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|
*DECK NCRRGR
SUBROUTINE NCRRGR(IPCPO,IPMAP,LCUBIC,NMIX,IMPX,NMIL,NCAL,NCH,NB,
1 NFUEL,NPARM,ITER,MAXNIS,MIXC,TERP,NISO,LISO,HISO,CONC)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Compute TERP factors for multicompo interpolation. Use global and
* local parameters from a fuel-map object and optional user-defined
* values.
*
*Copyright:
* Copyright (C) 2007 Ecole Polytechnique de Montreal
*
*Author(s):
* A. Hebert, D. Sekki, R. Chambon
*
*Parameters: input
* IPCPO address of the multicompo object.
* IPMAP address of the fuel-map object.
* LCUBIC =.TRUE.: cubic Ceschino interpolation; =.FALSE: linear
* Lagrange interpolation.
* NMIX number of material mixtures in the fuel-map macrolib.
* IMPX printing index (=0 for no print).
* NMIL number of material mixtures in the multicompo.
* NCAL number of elementary calculations in the multicompo.
* NCH number of reactor channels.
* NB number of fuel bundles per channel.
* NFUEL number of fuel types.
* NPARM number of additional parameters (other than burnup) defined
* in FMAP object
*
*Parameters: output
* ITER completion flag (=0: all over; =1: use another multicompo;
* =2 use another L_MAP + multicompo).
* MAXNIS maximum value of NISO(I) in user data.
* MIXC mixture index in the multicompo corresponding to each microlib
* mixture.
* TERP interpolation factors.
* NISO number of user-selected isotopes.
* LISO type of treatment (=.true.: ALL; =.false.: ONLY).
* HISO name of the user-selected isotopes.
* CONC user-defined number density of the user-selected isotopes. A
* value of -99.99 is set to indicate that the multicompo value
* is used.
*
*-----------------------------------------------------------------------
*
USE GANLIB
IMPLICIT NONE
*----
* SUBROUTINE ARGUMENTS
*----
INTEGER, PARAMETER::MAXISD=200
TYPE(C_PTR) IPCPO,IPMAP
INTEGER NMIX,IMPX,NMIL,NCAL,NFUEL,NCH,NB,ITER,MAXNIS,
1 MIXC(NMIX),NPARM,HISO(2,NMIX,MAXISD),NISO(NMIX)
REAL TERP(NCAL,NMIX),CONC(NMIX,MAXISD)
LOGICAL LCUBIC,LISO(NMIX)
*----
* LOCAL VARIABLES
*----
INTEGER, PARAMETER::IOUT=6
INTEGER, PARAMETER::MAXADD=10
INTEGER, PARAMETER::MAXLIN=50
INTEGER, PARAMETER::MAXPAR=50
INTEGER, PARAMETER::MAXVAL=200
INTEGER, PARAMETER::NSTATE=40
REAL, PARAMETER::REPS=1.0E-4
REAL BURN0, BURN1, FLOTT, SUM, VALR1, VALR2, VARVAL
INTEGER I0, IBMB, IBME, IBMOLD, IBM, IBTYP, IB, ICAL, ICH, IFUEL,
& ILONG, IMIX, IMPY, INDIC, IPARTM, IPAR, ISO, ITYLCM, ITYPE, ITYP,
& IVARTY, I, JBM, JB, JCAL, JPARM, JPAR, J, LENGTH, NCOMLI, NISOMI,
& NITMA, NLOC, NMIXA, NPARMP, NPAR, NTOT, N
CHARACTER TEXT12*12,PARKEY(MAXPAR)*12,PARFMT(MAXPAR)*8,
1 PARKEL(MAXPAR)*12,HSMG*131,COMMEN(MAXLIN)*80,VALH(MAXPAR)*12,
2 RECNAM*12,VCHAR(MAXVAL)*12,PARNAM*12,HCUBIC*12,HNAVAL*12
INTEGER ISTATE(NSTATE),VALI(MAXPAR),NVALUE(MAXPAR),VINTE(MAXVAL),
1 MUPLET(2*MAXPAR),MUTYPE(2*MAXPAR),MAPLET(2*MAXPAR,MAXADD),
2 MATYPE(2*MAXPAR,MAXADD),IDLTA(2*MAXPAR,MAXADD),NDLTA(2*MAXPAR),
3 IDLTA1,MUPLT2(2*MAXPAR),MUTYP2(2*MAXPAR),HISOMI(2,MAXISD)
DOUBLE PRECISION DFLOTT
REAL VALR(2*MAXPAR,2),VREAL(MAXVAL),VALRA(2*MAXPAR,2,MAXADD),
1 CONCMI(MAXISD)
LOGICAL LDELT(2*MAXPAR),LDELT1,LSET(2*MAXPAR),LADD(2*MAXPAR),
1 LSET1,LADD1,LDMAP(2*MAXPAR,2),LAMAP(2*MAXPAR,2,MAXADD),
2 LCUB2(2*MAXPAR),LTST,LISOMI,LASBLY
TYPE(C_PTR) JPMAP,KPMAP,JPCPO,KPCPO,LPCPO
INTEGER, ALLOCATABLE, DIMENSION(:) :: FMIX,ZONEC,MIXA
INTEGER, ALLOCATABLE, DIMENSION(:,:) :: ZONEDP
REAL, ALLOCATABLE, DIMENSION(:) :: BRN0,BRN1,VARC,TERPA
REAL, ALLOCATABLE, DIMENSION(:,:) :: WPAR
LOGICAL, ALLOCATABLE, DIMENSION(:) :: LPARM,LDELTA
CHARACTER(LEN=12), ALLOCATABLE, DIMENSION(:) :: HPAR
*----
* SCRATCH STORAGE ALLOCATION
* FMIX fuel mixture indices per fuel bundle.
* BRN0 contains either low burnup integration limits or
* instantaneous burnups per fuel bundle.
* BRN1 upper burnup integration limits per fuel bundle.
* WPAR other parameter distributions.
* HPAR 'PARKEY' name of the other parameters.
*----
ALLOCATE(LPARM(NPARM+1),FMIX(NCH*NB),ZONEDP(NCH,NB),ZONEC(NCH),
1 BRN0(NCH*NB),BRN1(NCH*NB),WPAR(NCH*NB,NPARM),LDELTA(NMIX),
2 HPAR(NPARM+1))
*----
* RECOVER TABLE-OF-CONTENT INFORMATION FOR THE MULTICOMPO.
*----
CALL LCMGET(IPCPO,'STATE-VECTOR',ISTATE)
NPAR=ISTATE(5)
NLOC=ISTATE(6)
NCOMLI=ISTATE(10)
* ASBLY :
LASBLY=.FALSE.
CALL LCMGTC(IPCPO,'COMMENT',80,NCOMLI,COMMEN)
IF(NPAR.GT.0)THEN
CALL LCMSIX(IPCPO,'GLOBAL',1)
CALL LCMGTC(IPCPO,'PARKEY',12,NPAR,PARKEY)
CALL LCMGTC(IPCPO,'PARFMT',8,NPAR,PARFMT)
CALL LCMGET(IPCPO,'NVALUE',NVALUE)
IF(IMPX.GT.0)THEN
DO IPAR=1,NPAR
WRITE(RECNAM,'(''pval'',I8.8)') IPAR
IF(PARFMT(IPAR).EQ.'INTEGER') THEN
CALL LCMGET(IPCPO,RECNAM,VINTE)
WRITE(IOUT,'(13H NCRRGR: KEY=,A,18H TABULATED POINTS=,
1 1P,6I12/(43X,6I12))') PARKEY(IPAR),(VINTE(I),I=1,
2 NVALUE(IPAR))
ELSE IF(PARFMT(IPAR).EQ.'REAL') THEN
CALL LCMGET(IPCPO,RECNAM,VREAL)
WRITE(IOUT,'(13H NCRRGR: KEY=,A,18H TABULATED POINTS=,
1 1P,6E12.4/(43X,6E12.4))') PARKEY(IPAR),(VREAL(I),I=1,
2 NVALUE(IPAR))
ELSE IF(PARFMT(IPAR).EQ.'STRING') THEN
CALL LCMGTC(IPCPO,RECNAM,12,NVALUE(IPAR),VCHAR)
WRITE(IOUT,'(13H NCRRGR: KEY=,A,18H TABULATED POINTS=,
1 1P,6A12/(43X,6A12))') PARKEY(IPAR),(VCHAR(I),I=1,
2 NVALUE(IPAR))
ENDIF
ENDDO
ENDIF
CALL LCMSIX(IPCPO,' ',2)
ENDIF
IF(NLOC.GT.0)THEN
CALL LCMSIX(IPCPO,'LOCAL',1)
CALL LCMGTC(IPCPO,'PARKEY',12,NLOC,PARKEL)
CALL LCMSIX(IPCPO,' ',2)
JPCPO=LCMGID(IPCPO,'MIXTURES')
DO IBMOLD=1,NMIL
KPCPO=LCMGIL(JPCPO,IBMOLD)
LPCPO=LCMGID(KPCPO,'TREE')
CALL LCMGET(LPCPO,'NVALUE',NVALUE)
IF(IMPX.GT.0)THEN
WRITE(IOUT,'(17H NCRRGR: MIXTURE=,I6)') IBMOLD
DO IPAR=1,NLOC
WRITE(RECNAM,'(''pval'',I8.8)') IPAR
CALL LCMGET(LPCPO,RECNAM,VREAL)
WRITE(IOUT,'(13H NCRRGR: KEY=,A,18H TABULATED POINTS=,
1 1P,6E12.4/(43X,6E12.4))') PARKEL(IPAR),(VREAL(I),I=1,
2 NVALUE(IPAR))
ENDDO
ENDIF
ENDDO
ENDIF
IF(IMPX.GT.0) THEN
WRITE(IOUT,'(43H NCRRGR: NUMBER OF CALCULATIONS IN MULTICOM,
1 3HPO=,I5)') NCAL
WRITE(IOUT,'(43H NCRRGR: NUMBER OF MATERIAL MIXTURES IN MUL,
1 8HTICOMPO=,I5)') NMIL
WRITE(IOUT,'(43H NCRRGR: NUMBER OF MATERIAL MIXTURES IN FUE,
1 6HL MAP=,I6)') NMIX
WRITE(IOUT,'(1X,A)') (COMMEN(I),I=1,NCOMLI)
ENDIF
TERP(:NCAL,:NMIX)=0.0
MIXC(:NMIX)=0
*----
* READ (INTERP_DATA) AND SET VALI, VALR AND VALH PARAMETERS
* CORRESPONDING TO THE INTERPOLATION POINT. FILL MUPLET FOR
* PARAMETERS SET WITHOUT INTERPOLATION.
*----
IBM=0
IBMB=0
IBME=0
MAXNIS=0
NISOMI=0
LISOMI=.TRUE.
LDELT1=.FALSE.
LADD1=.FALSE.
NISO(:NMIX)=0
LISO(:NMIX)=.TRUE.
LDELTA(:NMIX)=.FALSE.
IDLTA1=0
DO I=1,2*MAXPAR
LSET(I)=.FALSE.
LDELT(I)=.FALSE.
LADD(I)=.FALSE.
LDMAP(I,:2)=.FALSE.
LAMAP(I,:2,:MAXADD)=.FALSE.
NDLTA(I)=0
ENDDO
*----
* READ THE PARKEY NAME OF THE BURNUP FOR THIS MULTICOMPO.
*----
CALL REDGET(INDIC,NITMA,FLOTT,TEXT12,DFLOTT)
IF(INDIC.NE.3)CALL XABORT('NCRRGR: CHARACTER DATA EXPECTED(1).')
IF((TEXT12.EQ.'MIX').OR.(TEXT12.EQ.';')) THEN
NPARMP=NPARM
GO TO 30
ELSE
* add burnup to parameters
NPARMP=NPARM+1
HPAR(NPARMP)=TEXT12
CALL REDGET(INDIC,NITMA,FLOTT,TEXT12,DFLOTT)
IF(INDIC.NE.3)CALL XABORT('MCRRGR: CHARACTER DATA EXPECTED(2).')
IF((TEXT12.EQ.'MIX').OR.(TEXT12.EQ.';')) GO TO 30
HNAVAL=TEXT12
ENDIF
*----
* MAIN LOOP OF THE SUBROUTINE (UNTIL THE END)
*----
20 CALL REDGET(INDIC,NITMA,FLOTT,TEXT12,DFLOTT)
IF(INDIC.NE.3)CALL XABORT('NCRRGR: CHARACTER DATA EXPECTED(2).')
30 IF(TEXT12.EQ.'MIX')THEN
NISOMI=0
LISOMI=.TRUE.
IVARTY=0
IBTYP=0
HNAVAL=' '
MUPLET(:NPAR+NLOC)=0
MUTYPE(:NPAR+NLOC)=0
VALI(:NPAR)=0
VALR(:NPAR+NLOC,1)=0.0
VALR(:NPAR+NLOC,2)=0.0
DO 35 I=1,MAXADD
MAPLET(:NPAR+NLOC,I)=0
MATYPE(:NPAR+NLOC,I)=0
VALRA(:NPAR+NLOC,1,I)=0.0
VALRA(:NPAR+NLOC,2,I)=0.0
35 CONTINUE
DO I=1,2*MAXPAR
LSET(I)=.FALSE.
LDELT(I)=.FALSE.
LADD(I)=.FALSE.
LDMAP(I,:2)=.FALSE.
LAMAP(I,:2,:MAXADD)=.FALSE.
ENDDO
DO 40 I=1,NPAR
VALH(I)=' '
40 CONTINUE
LCUB2(:NPAR+NLOC)=LCUBIC
CALL REDGET(INDIC,IBM,FLOTT,TEXT12,DFLOTT)
IF(INDIC.NE.1)CALL XABORT('NCRRGR: INTEGER DATA EXPECTED.')
* CHECK FUEL MIXTURE
JPMAP=LCMGID(IPMAP,'FUEL')
DO IFUEL=1,NFUEL
KPMAP=LCMGIL(JPMAP,IFUEL)
CALL LCMGET(KPMAP,'MIX',IMIX)
IF(IMIX.EQ.IBM)GOTO 50
ENDDO
WRITE(IOUT,*)'NCRRGR: UNABLE TO FIND FUEL MIXTURE ',IBM
CALL XABORT('NCRRGR: WRONG MIXTURE NUMBER.')
50 IBMOLD=1
CALL REDGET(INDIC,NITMA,FLOTT,TEXT12,DFLOTT)
IF(INDIC.NE.3)CALL XABORT('NCRRGR: CHARACTER DATA EXPECTED(3).')
IF(TEXT12.EQ.'FROM')THEN
CALL REDGET(INDIC,IBMOLD,FLOTT,TEXT12,DFLOTT)
IF(INDIC.NE.1)CALL XABORT('NCRRGR: INTEGER DATA EXPECTED.')
CALL REDGET(INDIC,NITMA,FLOTT,TEXT12,DFLOTT)
IF(INDIC.NE.3)CALL XABORT('NCRRGR: CHARACTER DATA EXPECTE'
1 //'D.')
ELSE IF(TEXT12.EQ.'USE') THEN
IBMOLD=IBM
CALL REDGET(INDIC,NITMA,FLOTT,TEXT12,DFLOTT)
IF(INDIC.NE.3)CALL XABORT('NCRRGR: CHARACTER DATA EXPECTE'
1 //'D.')
* ASBLY: automatically assembly-wise unfolded geometry
ELSE IF(TEXT12.EQ.'ASBLY') THEN
IF(LASBLY) DEALLOCATE(MIXA)
IBMOLD=1
LASBLY=.TRUE.
JPMAP=LCMGID(IPMAP,'GEOMAP')
CALL LCMGET(JPMAP,'STATE-VECTOR',ISTATE)
CALL LCMLEN(JPMAP,'MIX-ASBLY',NITMA,INDIC)
IF(NITMA.EQ.0)CALL XABORT('NCRRGR: No assembly defined')
NMIXA=NITMA/2
* NMIXA=ISTATE(39)
ALLOCATE(MIXA(2*NMIXA))
CALL LCMGET(JPMAP,'MIX-ASBLY',MIXA)
DO I=1,NMIXA
IF(IBM.EQ.MIXA(I)) THEN
IBMB=MIXA(I+NMIXA)
IBME=IBMB+NMIL-1
CALL REDGET(INDIC,NITMA,FLOTT,TEXT12,DFLOTT)
IF(INDIC.NE.3)CALL XABORT('NCRRGR: CHARACTER DATA EXPECTE'
1 //'D.')
GOTO 30
ENDIF
ENDDO
CALL XABORT('NCRRGR: WRONG ASSEMBLY MIXTURE.')
ENDIF
* ASBLY: automatically assembly-wise unfolded geometry
IBMB=IBM
IBME=IBM
GOTO 30
ELSEIF(TEXT12.EQ.'MICRO')THEN
IF(IBM.EQ.0) CALL XABORT('NCRRGR: MIX NOT SET (1).')
CALL REDGET(INDIC,NITMA,FLOTT,TEXT12,DFLOTT)
IF(INDIC.NE.3)CALL XABORT('NCRRGR: CHARACTER DATA EXPECTED(4).')
IF(TEXT12.EQ.'ALL')THEN
LISOMI=.TRUE.
ELSEIF(TEXT12.EQ.'ONLY')THEN
LISOMI=.FALSE.
ENDIF
CALL REDGET(INDIC,NITMA,FLOTT,TEXT12,DFLOTT)
IF(INDIC.NE.3)CALL XABORT('NCRRGR: CHARACTER DATA EXPECTED(5).')
60 IF(TEXT12.EQ.'ENDMIX')THEN
GOTO 30
ELSE
NISOMI=NISOMI+1
IF(NISOMI.GT.MAXISD) CALL XABORT('NCRRGR: MAXISD OVERFLOW.')
MAXNIS=MAX(MAXNIS,NISOMI)
READ(TEXT12,'(2A4)') (HISOMI(I0,NISOMI),I0=1,2)
CALL REDGET(INDIC,NITMA,FLOTT,TEXT12,DFLOTT)
IF(INDIC.EQ.2)THEN
CONCMI(NISOMI)=FLOTT
ELSEIF((INDIC.EQ.3).AND.(TEXT12.EQ.'*'))THEN
CONCMI(NISOMI)=-99.99
ELSE
CALL XABORT('NCRRGR: INVALID HISO DATA.')
ENDIF
CALL REDGET(INDIC,NITMA,FLOTT,TEXT12,DFLOTT)
IF(INDIC.NE.3)CALL XABORT('NCRRGR: CHARACTER DATA EXPECTED.')
GOTO 60
ENDIF
ELSEIF((TEXT12.EQ.'SET').OR.(TEXT12.EQ.'DELTA').OR.
1 (TEXT12.EQ.'ADD'))THEN
IF(IBM.EQ.0) CALL XABORT('NCRRGR: MIX NOT SET (2).')
ITYPE=0
LSET1=.FALSE.
LDELT1=.FALSE.
LADD1=.FALSE.
IF(TEXT12.EQ.'SET')THEN
ITYPE=1
LSET1=.TRUE.
ELSEIF(TEXT12.EQ.'DELTA')THEN
ITYPE=2
LDELT1=.TRUE.
ELSEIF(TEXT12.EQ.'ADD')THEN
ITYPE=2
LADD1=.TRUE.
IDLTA1=IDLTA1+1
DO 65 JPAR=1,NPAR+NLOC
MAPLET(JPAR,IDLTA1)=MUPLET(JPAR)
MATYPE(JPAR,IDLTA1)=MUTYPE(JPAR)
65 CONTINUE
ENDIF
CALL REDGET(INDIC,NITMA,FLOTT,TEXT12,DFLOTT)
IF(INDIC.NE.3)CALL XABORT('NCRRGR: CHARACTER DATA EXPECTED(7).')
IF((TEXT12.EQ.'LINEAR').OR.(TEXT12.EQ.'CUBIC')) THEN
HCUBIC=TEXT12
CALL REDGET(INDIC,NITMA,FLOTT,TEXT12,DFLOTT)
ELSE
HCUBIC=' '
ENDIF
IF(INDIC.NE.3)CALL XABORT('NCRRGR: CHARACTER DATA EXPECTED(8).')
* check if parameter is global
IPAR=-99
DO I=1,NPAR
IF(TEXT12.EQ.PARKEY(I))THEN
IPAR=I
LPCPO=LCMGID(IPCPO,'GLOBAL')
IPARTM=IPAR
PARNAM=TEXT12
GOTO 70
ENDIF
ENDDO
* check if parameter is local
DO I=1,NLOC
IF(TEXT12.EQ.PARKEL(I))THEN
IPAR=NPAR+I
JPCPO=LCMGID(IPCPO,'MIXTURES')
KPCPO=LCMGIL(JPCPO,IBMOLD)
LPCPO=LCMGID(KPCPO,'TREE')
IPARTM=IPAR-NPAR
PARNAM=TEXT12
GOTO 70
ENDIF
ENDDO
WRITE(HSMG,'(18HNCRRGR: PARAMETER ,A,14H NOT FOUND(1).)') TEXT12
CALL XABORT(HSMG)
*
70 IF(HCUBIC.EQ.'LINEAR') THEN
LCUB2(IPAR)=.FALSE.
ELSE IF(HCUBIC.EQ.'CUBIC') THEN
LCUB2(IPAR)=.TRUE.
ENDIF
WRITE(RECNAM,'(''pval'',I8.8)') IPARTM
CALL LCMGET(LPCPO,'NVALUE',NVALUE)
IF(NVALUE(IPARTM).GT.MAXVAL)CALL XABORT('NCRRGR: MAXVAL OVERFL'
1 //'OW.')
CALL LCMLEN(LPCPO,RECNAM,LENGTH,ITYLCM)
IF(LENGTH.EQ.0)THEN
WRITE(HSMG,'(25HNCRRGR: GLOBAL PARAMETER ,A,9H NOT SET.)')
1 PARNAM
CALL XABORT(HSMG)
ENDIF
IF((IPAR.GT.NPAR).OR.
1 ((IPAR.LE.NPAR).AND.(PARFMT(IPAR).EQ.'REAL')))THEN
VALR1=VREAL(1)
VALR2=VREAL(NVALUE(IPAR))
CALL LCMGET(LPCPO,RECNAM,VREAL)
CALL REDGET(INDIC,NITMA,VALR1,TEXT12,DFLOTT)
IF(INDIC.EQ.2)THEN
VALR2=VALR1
IF(LSET1) THEN
LSET(IPAR)=.TRUE.
VALR(IPAR,1)=VALR1
VALR(IPAR,2)=VALR1
ENDIF
IF(LDELT1) THEN
LDELT(IPAR)=.TRUE.
VALR(IPAR,1)=VALR1
VALR(IPAR,2)=VALR1
ELSEIF(LADD1) THEN
LADD(IPAR)=.TRUE.
VALRA(IPAR,1,IDLTA1)=VALR1
VALRA(IPAR,2,IDLTA1)=VALR1
NDLTA(IPAR)=NDLTA(IPAR)+1
IF(NDLTA(IPAR).GT.MAXADD) CALL XABORT('NCRRGR: MAXADD OV'
1 //'ERFLOW.')
IDLTA(IPAR,NDLTA(IPAR))=IDLTA1
ENDIF
ELSEIF(TEXT12.EQ.'MAP')THEN
IF(LDELT1)THEN
LDELT(IPAR)=.TRUE.
LDMAP(IPAR,1)=.TRUE.
ELSEIF(LADD1)THEN
LADD(IPAR)=.TRUE.
NDLTA(IPAR)=NDLTA(IPAR)+1
IF(NDLTA(IPAR).GT.MAXADD) CALL XABORT('NCRRGR: MAXADD OV'
1 //'ERFLOW.')
LAMAP(IPAR,1,NDLTA(IPAR))=.TRUE.
IDLTA(IPAR,NDLTA(IPAR))=IDLTA1
ENDIF
IF(LSET1.AND.(.NOT.LSET(IPAR))) GO TO 20
ELSE
CALL XABORT('NCRRGR: real value or "MAP" expected(1).')
ENDIF
CALL REDGET(INDIC,NITMA,FLOTT,TEXT12,DFLOTT)
IF(ITYPE.GE.2)THEN
IF(INDIC.EQ.2)THEN
VALR2=FLOTT
IF(LDELT1)THEN
VALR(IPAR,2)=VALR2
ELSEIF(LADD1)THEN
VALRA(IPAR,2,IDLTA1)=VALR2
ENDIF
ELSEIF(TEXT12.EQ.'MAP')THEN
IF(LDELT1)THEN
LDMAP(IPAR,2)=.TRUE.
ELSEIF(LADD1)THEN
LAMAP(IPAR,2,IDLTA1)=.TRUE.
ENDIF
ELSE
CALL XABORT('NCRRGR: real value or "MAP" expected(2).')
ENDIF
CALL REDGET(INDIC,NITMA,FLOTT,TEXT12,DFLOTT)
ENDIF
LTST=.FALSE.
IF(.NOT.LADD1)THEN
IF(VALR(IPAR,1).EQ.VALR(IPAR,2)) LTST=.TRUE.
MUPLET(IPAR)=-1
MUTYPE(IPAR)=ITYPE
ELSE
MAPLET(IPAR,IDLTA1)=-1
MATYPE(IPAR,IDLTA1)=2
ENDIF
IF((LTST).AND.(ITYPE.EQ.1))THEN
DO J=1,NVALUE(IPARTM)
IF(ABS(VALR(IPAR,1)-VREAL(J)).LE.REPS*ABS(VREAL(J)))THEN
MUPLET(IPAR)=J
GOTO 30
ENDIF
ENDDO
ENDIF
*----
* ERRORS HANDLING
*----
IF(VALR1.LT.VREAL(1))THEN
* OUTSIDE OF THE DOMAIN (1)
WRITE(HSMG,'(23HNCRRGR: REAL PARAMETER ,A,10H WITH VALU,
1 1HE,1P,E12.4,26H IS OUTSIDE THE DOMAIN.(1))') PARNAM,VALR1
WRITE(6,*)'Domain:',VREAL(1),' <-> ',VREAL(NVALUE(IPAR))
CALL XABORT(HSMG)
ELSEIF(VALR2.GT.VREAL(NVALUE(IPARTM)))THEN
* OUTSIDE OF THE DOMAIN (2)
WRITE(HSMG,'(23HNCRRGR: REAL PARAMETER ,A,10H WITH VALU,
1 1HE,1P,E12.4,26H IS OUTSIDE THE DOMAIN.(2))') PARNAM,VALR2
WRITE(6,*)'Domain:',VREAL(1),' <-> ',VREAL(NVALUE(IPAR))
CALL XABORT(HSMG)
ELSEIF((VALR1.GT.VALR2).AND.(ITYPE.EQ.1))THEN
* ITYPE=1 correspond to an integral between VALR1 and VALR2
* otherwise it is a simple difference
WRITE(HSMG,'(23HNCRRGR: REAL PARAMETER ,A,9H IS DEFIN,
1 7HED WITH,1P,E12.4,2H >,E12.4,4H.(1))') PARNAM,
2 VALR1,VALR2
CALL XABORT(HSMG)
ENDIF
IF((LADD1).AND.(TEXT12.EQ.'REF'))THEN
120 IPAR=-99
CALL REDGET(INDIC,NITMA,FLOTT,TEXT12,DFLOTT)
IF(TEXT12.EQ.'ENDREF') GOTO 140
DO I=1,NPAR
IF(TEXT12.EQ.PARKEY(I))THEN
IPAR=I
GOTO 130
ENDIF
ENDDO
DO I=1,NLOC
IF(TEXT12.EQ.PARKEL(I))THEN
IPAR=NPAR+I
GOTO 130
ENDIF
ENDDO
CALL XABORT('NCRRGR: PARAMETER '//TEXT12//' NOT FOUND(2).')
130 CONTINUE
CALL REDGET(INDIC,NITMA,FLOTT,TEXT12,DFLOTT)
IF(INDIC.EQ.2)THEN
VALRA(IPAR,1,IDLTA1)=FLOTT
VALRA(IPAR,2,IDLTA1)=FLOTT
IF(IPAR.LE.NPAR)THEN
LPCPO=LCMGID(IPCPO,'GLOBAL')
IPARTM=IPAR
ELSE
JPCPO=LCMGID(IPCPO,'MIXTURES')
KPCPO=LCMGIL(JPCPO,IBMOLD)
LPCPO=LCMGID(KPCPO,'TREE')
IPARTM=IPAR-NPAR
ENDIF
WRITE(RECNAM,'(''pval'',I8.8)') IPARTM
CALL LCMGET(LPCPO,RECNAM,VREAL)
CALL LCMGET(LPCPO,'NVALUE',NVALUE)
MAPLET(IPAR,IDLTA1)=-1
MATYPE(IPAR,IDLTA1)=1
DO J=1,NVALUE(IPARTM)
IF(ABS(VALRA(IPAR,1,IDLTA1)-VREAL(J)).LE.
1 REPS*ABS(VREAL(J)))THEN
MAPLET(IPAR,IDLTA1)=J
GOTO 120
ENDIF
ENDDO
ELSEIF(TEXT12.EQ.'SAMEASREF')THEN
MAPLET(IPAR,IDLTA1)=-1
MATYPE(IPAR,IDLTA1)=-1
ELSE
CALL XABORT('NCRRGR: REAL or "SAMEASREF" expected')
ENDIF
GOTO 120
140 CALL REDGET(INDIC,NITMA,FLOTT,TEXT12,DFLOTT)
ELSE IF((LDELT1).AND.(TEXT12.EQ.'REF'))THEN
150 IPAR=-99
CALL REDGET(INDIC,NITMA,FLOTT,TEXT12,DFLOTT)
IF(TEXT12.EQ.'ENDREF') GOTO 170
DO I=1,NPAR
IF(TEXT12.EQ.PARKEY(I))THEN
IPAR=I
GOTO 160
ENDIF
ENDDO
DO I=1,NLOC
IF(TEXT12.EQ.PARKEL(I))THEN
IPAR=NPAR+I
GOTO 160
ENDIF
ENDDO
CALL XABORT('NCRRGR: PARAMETER '//TEXT12//' NOT FOUND(3).')
160 CONTINUE
CALL REDGET(INDIC,NITMA,FLOTT,TEXT12,DFLOTT)
IF(INDIC.EQ.2)THEN
VALR(IPAR,1)=FLOTT
VALR(IPAR,2)=FLOTT
IF(IPAR.LE.NPAR)THEN
LPCPO=LCMGID(IPCPO,'GLOBAL')
IPARTM=IPAR
ELSE
JPCPO=LCMGID(IPCPO,'MIXTURES')
KPCPO=LCMGIL(JPCPO,IBMOLD)
LPCPO=LCMGID(KPCPO,'TREE')
IPARTM=IPAR-NPAR
ENDIF
WRITE(RECNAM,'(''pval'',I8.8)') IPARTM
CALL LCMGET(LPCPO,RECNAM,VREAL)
CALL LCMGET(LPCPO,'NVALUE',NVALUE)
MUPLET(IPAR)=-1
MUTYPE(IPAR)=1
DO J=1,NVALUE(IPARTM)
IF(ABS(VALR(IPAR,1)-VREAL(J)).LE.REPS*ABS(VREAL(J)))THEN
MUPLET(IPAR)=J
GOTO 150
ENDIF
ENDDO
ELSEIF(TEXT12.EQ.'SAMEASREF')THEN
MUPLET(IPAR)=-1
MUTYPE(IPAR)=-1
ELSE
CALL XABORT('NCRRGR: REAL or "SAMEASREF" expected')
ENDIF
GOTO 150
170 CALL REDGET(INDIC,NITMA,FLOTT,TEXT12,DFLOTT)
ENDIF
GOTO 30
ELSEIF(PARFMT(IPAR).EQ.'INTEGER')THEN
IF(ITYPE.NE.1)CALL XABORT('NCRRGR: SET MANDATORY WITH INT'
1 //'EGER PARAMETERS.')
CALL REDGET(INDIC,VALI(IPAR),FLOTT,TEXT12,DFLOTT)
IF(INDIC.NE.1)CALL XABORT('NCRRGR: INTEGER DATA EXPECTED.')
CALL LCMGET(LPCPO,RECNAM,VINTE)
DO 175 J=1,NVALUE(IPAR)
IF(VALI(IPAR).EQ.VINTE(J))THEN
MUPLET(IPAR)=J
MUTYPE(IPAR)=ITYPE
GOTO 20
ENDIF
175 CONTINUE
WRITE(HSMG,'(26HNCRRGR: INTEGER PARAMETER ,A,9H WITH VAL,
1 2HUE,I5,34H NOT FOUND IN MULTICOMPO DATABASE.)')
2 PARKEY(IPAR), VALI(IPAR)
CALL XABORT(HSMG)
ELSEIF(PARFMT(IPAR).EQ.'STRING')THEN
IF(ITYPE.NE.1)CALL XABORT('NCRRGR: SET MANDATORY WITH STR'
1 //'ING PARAMETERS.')
CALL REDGET(INDIC,NITMA,FLOTT,VALH(IPAR),DFLOTT)
IF(INDIC.NE.3)CALL XABORT('NCRRGR: STRING DATA EXPECTED.')
CALL LCMGTC(LPCPO,RECNAM,12,NVALUE(IPAR),VCHAR)
DO 180 J=1,NVALUE(IPAR)
IF(VALH(IPAR).EQ.VCHAR(J))THEN
MUPLET(IPAR)=J
MUTYPE(IPAR)=ITYPE
GOTO 20
ENDIF
180 CONTINUE
WRITE(HSMG,'(25HNCRRGR: STRING PARAMETER ,A,10H WITH VALU,
1 1HE,A12,34H NOT FOUND IN MULTICOMPO DATABASE.)')
2 PARKEY(IPAR), VALH(IPAR)
CALL XABORT(HSMG)
ENDIF
ELSEIF(TEXT12.EQ.'TIMAV-BURN')THEN
IF(IBM.EQ.0) CALL XABORT('NCRRGR: MIX NOT SET (3).')
IBTYP=1
ELSEIF(TEXT12.EQ.'INST-BURN')THEN
IF(IBM.EQ.0) CALL XABORT('NCRRGR: MIX NOT SET (4).')
IBTYP=2
ELSEIF(TEXT12.EQ.'AVG-EX-BURN')THEN
IF(IBM.EQ.0) CALL XABORT('NCRRGR: MIX NOT SET (5).')
IBTYP=3
CALL REDGET(INDIC,IVARTY,FLOTT,TEXT12,DFLOTT)
IF(INDIC.NE.1)CALL XABORT('NCRRGR: INTEGER DATA EXPECTED.')
ELSEIF(TEXT12.EQ.'ENDMIX')THEN
*----
* RECOVER FUEL-MAP INFORMATION.
*----
IF(IMPX.GT.0) THEN
DO IPAR=1,NPAR
IF(PARFMT(IPAR).EQ.'REAL')THEN
IF(LCUB2(IPAR)) THEN
WRITE(IOUT,'(26H NCRRGR: GLOBAL PARAMETER:,A12,5H ->CU,
1 18HBIC INTERPOLATION.)') PARKEY(IPAR)
ELSE
WRITE(IOUT,'(26H NCRRGR: GLOBAL PARAMETER:,A12,5H ->LI,
1 19HNEAR INTERPOLATION.)') PARKEY(IPAR)
ENDIF
ENDIF
ENDDO
DO IPAR=1,NLOC
IF(LCUB2(NPAR+IPAR)) THEN
WRITE(IOUT,'(25H NCRRGR: LOCAL PARAMETER:,A12,8H ->CUBIC,
1 14HINTERPOLATION.)') PARKEL(IPAR)
ELSE
WRITE(IOUT,'(25H NCRRGR: LOCAL PARAMETER:,A12,8H ->LINEA,
1 16HR INTERPOLATION.)') PARKEL(IPAR)
ENDIF
ENDDO
ENDIF
FMIX(:NCH*NB)=0
CALL LCMGET(IPMAP,'FLMIX',FMIX)
CALL NCRMAP(IPMAP,NPARM,HPAR,NCH,NB,IBTYP,HNAVAL,IMPX,BRN0,BRN1,
1 WPAR,LPARM)
IF(IBTYP.EQ.3) THEN
IF(IVARTY.EQ.0) CALL XABORT('NCRRGR: IVARTY NOT SET.')
CALL LCMGET(IPMAP,'B-ZONE',ZONEC)
DO ICH=1,NCH
DO J=1,NB
IF(ZONEC(ICH).EQ.IVARTY) THEN
ZONEDP(ICH,J)=1
ELSE
ZONEDP(ICH,J)=0
ENDIF
ENDDO
ENDDO
CALL LCMLEN(IPMAP,'B-VALUE',ILONG,ITYP)
IF (ILONG.EQ.0) CALL XABORT('NCRRGR: NO SAVED VALUES FOR '
1 //'THIS TYPE OF VARIABLE IN L_MAP')
ALLOCATE(VARC(ILONG))
CALL LCMGET(IPMAP,'B-VALUE',VARC)
VARVAL=VARC(IVARTY)
DEALLOCATE(VARC)
ENDIF
*----
* PERFORM INTERPOLATION OVER THE FUEL MAP.
*----
DO 185 JPARM=1,NPARMP
IPAR=-99
DO I=1,NPAR
IF(HPAR(JPARM).EQ.PARKEY(I))THEN
IPAR=I
IF(LSET(IPAR)) THEN
IF(IMPX.GT.0) WRITE(6,*) 'L_MAP values overwritten by '
1 // 'the SET option for parameter '//HPAR(JPARM)
IF(.NOT.LADD(IPAR)) LPARM(JPARM)=.FALSE.
ENDIF
GOTO 185
ENDIF
ENDDO
DO I=1,NLOC
IF(HPAR(JPARM).EQ.PARKEL(I))THEN
IPAR=NPAR+I
IF(LSET(IPAR)) THEN
IF(IMPX.GT.0) WRITE(6,*) 'L_MAP values overwritten by '
1 // 'the SET option for parameter '//HPAR(JPARM)
IF(.NOT.LADD(IPAR)) LPARM(JPARM)=.FALSE.
ENDIF
GOTO 185
ENDIF
ENDDO
LPARM(JPARM)=.FALSE.
185 CONTINUE
*----
* COMPUTE ALL THE MUPLETS FOR EACH BUNDLE
*----
IMPY=MAX(0,IMPX-1)
NTOT=0
DO 281 JB=1,NB
DO 280 ICH=1,NCH
IB=(JB-1)*NCH+ICH
IF(FMIX(IB).EQ.0) GO TO 280
NTOT=NTOT+1
* ASBLY: loop on multicompo mixtures
DO 285 IBM=IBMB,IBME
IF(LASBLY) IBMOLD=IBM-IBMB+1
* ASBLY: end
IPAR=-99
IF(FMIX(IB).EQ.IBM)THEN
IF(NTOT.GT.NMIX) CALL XABORT('NCRRGR: NMIX OVERFLOW.')
DO 260 JPARM=1,NPARMP
IF(.NOT.LPARM(JPARM))GOTO 260
* check if parameter is global
DO I=1,NPAR
IF(HPAR(JPARM).EQ.PARKEY(I))THEN
IPAR=I
LPCPO=LCMGID(IPCPO,'GLOBAL')
IPARTM=IPAR
PARNAM=HPAR(JPARM)
GOTO 190
ENDIF
ENDDO
* check if parameter is local
DO I=1,NLOC
IF(HPAR(JPARM).EQ.PARKEL(I))THEN
IPAR=NPAR+I
JPCPO=LCMGID(IPCPO,'MIXTURES')
KPCPO=LCMGIL(JPCPO,IBMOLD)
LPCPO=LCMGID(KPCPO,'TREE')
IPARTM=IPAR-NPAR
PARNAM=HPAR(JPARM)
GOTO 190
ENDIF
ENDDO
WRITE(HSMG,'(18HNCRRGR: PARAMETER ,A,14H NOT FOUND(4).)')
1 HPAR(JPARM)
CALL XABORT(HSMG)
190 CONTINUE
WRITE(RECNAM,'(''pval'',I8.8)') IPARTM
CALL LCMGET(LPCPO,'NVALUE',NVALUE)
IF(NVALUE(IPARTM).GT.MAXVAL)CALL XABORT('NCRRGR: MAXVAL OVERFL'
1 //'OW.')
CALL LCMLEN(LPCPO,RECNAM,LENGTH,ITYLCM)
IF(LENGTH.EQ.0)THEN
WRITE(HSMG,'(25HNCRRGR: GLOBAL PARAMETER ,A,9H NOT SET.)')
1 PARNAM
CALL XABORT(HSMG)
ENDIF
ITYPE=0
IF((JPARM.EQ.NPARMP).AND.(NPARMP.EQ.NPARM+1))THEN
* parameter JPARAM is burnup
IF(.NOT.LSET(IPAR))THEN
MUTYPE(IPAR)=1
MUPLET(IPAR)=-1
BURN0=0.0
BURN1=0.0
IF(IBTYP.EQ.1)THEN
* TIME-AVERAGE
BURN0=BRN0(IB)
BURN1=BRN1(IB)
ELSEIF(IBTYP.EQ.2)THEN
* INSTANTANEOUS
BURN0=BRN0(IB)
BURN1=BURN0
ELSEIF(IBTYP.EQ.3)THEN
* DIFFERENCIATION RELATIVE TO EXIT BURNUP
ITYPE=3
BURN0=BRN0(IB)
BURN1=BRN1(IB)
ENDIF
VALR(IPAR,1)=BURN0
VALR(IPAR,2)=BURN1
VALR1=VALR(IPAR,1)
VALR2=VALR(IPAR,2)
ITYPE=1
ENDIF
ELSE
IF(.NOT.LSET(IPAR))THEN
VALR(IPAR,1)=WPAR(IB,JPARM)
VALR(IPAR,2)=WPAR(IB,JPARM)
MUPLET(IPAR)=-1
MUTYPE(IPAR)=1
VALR1=VALR(IPAR,1)
VALR2=VALR(IPAR,2)
ITYPE=1
ENDIF
IF(LDMAP(IPAR,1).OR.LDMAP(IPAR,2))THEN
IF(LDMAP(IPAR,1)) VALR(IPAR,1)=WPAR(IB,JPARM)
IF(LDMAP(IPAR,2)) VALR(IPAR,2)=WPAR(IB,JPARM)
MUPLET(IPAR)=-1
MUTYPE(IPAR)=2
VALR1=VALR(IPAR,1)
VALR2=VALR(IPAR,2)
ITYPE=2
ELSE IF(LADD(IPAR))THEN
DO N=1,NDLTA(IPAR)
IDLTA1=IDLTA(IPAR,N)
IF(LAMAP(IPAR,1,IDLTA1)) THEN
VALRA(IPAR,1,IDLTA1)=WPAR(IB,JPARM)
MAPLET(IPAR,IDLTA1)=-1
MATYPE(IPAR,IDLTA1)=2
ENDIF
IF(LAMAP(IPAR,2,IDLTA1)) THEN
VALRA(IPAR,2,IDLTA1)=WPAR(IB,JPARM)
MAPLET(IPAR,IDLTA1)=-1
MATYPE(IPAR,IDLTA1)=2
ENDIF
ENDDO
VALR1=VALRA(IPAR,1,IDLTA(IPAR,1))
VALR2=VALRA(IPAR,2,IDLTA(IPAR,1))
ITYPE=2
ENDIF
ENDIF
LPCPO=LCMGID(IPCPO,'GLOBAL')
CALL LCMGET(LPCPO,'NVALUE',NVALUE)
IF(NVALUE(IPARTM).GT.MAXVAL) CALL XABORT('NCRRGR: MAXVAL OVE'
1 //'RFLOW.')
WRITE(RECNAM,'(''pval'',I8.8)') IPARTM
CALL LCMLEN(LPCPO,RECNAM,LENGTH,ITYLCM)
IF(LENGTH.EQ.0)THEN
WRITE(HSMG,'(25HNCRRGR: GLOBAL PARAMETER ,A,9H NOT SET.)')
1 PARNAM
CALL XABORT(HSMG)
ENDIF
IF(LENGTH.GT.MAXVAL) CALL XABORT('NCRRGR: MAXVAL OVERFLOW.')
CALL LCMGET(LPCPO,RECNAM,VREAL)
IF(ITYPE.EQ.1)THEN
IF(VALR1.EQ.VALR2)THEN
DO J=1,NVALUE(IPARTM)
IF(ABS(VALR1-VREAL(J)).LE.REPS*ABS(VREAL(J)))THEN
MUPLET(IPAR)=J
MUTYPE(IPAR)=ITYPE
GOTO 260
ENDIF
ENDDO
ENDIF
ENDIF
*----
* ERRORS HANDLING
*----
IF(VALR1.LT.VREAL(1))THEN
* OUTSIDE OF THE DOMAIN (1)
WRITE(HSMG,'(23HNCRRGR: REAL PARAMETER ,A,10H WITH VALU,
1 1HE,1P,E12.4,26H IS OUTSIDE THE DOMAIN(3).)') PARNAM,VALR1
WRITE(6,*)'Domain:',VREAL(1),' <-> ',VREAL(NVALUE(IPAR))
CALL XABORT(HSMG)
ELSEIF(VALR2.GT.VREAL(NVALUE(IPAR)))THEN
* OUTSIDE OF THE DOMAIN (2)
WRITE(HSMG,'(23HNCRRGR: REAL PARAMETER ,A,10H WITH VALU,
1 1HE,1P,E12.4,26H IS OUTSIDE THE DOMAIN(4).)') PARNAM,VALR2
WRITE(6,*)'Domain:',VREAL(1),' <-> ',VREAL(NVALUE(IPAR))
CALL XABORT(HSMG)
ELSEIF((ITYPE.EQ.1).AND.(VALR1.GT.VALR2))THEN
* VALR1 > VALR2
WRITE(HSMG,'(23HNCRRGR: REAL PARAMETER ,A,9H IS DEFIN,
1 7HED WITH,1P,E12.4,2H >,E12.4,4H.(2))') PARNAM,
2 VALR1,VALR2
CALL XABORT(HSMG)
ENDIF
*----
* COMPUTE THE TERP FACTORS USING TABLE-OF-CONTENT INFORMATION.
*----
260 CONTINUE
MIXC(NTOT)=IBMOLD
IF(IBMOLD.GT.NMIL)
1 CALL XABORT('NCRRGR: MIX OVERFLOW (COMPO).')
IF(IMPY.GT.2) WRITE(6,'(32H NCRRGR: COMPUTE TERP FACTORS IN,
1 12H NEW MIXTURE,I5,1H.)') NTOT
NISO(NTOT)=NISOMI
LISO(NTOT)=LISOMI
LDELTA(NTOT)=LDELT1
DO ISO=1,NISOMI
HISO(1,NTOT,ISO)=HISOMI(1,ISO)
HISO(2,NTOT,ISO)=HISOMI(2,ISO)
CONC(NTOT,ISO)=CONCMI(ISO)
ENDDO
DO JPAR=1,NPAR+NLOC
MUPLT2(JPAR)=MUPLET(JPAR)
ENDDO
IF(IBTYP.EQ.3)THEN
IF(ZONEDP(ICH,JB).NE.0) THEN
CALL NCRTRP(IPCPO,LCUB2,IMPY,IBMOLD,NPAR,NLOC,NCAL,
1 MUPLT2,MUTYPE,VALR(1,1),VARVAL,TERP(1,NTOT))
ELSE
TERP(:NCAL,NTOT)=0.0
ENDIF
ELSE
CALL NCRTRP(IPCPO,LCUB2,IMPY,IBMOLD,NPAR,NLOC,NCAL,
1 MUPLT2,MUTYPE,VALR(1,1),VARVAL,TERP(1,NTOT))
ENDIF
* DELTA-ADD
DO 270 IPAR=1,NPAR+NLOC
IF(LADD(IPAR))THEN
DO N=1,NDLTA(IPAR)
IDLTA1=IDLTA(IPAR,N)
DO JPAR=1,NPAR+NLOC
MUPLT2(JPAR)=MAPLET(JPAR,IDLTA1)
MUTYP2(JPAR)=MATYPE(JPAR,IDLTA1)
ENDDO
DO JPAR=1,NPAR+NLOC
IF(MUTYP2(JPAR).LT.0)THEN
MUPLT2(JPAR)=MUPLET(JPAR)
MUTYP2(JPAR)=MUTYPE(JPAR)
VALRA(JPAR,1,IDLTA1)=VALR(JPAR,1)
VALRA(JPAR,2,IDLTA1)=VALR(JPAR,2)
ENDIF
ENDDO
ALLOCATE(TERPA(NCAL))
CALL NCRTRP(IPCPO,LCUB2,IMPY,IBMOLD,NPAR,NLOC,NCAL,
1 MUPLT2,MUTYP2,VALRA(1,1,IDLTA1),VARVAL,TERPA(1))
DO 275 JCAL=1,NCAL
TERP(JCAL,NTOT)=TERP(JCAL,NTOT)+TERPA(JCAL)
275 CONTINUE
DEALLOCATE(TERPA)
ENDDO
ENDIF
270 CONTINUE
ENDIF
* ASBLY: next mixture
285 CONTINUE
* ASBLY: end
280 CONTINUE
281 CONTINUE
IF(NTOT.GT.NMIX) CALL XABORT('NCRRGR: ALGORITHM FAILURE.')
IBM=0
IBMB=0
IBME=0
ELSEIF((TEXT12.EQ.'COMPO').OR.(TEXT12.EQ.'TABLE').OR.
1 (TEXT12.EQ.';')) THEN
*----
* CHECK TERP FACTORS AND RETURN
*----
IF(TEXT12.EQ.';') ITER=0
IF(TEXT12.EQ.'COMPO') ITER=1
IF(TEXT12.EQ.'TABLE') ITER=2
DO 300 IBM=1,NMIX
IBMOLD=MIXC(IBM)
IF(IBMOLD.EQ.0) GO TO 300
IF(NISO(IBM).GT.MAXNIS) CALL XABORT('NCRRGR: MAXNIS OVERFLOW.')
IF(LDELTA(IBM)) THEN
SUM=0.0
ELSE
SUM=1.0
ENDIF
DO 290 ICAL=1,NCAL
SUM=SUM-TERP(ICAL,IBM)
290 CONTINUE
IF(ABS(SUM).GT.1.0E-4) THEN
WRITE(HSMG,'(43HNCRRGR: INVALID INTERPOLATION FACTORS IN MI,
1 5HXTURE,I4,1H.)') IBM
CALL XABORT(HSMG)
ENDIF
300 CONTINUE
*----
* EXIT MAIN LOOP OF THE SUBROUTINE
*----
GO TO 310
ELSE
CALL XABORT('NCRRGR: '//TEXT12//' IS AN INVALID KEYWORD.')
ENDIF
GOTO 20
*----
* PRINT INTERPOLATION (TERP) FACTORS
*----
310 IF(IMPX.GT.2) THEN
WRITE(IOUT,'(/30H NCRRGR: INTERPOLATION FACTORS)')
DO ICAL=1,NCAL
DO IBM=1,NMIX
IF(TERP(ICAL,IBM).NE.0.0) THEN
WRITE(IOUT,320) ICAL,(TERP(ICAL,JBM),JBM=1,NMIX)
EXIT
ENDIF
ENDDO
ENDDO
ENDIF
*----
* SCRATCH STORAGE DEALLOCATION
*----
DEALLOCATE(HPAR,LDELTA,WPAR,BRN1,BRN0,ZONEC,ZONEDP,FMIX,LPARM)
IF(LASBLY) DEALLOCATE(MIXA)
RETURN
320 FORMAT(6H CALC=,I8,6H TERP=,1P,8E13.5/(20X,8E13.5))
END
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