XSCHDL(NBMIX,MAXFIS,NDELG,NGROUP),
     >          XSDIFX(NBMIX,NGROUP),XSDIFY(NBMIX,NGROUP),
     >          XSDIFZ(NBMIX,NGROUP),XSOVRV(NBMIX,NGROUP),
     >          XSINT0(NBMIX,NGROUP),XSINT1(NBMIX,NGROUP),
     >          XADF(NBMIX,NGROUP,NTYPE)
      LOGICAL   LOLDXS(NCXST),LNEWXS(NCXST),LADD,LUPD
      CHARACTER HADF(NTYPE)*8,CARLIR*12
*----
*  LOCAL VARIABLES
*----
      PARAMETER (IUNOUT=6)
      CHARACTER CARXST(NCXST)*6
      DOUBLE PRECISION DBLINP
*----
* ALLOCATABLE ARRAYS
*----
      LOGICAL, ALLOCATABLE, DIMENSION(:,:) :: LINIXS
*----
*  SCRATCH STORAGE ALLOCATION
*   LINIXS  flag for cross section read per mixture.
*----
      ALLOCATE(LINIXS(NCXST,NBMIX))
*
      HADF(:)=' '
      XADF(:,:,:)=0.0
      MATNUM=0
      DO 200 IM=1,NBMIX
        DO 210 IT=1,NCXST
          LINIXS(IT,IM)=.TRUE.
 210    CONTINUE
 200  CONTINUE
*----
*  START READING KEYWORDS
*----
      ITYPE=0
 1000 CONTINUE
      CALL REDGET(ITYPLU,INTLIR,REALIR,CARLIR,DBLINP)
 1001 IF(ITYPLU.NE.3) CALL XABORT('MACXSR: READ ERROR - CHARACTER VARI'
     > //'ABLE EXPECTED: TOTA, NUSI, FIXE, TRAN, DIFF, CHI, SCAT, MIX ')
      IF((CARLIR.EQ.'NTOT0').OR.(CARLIR.EQ.'TOTAL')) THEN
        IF(MATNUM.LE.0)CALL XABORT('MACXSR: NO MIXTURE NUMBER PROVIDED')
        IF(LINIXS(1,MATNUM)) THEN
          LINIXS(1,MATNUM)=.FALSE.
        ELSE
          CALL XABORT('MACXSR: TOTAL XS FOR THIS MATERIAL ALREADY READ')
        ENDIF
        LNEWXS(1)=.TRUE.
*----
*  TOTAL XS
*----
        DO 100 IGROUP=1,NGROUP
          CALL REDGET(ITYPLU,INTLIR,FLOTT,CARLIR,DBLINP)
          IF(ITYPLU.NE.2) CALL XABORT('MACXSR: READ ERROR - REAL VARIA'
     >    //'BLE EXPECTED: TOTAL XS')
          IF(LADD) FLOTT=FLOTT+XSTOTL(MATNUM,IGROUP)
          XSTOTL(MATNUM,IGROUP)=FLOTT
 100    CONTINUE
      ELSE IF(CARLIR.EQ.'NUSIGF') THEN
        IF(MATNUM.LE.0)CALL XABORT('MACXSR: NO MIXTURE NUMBER PROVIDED')
        IF(NIFISS.EQ.0)CALL XABORT('MACXSR: NIFISS EXPECTED GREATER TH'
     >  //'AN ZERO')
        IF(LINIXS(2,MATNUM)) THEN
          LINIXS(2,MATNUM)=.FALSE.
        ELSE
          CALL XABORT('MACXSR: NUSIGF FOR THIS MATERIAL ALREADY READ')
        ENDIF
        LNEWXS(2)=.TRUE.
*----
*  NUSIGF XS
*----
        DO 110 IFIS=1,NIFISS
          DO 120 IGROUP=1,NGROUP
            CALL REDGET(ITYPLU,INTLIR,FLOTT,CARLIR,DBLINP)
            IF(ITYPLU.NE.2) CALL XABORT('MACXSR: READ ERROR - REAL VAR'
     >      //'IABLE EXPECTED: NUSIGF')
            IF(LADD) FLOTT=FLOTT+XSFISS(MATNUM,IFIS,IGROUP)
            XSFISS(MATNUM,IFIS,IGROUP)=FLOTT
 120      CONTINUE
 110    CONTINUE
      ELSE IF(CARLIR.EQ.'FIXE') THEN
        IF(MATNUM.LE.0)CALL XABORT('MACXSR: NO MIXTURE NUMBER PROVIDED')
        IF(LINIXS(3,MATNUM)) THEN
          LINIXS(3,MATNUM)=.FALSE.
        ELSE
          CALL XABORT('MACXSR: FIXE FOR THIS MATERIAL ALREADY READ')
        ENDIF
        LNEWXS(3)=.TRUE.
*----
*  FIXED SOURCES
*----
        DO 130 IGROUP=1,NGROUP
          CALL REDGET(ITYPLU,INTLIR,FLOTT,CARLIR,DBLINP)
          IF(ITYPLU.NE.2) CALL XABORT('MACXSR: READ ERROR - REAL VARIA'
     >    //'BLE EXPECTED: FIXE')
          IF(LADD) FLOTT=FLOTT+XSFIXE(MATNUM,IGROUP)
          XSFIXE(MATNUM,IGROUP)=FLOTT
 130    CONTINUE
      ELSE IF(CARLIR.EQ.'TRANC') THEN
        IF(MATNUM.LE.0)CALL XABORT('MACXSR: NO MIXTURE NUMBER PROVIDED')
        IF(LINIXS(6,MATNUM)) THEN
          LINIXS(6,MATNUM)=.FALSE.
        ELSE
          CALL XABORT('MACXSR: TRANC FOR THIS MATERIAL ALREADY READ')
        ENDIF
        LNEWXS(6)=.TRUE.
*----
*  TRANSPORT CORRECTION
*----
        DO 140 IGROUP=1,NGROUP
          CALL REDGET(ITYPLU,INTLIR,FLOTT,CARLIR,DBLINP)
          IF(ITYPLU.NE.2) CALL XABORT('MACXSR: READ ERROR - REAL VARIA'
     >    //'BLE EXPECTED: TRANC')
          IF(LADD) FLOTT=FLOTT+XSTRAN(MATNUM,IGROUP)
          XSTRAN(MATNUM,IGROUP)=FLOTT
 140    CONTINUE
      ELSE IF(CARLIR.EQ.'DIFF') THEN
        IF(MATNUM.LE.0)CALL XABORT('MACXSR: NO MIXTURE NUMBER PROVIDED')
        IF(LINIXS(7,MATNUM)) THEN
          LINIXS(7,MATNUM)=.FALSE.
        ELSE
          CALL XABORT('MACXSR: DIFF FOR THIS MATERIAL ALREADY READ')
        ENDIF
        LNEWXS(7)=.TRUE.
*----
*  ISOTROPIC DIFFUSION COEFFICIENT
*----
        DO 145 IGROUP=1,NGROUP
          CALL REDGET(ITYPLU,INTLIR,FLOTT,CARLIR,DBLINP)
          IF(ITYPLU.NE.2) CALL XABORT('MACXSR: READ ERROR - REAL VARIA'
     >    //'BLE EXPECTED: DIFF')
          IF(LADD) FLOTT=FLOTT+XSDIFF(MATNUM,IGROUP)
          XSDIFF(MATNUM,IGROUP)=FLOTT
 145    CONTINUE
      ELSE IF(CARLIR.EQ.'DIFFX') THEN
        IF(MATNUM.LE.0)CALL XABORT('MACXSR: NO MIXTURE NUMBER PROVIDED')
        IF(LINIXS(10,MATNUM)) THEN
          LINIXS(10,MATNUM)=.FALSE.
        ELSE
          CALL XABORT('MACXSR: DIFFX FOR THIS MATERIAL ALREADY READ')
        ENDIF
        LNEWXS(10)=.TRUE.
*----
*  X-DIRECTED DIFFUSION COEFFICIENT
*----
        DO IGROUP=1,NGROUP
          CALL REDGET(ITYPLU,INTLIR,FLOTT,CARLIR,DBLINP)
          IF(ITYPLU.NE.2) CALL XABORT('MACXSR: READ ERROR - REAL VARIA'
     >    //'BLE EXPECTED: DIFFX')
          IF(LADD) CALL XABORT('MACXSR: INVALID OPTION ADD FOR DIFFX')
          XSDIFX(MATNUM,IGROUP)=FLOTT
        ENDDO
      ELSE IF(CARLIR.EQ.'DIFFY') THEN
        IF(MATNUM.LE.0)CALL XABORT('MACXSR: NO MIXTURE NUMBER PROVIDED')
        IF(LINIXS(11,MATNUM)) THEN
          LINIXS(11,MATNUM)=.FALSE.
        ELSE
          CALL XABORT('MACXSR: DIFFY FOR THIS MATERIAL ALREADY READ')
        ENDIF
        LNEWXS(11)=.TRUE.
*----
*  Y-DIRECTED DIFFUSION COEFFICIENT
*----
        DO IGROUP=1,NGROUP
          CALL REDGET(ITYPLU,INTLIR,FLOTT,CARLIR,DBLINP)
          IF(ITYPLU.NE.2) CALL XABORT('MACXSR: READ ERROR - REAL VARIA'
     >    //'BLE EXPECTED: DIFFY')
          IF(LADD) CALL XABORT('MACXSR: INVALID OPTION ADD FOR DIFFY')
          XSDIFY(MATNUM,IGROUP)=FLOTT
        ENDDO
      ELSE IF(CARLIR.EQ.'DIFFZ') THEN
        IF(MATNUM.LE.0)CALL XABORT('MACXSR: NO MIXTURE NUMBER PROVIDED')
        IF(LINIXS(12,MATNUM)) THEN
          LINIXS(12,MATNUM)=.FALSE.
        ELSE
          CALL XABORT('MACXSR: DIFFZ FOR THIS MATERIAL ALREADY READ')
        ENDIF
        LNEWXS(12)=.TRUE.
*----
*  Z-DIRECTED DIFFUSION COEFFICIENT
*----
        DO IGROUP=1,NGROUP
          CALL REDGET(ITYPLU,INTLIR,FLOTT,CARLIR,DBLINP)
          IF(ITYPLU.NE.2) CALL XABORT('MACXSR: READ ERROR - REAL VARIA'
     >    //'BLE EXPECTED: DIFFZ')
          IF(LADD) CALL XABORT('MACXSR: INVALID OPTION ADD FOR DIFFZ')
          XSDIFZ(MATNUM,IGROUP)=FLOTT
        ENDDO
      ELSE IF(CARLIR.EQ.'NUSIGD') THEN
        IF(MATNUM.LE.0)CALL XABORT('MACXSR: NO MIXTURE NUMBER PROVIDED')
        IF(NDELG.EQ.0)CALL XABORT('MACXSR: NDG EXPECTED GREATER THAN'
     >  //' ZERO')
        IF(LINIXS(13,MATNUM)) THEN
          LINIXS(13,MATNUM)=.FALSE.
        ELSE
          CALL XABORT('MACXSR: NUSIGD FOR THIS MATERIAL ALREADY READ')
        ENDIF
        LNEWXS(13)=.TRUE.
*----
*  DELAYED-NEUTRON NU*FISSION CROSS SECTIONS
*----
        DO 12 IFIS=1,NIFISS
        DO 11 IDELG=1,NDELG
        DO 10 IGROUP=1,NGROUP
          CALL REDGET(ITYPLU,INTLIR,FLOTT,CARLIR,DBLINP)
          IF(ITYPLU.NE.2) CALL XABORT('MACXSR: READ ERROR - REAL VAR'
     >    //'IABLE EXPECTED: NUSIGD ')
          IF(LADD) CALL XABORT('MACXSR: INVALID OPTION ADD FOR NUSIGD')
          XSNUDL(MATNUM,IFIS,IDELG,IGROUP)=FLOTT
 10     CONTINUE
 11     CONTINUE
 12     CONTINUE
      ELSE IF(CARLIR.EQ.'CHDL') THEN
        IF(MATNUM.LE.0)CALL XABORT('MACXSR: NO MIXTURE NUMBER PROVIDED')
        IF(NDELG.EQ.0)CALL XABORT('MACXSR: NDG EXPECTED GREATER THAN'
     >  //' ZERO')
        IF(LINIXS(14,MATNUM)) THEN
          LINIXS(14,MATNUM)=.FALSE.
        ELSE
          CALL XABORT('MACXSR: CHDL FOR THIS MATERIAL ALREADY READ')
        ENDIF
        LNEWXS(14)=.TRUE.
*----
*  DELAYED-NEUTRON FISSION SPECTRUM
*----
        DO 22 IFIS=1,NIFISS
        DO 21 IDELG=1,NDELG
        DO 20 IGROUP=1,NGROUP
          CALL REDGET(ITYPLU,INTLIR,FLOTT,CARLIR,DBLINP)
          IF(ITYPLU.NE.2) CALL XABORT('MACXSR: READ ERROR - REAL VAR'
     >    //'IABLE EXPECTED: CHDL ')
          IF(LADD) CALL XABORT('MACXSR: INVALID OPTION ADD FOR CHDL')
          XSCHDL(MATNUM,IFIS,IDELG,IGROUP)=FLOTT
 20     CONTINUE
 21     CONTINUE
 22     CONTINUE
      ELSE IF(CARLIR.EQ.'OVERV') THEN
        IF(MATNUM.LE.0)CALL XABORT('MACXSR: NO MIXTURE NUMBER PROVIDED')
        IF(LINIXS(15,MATNUM)) THEN
          LINIXS(15,MATNUM)=.FALSE.
        ELSE
          CALL XABORT('MACXSR: OVERV FOR THIS MATERIAL ALREADY READ')
        ENDIF
        LNEWXS(15)=.TRUE.
*----
*  RECIPROCAL NEUTRON VELOCITY
*----
        DO IGROUP=1,NGROUP
          CALL REDGET(ITYPLU,INTLIR,FLOTT,CARLIR,DBLINP)
          IF(ITYPLU.NE.2) CALL XABORT('MACXSR: READ ERROR - REAL VARIA'
     >    //'BLE EXPECTED: OVERV')
          IF(LADD) CALL XABORT('MACXSR: INVALID OPTION ADD FOR OVERV')
          XSOVRV(MATNUM,IGROUP)=FLOTT
        ENDDO
      ELSE IF(CARLIR.EQ.'FLUX-INTG') THEN
        IF(MATNUM.LE.0)CALL XABORT('MACXSR: NO MIXTURE NUMBER PROVIDED')
        IF(LINIXS(17,MATNUM)) THEN
          LINIXS(17,MATNUM)=.FALSE.
        ELSE
         CALL XABORT('MACXSR: FLUX-INTG FOR THIS MATERIAL ALREADY READ')
        ENDIF
        LNEWXS(17)=.TRUE.
*----
*  P0 VOLUME-INTEGRATED FLUX
*----
        DO IGROUP=1,NGROUP
          CALL REDGET(ITYPLU,INTLIR,FLOTT,CARLIR,DBLINP)
          IF(ITYPLU.NE.2) CALL XABORT('MACXSR: READ ERROR - REAL VARIA'
     >    //'BLE EXPECTED: FLUX-INTG')
          IF(LADD) CALL XABORT('MACXSR: INVALID OPTION ADD FOR FLUX-IN'
     >    //'TG')
          XSINT0(MATNUM,IGROUP)=FLOTT
        ENDDO
      ELSE IF(CARLIR.EQ.'FLUX-INTG-P1') THEN
        IF(MATNUM.LE.0)CALL XABORT('MACXSR: NO MIXTURE NUMBER PROVIDED')
        IF(LINIXS(18,MATNUM)) THEN
          LINIXS(18,MATNUM)=.FALSE.
        ELSE
          CALL XABORT('MACXSR: FLUX-INTG-P1 FOR THIS MATERIAL ALREADY '
     >    //'READ')
        ENDIF
        LNEWXS(18)=.TRUE.
*----
*  P1 VOLUME-INTEGRATED FLUX
*----
        DO IGROUP=1,NGROUP
          CALL REDGET(ITYPLU,INTLIR,FLOTT,CARLIR,DBLINP)
          IF(ITYPLU.NE.2) CALL XABORT('MACXSR: READ ERROR - REAL VARIA'
     >    //'BLE EXPECTED: FLUX-INTG-P1')
          IF(LADD) CALL XABORT('MACXSR: INVALID OPTION ADD FOR FLUX-IN'
     >    //'TG-P1')
          XSINT1(MATNUM,IGROUP)=FLOTT
        ENDDO
      ELSE IF(CARLIR.EQ.'H-FACTOR') THEN
        IF(MATNUM.LE.0)CALL XABORT('MACXSR: NO MIXTURE NUMBER PROVIDED')
        IF(LINIXS(8,MATNUM)) THEN
          LINIXS(8,MATNUM)=.FALSE.
        ELSE
          CALL XABORT('MACXSR: H-FACTOR FOR THIS MATERIAL ALREADY READ')
        ENDIF
        LNEWXS(8)=.TRUE.
*----
*  POWER FACTOR
*----
        DO 146 IGROUP=1,NGROUP
          CALL REDGET(ITYPLU,INTLIR,FLOTT,CARLIR,DBLINP)
          IF(ITYPLU.NE.2) CALL XABORT('MACXSR: READ ERROR - REAL VARIA'
     >    //'BLE EXPECTED: H-FACTOR')
          IF(LADD) FLOTT=FLOTT+XSH(MATNUM,IGROUP)
          XSH(MATNUM,IGROUP)=FLOTT
 146    CONTINUE
      ELSE IF(CARLIR.EQ.'NTOT1') THEN
        IF(MATNUM.LE.0)CALL XABORT('MACXSR: NO MIXTURE NUMBER PROVIDED')
        IF(LINIXS(9,MATNUM)) THEN
          LINIXS(9,MATNUM)=.FALSE.
        ELSE
          CALL XABORT('MACXSR: P1 TOTAL XS FOR THIS MATERIAL ALREADY R'
     >    //'EAD')
        ENDIF
        LNEWXS(9)=.TRUE.
*----
*  P1 TOTAL XS
*----
        DO 147 IGROUP=1,NGROUP
          CALL REDGET(ITYPLU,INTLIR,FLOTT,CARLIR,DBLINP)
          IF(ITYPLU.NE.2) CALL XABORT('MACXSR: READ ERROR - REAL VARIA'
     >    //'BLE EXPECTED: P1 TOTAL XS')
          IF(LADD) FLOTT=FLOTT+XSTOT1(MATNUM,IGROUP)
          XSTOT1(MATNUM,IGROUP)=FLOTT
 147    CONTINUE
      ELSE IF(CARLIR.EQ.'CHI') THEN
        IF(MATNUM.LE.0)CALL XABORT('MACXSR: NO MIXTURE NUMBER PROVIDED')
        IF(NIFISS.EQ.0)CALL XABORT('MACXSR: NIFISS EXPECTED GREATER TH'
     >  //'AN ZERO')
        IF(LINIXS(4,MATNUM)) THEN
          LINIXS(4,MATNUM)=.FALSE.
        ELSE
          CALL XABORT('MACXSR: CHI FOR THIS MATERIAL ALREADY READ')
        ENDIF
        LNEWXS(4)=.TRUE.
*----
*  FISSION SPECTRUM
*----
        DO 150 IFIS=1,NIFISS
          DO 160 IGROUP=1,NGROUP
            CALL REDGET(ITYPLU,INTLIR,FLOTT,CARLIR,DBLINP)
            IF(ITYPLU.NE.2) CALL XABORT('MACXSR: READ ERROR - REAL VAR'
     >      //'IABLE EXPECTED: CHI ')
            IF(LADD) FLOTT=FLOTT+XSSPEC(MATNUM,IFIS,IGROUP)
            XSSPEC(MATNUM,IFIS,IGROUP)=FLOTT
 160      CONTINUE
 150    CONTINUE
      ELSE IF(CARLIR.EQ.'NFTOT') THEN
        IF(MATNUM.LE.0)CALL XABORT('MACXSR: NO MIXTURE NUMBER PROVIDED')
        IF(LINIXS(16,MATNUM)) THEN
          LINIXS(16,MATNUM)=.FALSE.
        ELSE
          CALL XABORT('MACXSR: NFTOT FOR THIS MATERIAL ALREADY READ')
        ENDIF
        LNEWXS(16)=.TRUE.
*----
*  FISSION XS
*----
        DO 155 IGROUP=1,NGROUP
          CALL REDGET(ITYPLU,INTLIR,FLOTT,CARLIR,DBLINP)
          IF(ITYPLU.NE.2) CALL XABORT('MACXSR: READ ERROR - REAL VARIA'
     >    //'BLE EXPECTED: NFTOT')
          IF(LADD) FLOTT=FLOTT+XSNFTO(MATNUM,IGROUP)
          XSNFTO(MATNUM,IGROUP)=FLOTT
 155    CONTINUE
      ELSE IF(CARLIR.EQ.'SCAT') THEN
        IF(MATNUM.LE.0)CALL XABORT('MACXSR: NO MIXTURE NUMBER PROVIDED')
        IF(LINIXS(5,MATNUM)) THEN
          LINIXS(5,MATNUM)=.FALSE.
        ELSE
          CALL XABORT('MACXSR: SCATT XS FOR THIS MATERIAL ALREADY READ')
        ENDIF
        LNEWXS(5)=.TRUE.
*----
*  SCATTERING XS: XSSCAT(JGROUP,MATNUM,JANS,IGROUP) WHERE IGROUP IS
*                 THE SECONDARY GROUP.
*----
        DO 170 JANS=1,NANISO
          ISCATA(JANS)=2
          DO 180 IGROUP=1,NGROUP
*----
*  READ NUMBER OF GROUPS AND FIRST GROUP
*----
            CALL REDGET(ITYPLU,ING,REALIR,CARLIR,DBLINP)
            IF(ITYPLU.NE.1) THEN
              CALL XABORT('MACXSR: READ ERROR - INTEGER VARIABLE EXPEC'
     >        //'TED FOR SCAT: NGSCAT ')
            ENDIF
            CALL REDGET(ITYPLU,IFG,REALIR,CARLIR,DBLINP)
            IF(ITYPLU.NE.1) CALL XABORT('MACXSR: READ ERROR - INTEGER '
     >      //'VARIABLE EXPECTED FOR SCAT: NFSCAT')
*----
*  READ SCATTERING XS
*----
            DO 190 JGROUP=NGROUP,1,-1
              IF((JGROUP.GT.IFG).OR.(JGROUP.LE.(IFG-ING))) THEN
                IF(.NOT.LADD) XSSCAT(JGROUP,MATNUM,JANS,IGROUP)=0.0
              ELSE
                CALL REDGET(ITYPLU,INTLIR,FLOTT,CARLIR,DBLINP)
                IF(ITYPLU.NE.2) CALL XABORT('MACXSR: READ ERROR - REAL'
     >          //' VARIABLE EXPECTED: SCAT')
                IF(LADD) FLOTT=FLOTT+XSSCAT(JGROUP,MATNUM,JANS,IGROUP)
                XSSCAT(JGROUP,MATNUM,JANS,IGROUP)=FLOTT
              ENDIF
 190        CONTINUE
 180      CONTINUE
 170    CONTINUE
      ELSE IF(CARLIR.EQ.'ADF') THEN
         CALL REDGET(ITYPLU,INTLIR,FLOTT,CARLIR,DBLINP)
         IF(ITYPLU.NE.3) CALL XABORT('MACXSR: READ ERROR - CHARACTER '
     >   //'VARIABLE EXPECTED: HADF')
         ITYPE=ITYPE+1
         IF(ITYPE.GT.NTYPE) CALL XABORT('MACXSR: NTYPE OVERFLOW.')
         IF(HADF(ITYPE).EQ.' ') THEN
           HADF(ITYPE)=CARLIR(:8)
         ELSE IF(CARLIR(:8).NE.HADF(ITYPE)) THEN
           CALL XABORT('MACXSR: READ ERROR - ADF NAME '//HADF(ITYPE)//
     1     ' EXPECTED.')
         ENDIF
         DO 205 IGROUP=1,NGROUP
           CALL REDGET(ITYPLU,INTLIR,FLOTT,CARLIR,DBLINP)
           IF(ITYPLU.NE.2) CALL XABORT('MACXSR: READ ERROR - REAL VAR'
     >     //'IABLE EXPECTED: XADF ')
           XADF(MATNUM,IGROUP,ITYPE)=FLOTT
 205     CONTINUE
      ELSE
        IF(.NOT. LUPD .AND. MATNUM.GT.0 ) THEN
*----
*  RESET XS THAT WERE NOT READ FOR THIS MATERIAL TO 0.0
*----
          IF(LINIXS(1,MATNUM).AND.LOLDXS(1)) THEN
            LNEWXS(1)=.TRUE.
            DO 300 IGG=1,NGROUP
              XSTOTL(MATNUM,IGG)=0.0
 300        CONTINUE
          ENDIF
          IF(LINIXS(2,MATNUM).AND.LOLDXS(2)) THEN
            LNEWXS(2)=.TRUE.
            DO 310 IGG=1,NGROUP
              DO 320 IFS=1,NIFISS
                XSFISS(MATNUM,IFS,IGG)=0.0
 320          CONTINUE
 310        CONTINUE
          ENDIF
          IF(LINIXS(3,MATNUM).AND.LOLDXS(3)) THEN
            LNEWXS(3)=.TRUE.
            DO 330 IGG=1,NGROUP
              XSFIXE(MATNUM,IGG)=0.0
 330        CONTINUE
          ENDIF
          IF(LINIXS(4,MATNUM).AND.LOLDXS(4)) THEN
            LNEWXS(4)=.TRUE.
            DO 340 IGG=1,NGROUP
              DO 350 IFS=1,NIFISS
                XSSPEC(MATNUM,IFS,IGG)=0.0
 350          CONTINUE
 340        CONTINUE
          ENDIF
          IF(LINIXS(5,MATNUM).AND.LOLDXS(5)) THEN
            LNEWXS(5)=.TRUE.
            DO 360 JANS=1,NANISO
              IF(ISCATA(JANS).GE.1) THEN
                ISCATA(JANS)=2
                DO 370 IGG=1,NGROUP
                  DO 380 JGG=1,NGROUP
                    XSSCAT(JGG,MATNUM,JANS,IGG)=0.0
 380              CONTINUE
 370            CONTINUE
              ENDIF
 360        CONTINUE
          ENDIF
          IF(LINIXS(6,MATNUM).AND.LOLDXS(6)) THEN
            LNEWXS(6)=.TRUE.
            DO 390 IGG=1,NGROUP
              XSTRAN(MATNUM,IGG)=0.0
 390        CONTINUE
          ENDIF
          IF(LINIXS(7,MATNUM).AND.LOLDXS(7)) THEN
            LNEWXS(7)=.TRUE.
            DO 400 IGG=1,NGROUP
              XSDIFF(MATNUM,IGG)=0.0
 400        CONTINUE
          ENDIF
          IF(LINIXS(8,MATNUM).AND.LOLDXS(8)) THEN
            LNEWXS(8)=.TRUE.
            DO 410 IGG=1,NGROUP
              XSH(MATNUM,IGG)=0.0
 410        CONTINUE
          ENDIF
          IF(LINIXS(9,MATNUM).AND.LOLDXS(9)) THEN
            LNEWXS(9)=.TRUE.
            DO 420 IGG=1,NGROUP
              XSTOT1(MATNUM,IGG)=0.0
 420        CONTINUE
          ENDIF
          IF(LINIXS(10,MATNUM).AND.LOLDXS(10)) THEN
            LNEWXS(10)=.TRUE.
            DO 430 IGG=1,NGROUP
            XSDIFX(MATNUM,IGG)=0.0
 430        CONTINUE
          ENDIF
          IF(LINIXS(11,MATNUM).AND.LOLDXS(11)) THEN
            LNEWXS(11)=.TRUE.
            DO 440 IGG=1,NGROUP
            XSDIFY(MATNUM,IGG)=0.0
 440        CONTINUE
          ENDIF
          IF(LINIXS(12,MATNUM).AND.LOLDXS(12)) THEN
            LNEWXS(12)=.TRUE.
            DO 450 IGG=1,NGROUP
            XSDIFZ(MATNUM,IGG)=0.0
 450        CONTINUE
          ENDIF
          IF(LINIXS(13,MATNUM).AND.LOLDXS(13)) THEN
            LNEWXS(13)=.TRUE.
            DO 462 IGG=1,NGROUP
            DO 461 IDELG=1,NDELG
            DO 460 IFS=1,NIFISS
            XSNUDL(MATNUM,IFS,IDELG,IGG)=0.0
 460        CONTINUE
 461        CONTINUE
 462        CONTINUE
          ENDIF
          IF(LINIXS(14,MATNUM).AND.LOLDXS(14)) THEN
            LNEWXS(14)=.TRUE.
            DO 472 IGG=1,NGROUP
            DO 471 IDELG=1,NDELG
            DO 470 IFS=1,NIFISS
            XSCHDL(MATNUM,IFS,IDELG,IGG)=0.0
 470        CONTINUE
 471        CONTINUE
 472        CONTINUE
          ENDIF
          IF(LINIXS(15,MATNUM).AND.LOLDXS(15)) THEN
            LNEWXS(15)=.TRUE.
            DO 480 IGG=1,NGROUP
            XSOVRV(MATNUM,IGG)=0.0
 480        CONTINUE
          ENDIF
          IF(LINIXS(16,MATNUM).AND.LOLDXS(16)) THEN
            LNEWXS(16)=.TRUE.
            DO 490 IGG=1,NGROUP
            XSNFTO(MATNUM,IGG)=0.0
 490        CONTINUE
          ENDIF
          IF(LINIXS(17,MATNUM).AND.LOLDXS(17)) THEN
            LNEWXS(17)=.TRUE.
            DO 500 IGG=1,NGROUP
            XSINT0(MATNUM,IGG)=0.0
 500        CONTINUE
          ENDIF
          IF(LINIXS(18,MATNUM).AND.LOLDXS(18)) THEN
            LNEWXS(18)=.TRUE.
            DO 510 IGG=1,NGROUP
            XSINT1(MATNUM,IGG)=0.0
 510        CONTINUE
          ENDIF
        ENDIF
*----
*  READ MIXTURE INDEX
*----
        IF(CARLIR.EQ.'MIX') THEN
          MATNUM=MATNUM+1
          ITYPE=0
          CALL REDGET(ITYPLU,MATNUM,REALIR,CARLIR,DBLINP)
          IF(MATNUM.GT.NBMIX) CALL XABORT('MACXSR: MATNUM OVERFLOW.')
          IF(ITYPLU.NE.1) GO TO 1001
        ELSE
*----
*  ALL MIXTURE READ RETURN
*----
          IF(IPRINT.GE.1) THEN
*----
*  FIND MATERIAL FOR WHICH XS ARE READ AND PRINT TYPE OF XS READ
*----
            WRITE(IUNOUT,6000) NANISO
            DO 220 IM=1,NBMIX
              DO 230 IT=1,NCXST
                IF(.NOT.LINIXS(IT,IM)) THEN
                  CARXST(IT)='READ  '
                ELSE
                  CARXST(IT)='      '
                ENDIF
 230          CONTINUE
              WRITE(IUNOUT,6001) IM,(CARXST(JJ),JJ=1,7),CARXST(15),
     >        CARXST(16),CARXST(17),CARXST(18)
 220        CONTINUE
          ENDIF
          GO TO 550
        ENDIF
      ENDIF
*----
*  RETURN TO READ NEXT KEYWORD
*----
      GO TO 1000
*----
*  SCRATCH STORAGE DEALLOCATION
*----
  550 DEALLOCATE(LINIXS)
      RETURN
*----
*  FORMAT
*----
 6000 FORMAT(' CROSS SECTION TYPE',5X,'NTOT0 ',5X,'NUSIGF',5X,'FIXE  ',
     > 5X,'CHI   ',5X,'SCAT (NL=  1,',I3,')',8X,'TRANC ',5X,'DIFF  ',
     > 5X,'H-FACTOR',3X,'NFTOT',6X,'FLUX-INTG',2X,'FLUX-INTG-P1')
 6001 FORMAT(' MATERIAL ',I5,4X,5(5X,A6),16X,A6,3X,5(5X,A6))
      END