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|
*DECK EDITXS
SUBROUTINE EDITXS(IWGOXS,IUTYPE,IPRINT,NGCOND,NL ,NBNISO,
> CTITLE,IMRG ,ENERGY,ISNNAM,ISNNRF,IPISO ,
> MIXISN,AWRISN,DENISN,TMPISN,EMJISN)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Transfer information from edit to isotxs.
*
*Copyright:
* Copyright (C) 2002 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): M. T. Sissaoui
*
*Parameters: input
* IWGOXS unit for ISOTXS file.
* IUTYPE type of ISOTXS file: =2 sequential binary file;
* =3 sequential ascii file.
* IPRINT print level.
* NGCOND number of energy group.
* NL anisotropy order.
* NBNISO number of edit isotopes.
* CTITLE title.
* IMRG mixture to consider.
* ENERGY energy groups.
* ISNNAM names of edit isotopes.
* ISNNRF reference names of edit isotopes.
* IPISO pointers to isotope libraries.
* MIXISN mixture number for edit isotopes.
* AWRISN AWR values for edit isotopes.
* DENISN density for edit isotopes.
* TMPISN temperature for edit isotopes.
* EMJISN energy for edit isotopes (Mega-joules for 10**24 fission).
*
*-----------------------------------------------------------------------
*
USE GANLIB
IMPLICIT NONE
*----
* SUBROUTINE ARGUMENTS
*----
TYPE(C_PTR) IPISO(NBNISO)
INTEGER IWGOXS,IUTYPE,IPRINT,NGCOND,NL,NBNISO,IMRG
INTEGER ISNNAM(3,NBNISO),ISNNRF(3,NBNISO),MIXISN(NBNISO)
CHARACTER CTITLE*72
REAL ENERGY(NGCOND+1),AWRISN(NBNISO),DENISN(NBNISO),
> TMPISN(NBNISO),EMJISN(NBNISO)
*----
* LOCAL VARIABLES
*----
INTEGER IOUT,ILCMUP,ILCMDN,NFILNA,NFILCN,MXMULT,NFILMD,MAXA
PARAMETER (MAXA=10000)
REAL A(MAXA)
INTEGER IA(MAXA)
CHARACTER NAMSBR*6,HSMG*131
PARAMETER (IOUT=6,ILCMUP=1,ILCMDN=2,NFILNA=3,NFILCN=8,MXMULT=2,
> NFILMD=1+NFILNA*MXMULT,NAMSBR='EDITXS')
TYPE(C_PTR) KPEDIT
EQUIVALENCE (A(1),IA(1))
*----
* EXTERNAL FUNCTIONS
*----
DOUBLE PRECISION XDRCST
*----
* ALLOCATABLE ARRAYS
*----
INTEGER, ALLOCATABLE, DIMENSION(:) :: LOCISO,IJJ,NJJ,IRECGI,IREC
REAL, ALLOCATABLE, DIMENSION(:) :: AVGVEL,RICHI,RJCHI,RECPX,RECPS
*----
* LOCAL PARAMETERS
*----
CHARACTER CM*2,NAMISO*12,FMTRD*5,CIDENT*8,HABSID*8,
> HIDENT*8,HMAT*8,CDUM*8,CISO(10)*6
INTEGER I,IFILID(NFILMD),IFILCN(NFILCN),NEXTRI,
> MXGDSC,MXGUSC,ICHIST,ISO,IFIL,JSO,KSO,IGROUP,
> IL,INFL,IFTL,IRECG,IRECNB,IRECIB,
> MRECGI,MRECPX,MRECPS,IRECP,ILCMTY,
> ILENG,IRECW,IW,IGR,NRECWR,JFZ,
> JFX,ITC,NBISO,MULTA6,IRECL,
> ITITLE,IC6TIT,JVAR,IRECWR,MRECWR
DOUBLE PRECISION NMASS
LOGICAL LFIRST
*----
* SET ISOTXS FILE DIMENSIONING RECORD
* MULTA6 = NUMBER OF INTEGER WORDS TO STORE
* CHARACTER*6 VARIABLE
* FMTRD = FORMAT TO STORE CHARACTER*6 VARIABLE
* IN INTEGER WORDS
*----
PARAMETER (MULTA6=2,FMTRD='(2A4)')
*----
* EQUIVALENCES
*----
INTEGER NITMA,NITMA6(6)
REAL FLOTT,FLOTT6(6)
EQUIVALENCE(NITMA,FLOTT),(NITMA6,FLOTT6)
*----
* DATA
*----
CHARACTER CFILNC(NFILNA)*10
SAVE CFILNC
DATA (CFILNC(IFIL),IFIL=1,NFILNA)
> /'ISOTXS','DRAGON','971124'/
*----
* SCRATCH STORAGE ALLOCATION
* AVGVEL neutron average velocity
* LOCISO isotope localisation vector
* IJJ position of in group scattering
* NJJ number of scattering groups
*----
ALLOCATE(LOCISO(NBNISO),IJJ(NGCOND),NJJ(NGCOND))
ALLOCATE(AVGVEL(NGCOND))
*-----
* EVALUATE THE ISOTOPE LOCALISATION VECTOR AND
* MAXIMUM NUMBER OF UPSCATTER AND DOWN SCATTER GROUPS
*-----
NMASS=XDRCST('Neutron mass','amu')
NEXTRI=0
MXGDSC=0
MXGUSC=0
ICHIST=2
ISO=0
*----
* ALLOCATE MEMORY TO STORE ISOTOPIC FISSION SPECTRUM
*----
ALLOCATE(RICHI(NGCOND),RJCHI(NGCOND))
DO 120 JSO=1,NBNISO
IF(MIXISN(JSO) .EQ. IMRG) THEN
ISO=ISO+1
LOCISO(ISO)=NEXTRI
NEXTRI=NEXTRI+2+NL
KPEDIT=IPISO(JSO) ! set JSO-th isotope
IF(.NOT.C_ASSOCIATED(KPEDIT)) THEN
WRITE(HSMG,'(A6,11H: ISOTOPE '',3A4,17H'' IS NOT AVAILABL,
> 18HE IN THE MICROLIB.)') NAMSBR,(ISNNAM(ITC,JSO),ITC=1,3)
CALL XABORT(HSMG)
ENDIF
*----
* TEST IF ALL FISSION PRODUCTION SPECTRUM IDENTICAL
* ICHIST = 2 -> NO FISSION SPECTRUM FOUND
* ICHIST = 1 -> ALL FISSION SPECTRUM IDENTICAL
* ICHIST = 0 -> AT LEAST 2 FISSION SPECTRUM ARE DIFFERENT
*----
CALL LCMLEN(KPEDIT,'CHI',ILENG,ILCMTY)
IF(ILENG.NE.0) THEN
IF(ICHIST .EQ. 2) THEN
CALL LCMGET(KPEDIT,'CHI',RICHI)
ICHIST=1
ELSE IF(ICHIST .EQ. 1) THEN
CALL LCMGET(KPEDIT,'CHI',RJCHI)
DO 121 IGROUP=0,NGCOND-1
IF(RJCHI(IGROUP+1).NE.RICHI(IGROUP+1)) THEN
ICHIST =0
GO TO 125
ENDIF
121 CONTINUE
125 CONTINUE
ENDIF
ENDIF
DO 130 IL=1,NL
WRITE(CM,'(I2.2)') IL-1
CALL LCMLEN(KPEDIT,'SCAT'//CM,ILENG,ILCMTY)
IF(ILENG.NE.0) THEN
*----
* DATA EXISTS FOR THIS SCATTERING LEVEL FOR THIS ISOTOPE
* READ NJJ AND IJJ
* IJJ(IGTO) IS MAXIMUM GROUP NUMBER
* WITH SCATTERING TO "IGTO" GROUP
* NJJ(IGTO) IS NUMBER OF GROUPS
* WITH SCATTERING TO "IGTO" GROUP
* DETERMINE MAXIMUM NUMBER OF UP-SCATTERING GROUPS
* DETERMINE MAXIMUM NUMBER OF DOWN-SCATTERING GROUPS
*----
CALL LCMGET(KPEDIT,'NJJS'//CM,NJJ)
CALL LCMGET(KPEDIT,'IJJS'//CM,IJJ)
DO 140 IGROUP=1,NGCOND
MXGUSC=MAX(MXGUSC,IJJ(IGROUP)-IGROUP)
MXGDSC=MAX(MXGDSC,IGROUP+NJJ(IGROUP)-IJJ(IGROUP)-1)
140 CONTINUE
ENDIF
130 CONTINUE
*----
* RECOVER AVERAGED VELOCITIES
*----
CALL LCMLEN(KPEDIT,'OVERV',ILENG,ILCMTY)
IF(ILENG .GT. 0) CALL LCMGET(KPEDIT,'OVERV',AVGVEL)
ENDIF
120 CONTINUE
DEALLOCATE(RJCHI)
*----
* IF ICHIST = 2 SET DEFAULT FISSION SPECTRUM ALL TO 0.0
* AND USE A SINGLE CHI VECTOR
*----
IF(ICHIST .EQ. 2) THEN
RICHI(:NGCOND)=0.0
ICHIST = 1
ENDIF
NBISO=ISO
*----
* FILE IDENTIFICATION-RECORD 1
*----
NRECWR=1+NFILNA*MULTA6
JFZ=0
DO 150 IFIL=1,NFILNA
JFX=JFZ+1
JFZ=JFZ+MULTA6
READ(CFILNC(IFIL),FMTRD) (IFILID(JVAR),JVAR=JFX,JFZ)
150 CONTINUE
IFILID(NRECWR)=1
*----
* TRANSFER INFORMATION TO ISOTXS
*----
IRECWR=1
IF(IUTYPE.EQ.2) THEN
IF(NRECWR.GT.MAXA) CALL XABORT('EDITXS: MAXA OVERFLOW(1).')
IA(:NRECWR)=IFILID(:NRECWR)
CALL XDRITE(IWGOXS,IRECWR,A,NRECWR)
ELSE IF(IUTYPE.EQ.3) THEN
WRITE(IWGOXS,6002) (CFILNC(IFIL),IFIL=1,NFILNA),1
ENDIF
*----
* FILE CONTROL-RECORD 2
*----
IFILCN(1)=NGCOND
IFILCN(2)=NBISO
IFILCN(3)=MXGUSC
IFILCN(4)=MXGDSC
IFILCN(5)=NL-1
IFILCN(6)=ICHIST
IFILCN(7)=NL
IFILCN(8)=1
*-----
* TRANSFER INFORMATION TO ISOTXS
*----
IRECWR=IRECWR+1
NRECWR=NFILCN
IF(IUTYPE.EQ.2) THEN
IF(NRECWR.GT.MAXA) CALL XABORT('EDITXS: MAXA OVERFLOW(2).')
IA(:NRECWR)=IFILCN(:NRECWR)
CALL XDRITE(IWGOXS,IRECWR,A,NRECWR)
ELSE IF(IUTYPE.EQ.3) THEN
WRITE(IWGOXS,6003) (IFILCN(I),I=1,8)
ENDIF
*----
* FILE DATA-RECORD 3
*----
MRECWR=(NBISO+12)*MULTA6+1+NBISO+(2+ICHIST)*NGCOND
ALLOCATE(IREC(MRECWR))
IREC(:MRECWR)=0
IRECL=1
ITITLE=1
DO 160 IC6TIT=1,12
CIDENT=CTITLE(ITITLE:ITITLE+5)//' '
ITITLE=ITITLE+6
READ(CIDENT,FMTRD) (IREC(JVAR),JVAR=IRECL,IRECL+MULTA6-1)
IRECL=IRECL+MULTA6
160 CONTINUE
DO 170 JSO=1,NBNISO
IF(MIXISN(JSO).EQ.IMRG) THEN
WRITE(NAMISO,'(3A4)') (ISNNAM(ITC,JSO),ITC=1,3)
CIDENT=NAMISO(1:6)//' '
READ(CIDENT,FMTRD) (IREC(JVAR),JVAR=IRECL,IRECL+MULTA6-1)
IRECL=IRECL+MULTA6
ENDIF
170 CONTINUE
*----
* SAVE SET CHI IF REQUIRED
*----
IF(ICHIST .EQ. 1) THEN
DO 122 IGR=1,NGCOND
FLOTT=RICHI(IGR)
IREC(IRECL)=NITMA
IRECL=IRECL+1
122 CONTINUE
ENDIF
*----
* SAVE AVERAGE NEUTRON VELOCITY
*----
DO 180 IGR=1,NGCOND
FLOTT=1.0/AVGVEL(IGR)
IREC(IRECL)=NITMA
IRECL=IRECL+1
180 CONTINUE
*----
* SAVE ENERGY GROUP
*----
DO 181 IGR=1,NGCOND+1
FLOTT=ENERGY(IGR)
IREC(IRECL)=NITMA
IRECL=IRECL+1
181 CONTINUE
*----
* TRANSFER LOCISO IN RECORD VECTOR
*----
DO 190 ISO=1,NBISO
IREC(IRECL)=LOCISO(ISO)
IRECL=IRECL+1
190 CONTINUE
*-----
* TRANSFER INFORMATION TO ISOTXS
*-----
IRECWR=IRECWR+1
NRECWR=MRECWR
IF(IUTYPE.EQ.2) THEN
IF(NRECWR.GT.MAXA) CALL XABORT('EDITXS: MAXA OVERFLOW(3).')
IA(:NRECWR)=IREC(:NRECWR)
CALL XDRITE(IWGOXS,IRECWR,A,NRECWR)
ELSE IF(IUTYPE.EQ.3) THEN
WRITE(IWGOXS,6004) CTITLE(:66)
KSO=0
LFIRST=.TRUE.
DO JSO=1,NBNISO
IF(MIXISN(JSO).EQ.IMRG) THEN
KSO=KSO+1
WRITE(NAMISO,'(3A4)') (ISNNAM(ITC,JSO),ITC=1,3)
CISO(KSO)=NAMISO(1:6)//' '
ENDIF
IF(LFIRST.AND.(KSO.EQ.9)) THEN
WRITE(IWGOXS,6005) CTITLE(67:72),(CISO(I),I=1,9)
KSO=0
LFIRST=.FALSE.
ELSE IF(KSO.EQ.10) THEN
WRITE(IWGOXS,'(10(1X,A6))') (CISO(I),I=1,10)
KSO=0
ENDIF
ENDDO
IF(KSO.GT.0) WRITE(IWGOXS,'(10(1X,A6))') (CISO(I),I=1,KSO)
IF(ICHIST.EQ.1) THEN
WRITE(IWGOXS,'(1P,6E12.5)') (RICHI(IGR),IGR=1,NGCOND)
ENDIF
WRITE(IWGOXS,'(1P,6E12.5)') (1.0/AVGVEL(IGR),IGR=1,NGCOND),
> (ENERGY(IGR),IGR=1,NGCOND+1)
WRITE(IWGOXS,'(12I6)') (LOCISO(ISO),ISO=1,NBISO)
ENDIF
DEALLOCATE(IREC)
*----
* ISOTOPE CONTROL AND GROUP INDEPENDENT DATA
*----
MRECGI=3*MULTA6+17+NL*(2*NGCOND+2)
MRECPX=10*NGCOND
MRECPS=NGCOND*NGCOND
ALLOCATE(IRECGI(MRECGI),RECPX(MRECPX),RECPS(MRECPS))
ISO=0
DO 200 JSO=1,NBNISO
IF(MIXISN(JSO).EQ.IMRG) THEN
ISO=ISO+1
IRECGI(:MRECGI)=0
IRECG=1
WRITE(NAMISO,'(3A4)') (ISNNAM(ITC,JSO),ITC=1,3)
KPEDIT=IPISO(JSO) ! set JSO-th isotope
HABSID=NAMISO(1:6)//' '
IF(IPRINT.GE.1) WRITE(IOUT,6000) HABSID(1:6),LOCISO(ISO)
READ(HABSID,FMTRD) (IRECGI(JVAR),JVAR=IRECG,IRECG+MULTA6-1)
IRECG=IRECG+MULTA6
HIDENT='DRAGON '
READ(HIDENT,FMTRD) (IRECGI(JVAR),JVAR=IRECG,IRECG+MULTA6-1)
IRECG=IRECG+MULTA6
WRITE(NAMISO,'(3A4)') (ISNNRF(ITC,JSO),ITC=1,3)
HMAT=NAMISO(1:6)//' '
READ(HMAT,FMTRD) (IRECGI(JVAR),JVAR=IRECG,IRECG+MULTA6-1)
IRECG=IRECG+MULTA6
FLOTT=AWRISN(JSO)*REAL(NMASS)
IRECGI(IRECG)=NITMA
FLOTT=EMJISN(JSO)*1.0E-18
IRECGI(IRECG+1)=NITMA
FLOTT=TMPISN(JSO)
IRECGI(IRECG+3)=NITMA
FLOTT=DENISN(JSO)
IRECGI(IRECG+5)=NITMA
CALL LCMLEN(KPEDIT,'CHI',ILENG,ILCMTY)
IF((ILENG.NE.0).AND.(ICHIST.EQ.0)) IRECGI(IRECG+7)=1
CALL LCMLEN(KPEDIT,'NUSIGF',ILENG,ILCMTY)
IF(ILENG.NE.0) IRECGI(IRECG+8)=1
CALL LCMLEN(KPEDIT,'NA',ILENG,ILCMTY)
IF(ILENG.NE.0) IRECGI(IRECG+9)=1
CALL LCMLEN(KPEDIT,'NP',ILENG,ILCMTY)
IF(ILENG.NE.0) IRECGI(IRECG+10)=1
CALL LCMLEN(KPEDIT,'N2N',ILENG,ILCMTY)
IF(ILENG.NE.0) IRECGI(IRECG+11)=1
CALL LCMLEN(KPEDIT,'ND',ILENG,ILCMTY)
IF(ILENG.NE.0) IRECGI(IRECG+12)=1
CALL LCMLEN(KPEDIT,'NT',ILENG,ILCMTY)
IF(ILENG.NE.0) IRECGI(IRECG+13)=1
CALL LCMLEN(KPEDIT,'NTOT0',ILENG,ILCMTY)
IF(ILENG.NE.0) IRECGI(IRECG+14)=1
CALL LCMLEN(KPEDIT,'STRD',ILENG,ILCMTY)
IF(ILENG.NE.0) IRECGI(IRECG+15)=1
CALL LCMLEN(KPEDIT,'STRD-X',ILENG,ILCMTY)
IF(ILENG.NE.0) IRECGI(IRECG+16)=3
IRECG=IRECG+17
DO 210 IL=1,NL
IRECGI(IRECG)=IL-1
IRECGI(IRECG+NL)=1
IRECG=IRECG+1
210 CONTINUE
IRECG=IRECG+NL
IRECNB=IRECG
IRECIB=IRECNB+NL*NGCOND
DO 220 IL=1,NL
WRITE(CM,'(I2.2)') IL-1
CALL LCMLEN(KPEDIT,'SCAT'//CM,ILENG,ILCMTY)
IF(ILENG.NE.0) THEN
CALL LCMGET(KPEDIT,'NJJS'//CM,NJJ)
CALL LCMGET(KPEDIT,'IJJS'//CM,IJJ)
DO 230 IGROUP=1,NGCOND
IRECGI(IRECNB)=NJJ(IGROUP)
IRECGI(IRECIB)=IJJ(IGROUP)-IGROUP+1
IRECNB=IRECNB+1
IRECIB=IRECIB+1
230 CONTINUE
ELSE
DO 240 IGROUP=1,NGCOND
IRECGI(IRECNB)=1
IRECGI(IRECIB)=1
IRECNB=IRECNB+1
IRECIB=IRECIB+1
240 CONTINUE
ENDIF
220 CONTINUE
IRECG=IRECG+2*NL*NGCOND
*-----
* TRANSFER INFORMATION TO ISOTXS
*-----
IF(IPRINT.GE.10) THEN
IRECW=1
WRITE(CDUM,FMTRD) (IRECGI(JVAR),JVAR=IRECW,IRECW+MULTA6-1)
HABSID=CDUM
IRECW=IRECW+MULTA6
WRITE(CDUM,FMTRD) (IRECGI(JVAR),JVAR=IRECW,IRECW+MULTA6-1)
HIDENT=CDUM
IRECW=IRECW+MULTA6
WRITE(CDUM,FMTRD) (IRECGI(JVAR),JVAR=IRECW,IRECW+MULTA6-1)
HMAT=CDUM
IRECW=IRECW+MULTA6
WRITE(IOUT,6001) HABSID(1:6),HIDENT(1:6),HMAT(1:6),
> (IRECGI(IW),IW=IRECW,IRECW+5),
> (IRECGI(IW),IW=IRECW+6,IRECW+16)
ENDIF
IRECWR=IRECWR+1
NRECWR=MRECGI
IF(IUTYPE.EQ.2) THEN
IF(NRECWR.GT.MAXA) CALL XABORT('EDITXS: MAXA OVERFLOW(4).')
IA(:NRECWR)=IRECGI(:NRECWR)
CALL XDRITE(IWGOXS,IRECWR,A,NRECWR)
ELSE IF(IUTYPE.EQ.3) THEN
DO IW=1,6
NITMA6(IW)=IRECGI(3*MULTA6+IW)
ENDDO
WRITE(IWGOXS,6006) HABSID(1:6),HIDENT(1:6),HMAT(1:6),
> (FLOTT6(IW),IW=1,6),
> (IRECGI(IW),IW=3*MULTA6+7,NRECWR)
ENDIF
*------
* PRINCIPAL CROSS SECTIONS
*------
RECPX(:MRECPX)=0.0
IRECP=1
CALL LCMLEN(KPEDIT,'STRD',ILENG,ILCMTY)
IF(ILENG.NE.0) THEN
CALL LCMGET(KPEDIT,'STRD',RECPX(IRECP))
IRECP=IRECP+NGCOND
ENDIF
CALL LCMLEN(KPEDIT,'NTOT0',ILENG,ILCMTY)
IF(ILENG.EQ.0) CALL XABORT('EDITXS: NTOT0 DATA MISSING.')
CALL LCMGET(KPEDIT,'NTOT0',RECPX(IRECP))
IRECP=IRECP+NGCOND
CALL LCMLEN(KPEDIT,'NG',ILENG,ILCMTY)
IF(ILENG.EQ.0) THEN
IFTL=IRECP-NGCOND
INFL=IRECP
CALL LCMLEN(KPEDIT,'SIGS00',ILENG,ILCMTY)
IF(ILENG.EQ.0) CALL XABORT('EDITXS: UNABLE TO MAKE NG.')
CALL LCMGET(KPEDIT,'SIGS00',RECPX(IRECP))
DO 260 IGROUP=1,NGCOND
RECPX(INFL)=RECPX(IFTL)-RECPX(INFL)
IFTL=IFTL+1
INFL=INFL+1
260 CONTINUE
ELSE
CALL LCMGET(KPEDIT,'NG',RECPX(IRECP))
ENDIF
IRECP=IRECP+NGCOND
CALL LCMLEN(KPEDIT,'NUSIGF',ILENG,ILCMTY)
IF(ILENG.NE.0) THEN
IFTL=IRECP
CALL LCMGET(KPEDIT,'NFTOT',RECPX(IRECP))
IRECP=IRECP+NGCOND
INFL=IRECP
CALL LCMGET(KPEDIT,'NUSIGF',RECPX(IRECP))
IRECP=IRECP+NGCOND
*----
* COMPUTE NU FROM NUSIGF/NFTOT
*----
DO 250 IGROUP=1,NGCOND
IF(RECPX(IFTL).NE.0.0) RECPX(INFL)=RECPX(INFL)/RECPX(IFTL)
IFTL=IFTL+1
INFL=INFL+1
250 CONTINUE
ENDIF
CALL LCMLEN(KPEDIT,'CHI',ILENG,ILCMTY)
IF((ILENG.NE.0).AND.(ICHIST.EQ.0)) THEN
CALL LCMGET(KPEDIT,'CHI',RECPX(IRECP))
IRECP=IRECP+NGCOND
ENDIF
CALL LCMLEN(KPEDIT,'NA',ILENG,ILCMTY)
IF(ILENG.NE.0) THEN
CALL LCMGET(KPEDIT,'NA',RECPX(IRECP))
IRECP=IRECP+NGCOND
ENDIF
CALL LCMLEN(KPEDIT,'NP',ILENG,ILCMTY)
IF(ILENG.NE.0) THEN
CALL LCMGET(KPEDIT,'NP',RECPX(IRECP))
IRECP=IRECP+NGCOND
ENDIF
CALL LCMLEN(KPEDIT,'N2N',ILENG,ILCMTY)
IF(ILENG.NE.0) THEN
CALL LCMGET(KPEDIT,'N2N',RECPX(IRECP))
IRECP=IRECP+NGCOND
ENDIF
CALL LCMLEN(KPEDIT,'ND',ILENG,ILCMTY)
IF(ILENG.NE.0) THEN
CALL LCMGET(KPEDIT,'ND',RECPX(IRECP))
IRECP=IRECP+NGCOND
ENDIF
CALL LCMLEN(KPEDIT,'NT',ILENG,ILCMTY)
IF(ILENG.NE.0) THEN
CALL LCMGET(KPEDIT,'NT',RECPX(IRECP))
IRECP=IRECP+NGCOND
ENDIF
CALL LCMLEN(KPEDIT,'STRD-X',ILENG,ILCMTY)
IF(ILENG.NE.0) THEN
CALL LCMGET(KPEDIT,'STRD-X',RECPX(IRECP))
IRECP=IRECP+NGCOND
IF(ILENG.NE.0) CALL LCMGET(KPEDIT,'STRD-Y',RECPX(IRECP))
IRECP=IRECP+NGCOND
IF(ILENG.NE.0) CALL LCMGET(KPEDIT,'STRD-Z',RECPX(IRECP))
IRECP=IRECP+NGCOND
ENDIF
IRECWR=IRECWR+1
NRECWR=IRECP-1
IF(IUTYPE.EQ.2) THEN
CALL XDRITE(IWGOXS,IRECWR,RECPX,NRECWR)
ELSE IF(IUTYPE.EQ.3) THEN
WRITE(IWGOXS,6007) (RECPX(I),I=1,NRECWR)
ENDIF
*----
* SCATTERING BLOCK
*----
DO 270 IL=1,NL
WRITE(CM,'(I2.2)') IL-1
CALL LCMLEN(KPEDIT,'SCAT'//CM,NRECWR,ILCMTY)
IF(NRECWR.NE.0) THEN
CALL LCMGET(KPEDIT,'SCAT'//CM,RECPS)
ELSE
RECPS(:NGCOND)=0.0
NRECWR=NGCOND
ENDIF
*-----
* TRANSFER INFORMATION TO ISOTXS
*----
IRECWR=IRECWR+1
IF(IUTYPE.EQ.2) THEN
CALL XDRITE(IWGOXS,IRECWR,RECPS,NRECWR)
ELSE IF(IUTYPE.EQ.3) THEN
WRITE(IWGOXS,6009) (RECPS(I),I=1,NRECWR)
ENDIF
270 CONTINUE
ENDIF
200 CONTINUE
DEALLOCATE(RECPS,RECPX,IRECGI)
DEALLOCATE(RICHI)
*----
* SCRATCH STORAGE DEALLOCATION
*----
DEALLOCATE(AVGVEL)
DEALLOCATE(NJJ,IJJ,LOCISO)
RETURN
*----
* FORMAT
*----
6000 FORMAT(' STORING ISOTOPE = ',A6,2X,'AT LOCATION = ',I10)
6001 FORMAT(' HABSID = ',6X,A6/' HIDENT = ',6X,A6/' HMAT = ',6X,A6/
> ' AMASS = ',E12.5/' EFISS = ',E12.5/' ECAPT = ',E12.5/
> ' TEMP = ',E12.5/' SIGPOT = ',E12.5/' ADENS = ',E12.5/
> ' KBR = ',I12 /' ICHI = ',I12 /' IFIS = ',I12 /
> ' IALF = ',I12 /' INP = ',I12 /' IN2N = ',I12 /
> ' IND = ',I12 /' INT = ',I12 /' LTOT = ',I12 /
> ' LTRN = ',I12 /' ISTRPD = ',I12)
6002 FORMAT(11H 0v isotxs ,A6,1H*,2A6,1H*,I6)
6003 FORMAT(4H 1d ,8I6)
6004 FORMAT(4H 2d ,1H*,A66,1H*)
6005 FORMAT(1H*,A6,1H*,9(1X,A6))
6006 FORMAT(4H 4d ,3(1X,A6)/1P,6E12.5/(12I6))
6007 FORMAT(4H 5d ,1P,5E12.5/(6E12.5))
6009 FORMAT(4H 7d ,1P,5E12.5/(6E12.5))
END
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