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|
*DECK EDIRES
SUBROUTINE EDIRES(IPEDIT,IPFLUX,IPLIB,IADJ,NL,NDEL,NBESP,NBISO,
1 NDEPL,ISONAM,ISONRF,IPISO,MIX,TN,NED,HVECT,NOUT,HVOUT,IPRINT,
2 NGROUP,NGCOND,NBMIX,NREGIO,NMERGE,NDFI,NDFP,ILEAKS,ILUPS,NW,
3 MATCOD,VOLUME,KEYFLX,CURNAM,IGCOND,IMERGE,FLUXES,AFLUXE,EIGENK,
4 EIGINF,B2,DEN,ITYPE,LSISO,EMEVF,EMEVG,DECAY,YIELD,FIPI,FIFP,
5 PYIELD,ITRANC,LISO,NMLEAK)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Calculation of residual macroscopic cross sections.
*
*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): A. Hebert
*
*Parameters: input
* IPEDIT pointer to the edition LCM object (L_EDIT signature).
* IPFLUX pointer to the solution LCM object (L_FLUX signature).
* IPLIB pointer to the reference microscopic cross section library
* LCM object (L_LIBRARY signature).
* IADJ type of flux weighting:
* =0: direct flux weighting;
* =1: direct-adjoint flux weighting.
* NL number of Legendre orders required in the calculation
* (NL=1 or higher).
* NDEL number of delayed precursor groups.
* NBESP number of energy-dependent fission spectra.
* NBISO number of isotopes.
* NDEPL number of depleting isotopes.
* ISONAM local names of NBISO isotopes:
* chars 1 to 8 is the local isotope name;
* chars 9 to 12 is a suffix function of the mix number.
* ISONRF library name of isotopes.
* IPISO pointer array towards microlib isotopes.
* MIX mixture number associated with each isotope.
* TN absolute temperature associated with each isotope.
* NED number of extra vector edits from MATXS.
* HVECT MATXS names of the extra vector edits.
* NOUT number of output cross section types (set to zero to recover
* all cross section types).
* HVOUT MATXS names of the output cross section types.
* IPRINT print index.
* NGROUP number of energy groups.
* NGCOND number of condensed groups.
* NBMIX number of mixtures.
* NREGIO number of volumes.
* NMERGE number of merged regions.
* NDFI number of fissile isotopes.
* NDFP number of fission products.
* ILEAKS leakage calculation type: =0: no leakage; =1: homogeneous
* leakage (Diffon); =2: isotropic streaming (Ecco);
* =3: anisotropic streaming (Tibere).
* ILUPS up-scattering removing flag (=1 to remove up-scattering from
* output cross-sections).
* NW type of weighting for P1 cross section info (=0: P0 ; =1: P1).
* MATCOD mixture index per volume.
* VOLUME volumes.
* KEYFLX position of average fluxes.
* CURNAM name of the LCM directory where the microscopic cross sections
* are stored (blank name means no save).
* IGCOND limits of condensed groups.
* IMERGE index of merged regions.
* FLUXES fluxes.
* AFLUXE adjoint fluxes.
* EIGENK effective multiplication factor.
* EIGINF infinite multiplication factor.
* B2 bucklings.
* DEN number density of each isotope.
* ITYPE type of each isotope.
* LSISO flag for isotopes saved.
* EMEVF fission production energy.
* EMEVG capture production energy.
* DECAY radioactive decay constant.
* YIELD group-ordered condensed fission product yield.
* FIPI fissile isotope index assigned to each microlib isotope.
* FIFP fission product index assigned to each microlib isotope.
* PYIELD fissile isotope ordered condensed fission product yield.
* ITRANC type of transport correction (=0: no correction).
* LISO =.TRUE. if we want to keep all the isotopes after
* homogeneization.
* NMLEAK number of leakage zones.
*
*-----------------------------------------------------------------------
*
USE GANLIB
*----
* SUBROUTINE ARGUMENTS
*----
TYPE(C_PTR) IPEDIT,IPFLUX,IPLIB,IPISO(NBISO)
INTEGER NL,NDEL,NBESP,NBISO,NDEPL,ISONAM(3,NBISO),ISONRF(3,NBISO),
1 MIX(NBISO),NED,NOUT,IPRINT,NGROUP,NGCOND,NBMIX,NREGIO,NMERGE,
2 NDFI,NDFP,ILEAKS,ILUPS,NW,MATCOD(NREGIO),KEYFLX(NREGIO),
3 IGCOND(NGCOND),IMERGE(NREGIO),ITYPE(NBISO),LSISO(NBISO),
4 FIPI(NBISO,NMERGE),FIFP(NBISO,NMERGE),ITRANC,NMLEAK
REAL TN(NBISO),VOLUME(NREGIO),FLUXES(NREGIO,NGROUP,NW+1),
1 EIGENK,EIGINF,B2(4),DEN(NBISO),EMEVF(NBISO),EMEVG(NBISO),
2 DECAY(NBISO),YIELD(NGCOND+1,NDFP,NMERGE),PYIELD(NDFI,NDFP,NMERGE)
CHARACTER HVECT(NED)*8,HVOUT(NOUT)*8,CURNAM*12
LOGICAL LISO
*----
* LOCAL VARIABLES
*----
PARAMETER (NSTATE=40)
TYPE(C_PTR) JPEDIT,KPEDIT,IPWORK,JPWORK,KPWORK
CHARACTER TEXT8*8,TEXT12*12,CM*2
LOGICAL LWD,LYIEL,LFISS
INTEGER IPAR(NSTATE)
INTEGER, ALLOCATABLE, DIMENSION(:) :: LSIS2,IEVOL2,ISMIX,ISTYP,
1 ISTOD,ITYPRO,JPIFI
INTEGER, ALLOCATABLE, DIMENSION(:,:) :: IHNISO,IHNIRF
REAL, ALLOCATABLE, DIMENSION(:) :: WDLA,SDEN,VOLISO,TNISO,WORK,
1 WPY,DENTOT,DAWR,TNTOT,YIELD2,PYIELD2
REAL, ALLOCATABLE, DIMENSION(:,:) :: GAS,SIGS,PNFIRA
REAL, ALLOCATABLE, DIMENSION(:,:,:) :: WSCAT,WORK2
CHARACTER(LEN=8), ALLOCATABLE, DIMENSION(:) :: HMAKE
*----
* SCRATCH STORAGE ALLOCATION (PART 1)
*----
MAXH=9+NBESP+2*NDEL+NED+NL+3*NW
ALLOCATE(LSIS2(NBISO),IEVOL2(NBISO),JPIFI(NDFI),ITYPRO(NL))
ALLOCATE(WDLA(NDEL),WSCAT(NGCOND,NGCOND,NL),GAS(NGCOND,MAXH),
1 WORK(NGCOND+1),WPY(NDFI),PNFIRA(0:NDEL,2),
2 WORK2(NGCOND,NGCOND,NL),DENTOT(NMERGE),DAWR(NMERGE),
3 TNTOT(NMERGE),YIELD2(1+NGCOND),PYIELD2(NDFI))
ALLOCATE(HMAKE(MAXH+NL))
*----
* RECOVER THE RADIOACTIVE DECAY CONSTANTS OF DELAYED NEUTRON GROUPS
* FROM THE MACROLIB IF THEY EXIST.
*----
IOF0H=8+NED+NL+3*NW
IOF1H=8+NED+NL+3*NW+NDEL
IF(IPRINT.GT.3) THEN
WRITE(6,'(/36H EDIRES: COMPUTE A RESIDUAL ISOTOPE.)')
ENDIF
CALL LCMOP(IPWORK,'*TEMPORARY*',0,1,0)
LWD=.FALSE.
IF(CURNAM.EQ.' ') CALL XABORT('EDIRES: NO CURNAM DIRECTORY.')
CALL LCMSIX(IPEDIT,CURNAM,1) ! step up CURNAM
CALL LCMSIX(IPEDIT,'MACROLIB',1)
CALL LCMLEN(IPEDIT,'LAMBDA-D',ILONG,ITYLCM)
LWD=(ILONG.EQ.NDEL).AND.(NDEL.GT.0)
IF(LWD) CALL LCMGET(IPEDIT,'LAMBDA-D',WDLA)
CALL LCMSIX(IPEDIT,' ',2)
CALL LCMSIX(IPEDIT,' ',2)
*
IF(LWD) THEN
CALL LCMSIX(IPWORK,'DEFAULT',1)
CALL LCMSIX(IPWORK,'MACROLIB',1)
CALL LCMPUT(IPWORK,'LAMBDA-D',NDEL,2,WDLA)
CALL LCMSIX(IPWORK,' ',2)
CALL LCMSIX(IPWORK,' ',2)
ENDIF
*----
* COMPUTE MICROSCOPIC CROSS SECTIONS OF REMAINING ISOTOPES. WE SET
* NDFI=0 TO GET RID OF PPF YIELDS.
*----
DO 10 ISO=1,NBISO
LSIS2(ISO)=0
IEVOL2(ISO)=1
IF(LSISO(ISO).EQ.0) LSIS2(ISO)=1
10 CONTINUE
IPRIN2=MAX(0,IPRINT-2)
TEXT12='DEFAULT'
CALL EDIMIC(IPWORK,IPFLUX,IPLIB,IADJ,NL,NDEL,NBESP,NBISO,NDEPL,
1 ISONAM,ISONRF,IPISO,MIX,TN,NED,HVECT,NOUT,HVOUT,IPRIN2,NGROUP,
2 NGCOND,NBMIX,NREGIO,NMERGE,0,0,ILEAKS,ILUPS,NW,MATCOD,VOLUME,
3 KEYFLX,TEXT12,IGCOND,IMERGE,FLUXES,AFLUXE,EIGENK,EIGINF,B2,DEN,
4 ITYPE,IEVOL2,LSIS2,EMEVF,EMEVG,DECAY,YIELD,FIPI,FIFP,PYIELD,
5 ITRANC,LISO,NMLEAK)
*
CALL LCMSIX(IPEDIT,CURNAM,1)
CALL LCMGET(IPEDIT,'STATE-VECTOR',IPAR)
JJISO=IPAR(2)
JPEDIT=LCMLID(IPEDIT,'ISOTOPESLIST',JJISO+NMERGE)
CALL LCMSIX(IPWORK,'DEFAULT',1)
CALL LCMGET(IPWORK,'STATE-VECTOR',IPAR)
JJWRK=IPAR(2)
*----
* SCRATCH STORAGE ALLOCATION (PART 2)
*----
MAXISO=MAX(JJISO+NMERGE,JJWRK)
ALLOCATE(IHNISO(3,MAXISO),SDEN(MAXISO),IHNIRF(3,MAXISO),
1 ISMIX(MAXISO),ISTYP(MAXISO),ISTOD(MAXISO),VOLISO(MAXISO),
2 TNISO(MAXISO))
*----
* RECOVER INFORMATION FROM EDIMIC
*----
IF(JJWRK.GT.0) THEN
CALL LCMGET(IPWORK,'ISOTOPESUSED',IHNISO)
CALL LCMGET(IPWORK,'ISOTOPESDENS',SDEN)
CALL LCMGET(IPWORK,'ISOTOPESMIX',ISMIX)
CALL LCMGET(IPWORK,'ISOTOPESTEMP',TNISO)
JPWORK=LCMGID(IPWORK,'ISOTOPESLIST')
ENDIF
*----
* LOOP OVER HOMOGENEOUS MIXTURES.
*----
DO 240 INM=1,NMERGE
DO 20 J=1,MAXH+NL
HMAKE(J)=' '
20 CONTINUE
GAS(:NGCOND,:MAXH)=0.0
WSCAT(:NGCOND,:NGCOND,:NL)=0.0
PNFIRA(0:NDEL,2)=0.0
YIELD2(:1+NGCOND)=0.0
PYIELD2(:NDFI)=0.0
DENTOT(INM)=0.0
DAWR(INM)=0.0
DECISO=0.0
LFISS=.FALSE.
DO 170 ISO=1,JJWRK
IF(ISMIX(ISO).EQ.INM) THEN
WRITE(TEXT12,'(3A4)') (IHNISO(I0,ISO),I0=1,3)
DDEN=SDEN(ISO)
DENTOT(INM)=DENTOT(INM)+DDEN
KPWORK=LCMGIL(JPWORK,ISO) ! set ISO-th isotope
CALL LCMLEN(KPWORK,'AWR',LENGTH,ITYLCM)
IF(LENGTH.EQ.1) THEN
CALL LCMGET(KPWORK,'AWR',FLOTT)
DAWR(INM)=DAWR(INM)+DDEN*FLOTT
ENDIF
TNTOT(INM)=TNISO(ISO)
CALL LCMLEN(KPWORK,'DECAY',LENGTH,ITYLCM)
IF(LENGTH.EQ.1) THEN
CALL LCMGET(KPWORK,'DECAY',FLOTT)
DECISO=DECISO+FLOTT*DDEN
ENDIF
IF(NDFI.GT.0) THEN
CALL LCMLEN(KPWORK,'YIELD',LENGTH,ITYLCM)
IF(LENGTH.EQ.NGCOND+1) THEN
CALL LCMGET(KPWORK,'YIELD',WORK)
DO 30 IGR=1,NGCOND+1
YIELD2(IGR)=YIELD2(IGR)+WORK(IGR)
30 CONTINUE
ENDIF
CALL LCMLEN(KPWORK,'PYIELD',LENGTH,ITYLCM)
IF((LENGTH.GT.0).AND.(LENGTH.EQ.NDFI)) THEN
CALL LCMGET(KPWORK,'PIFI',JPIFI)
CALL LCMGET(KPWORK,'PYIELD',WPY)
DO 40 I=1,NDFI
PYIELD2(I)=PYIELD2(I)+WPY(I)
40 CONTINUE
ENDIF
ENDIF
*
* SET ARRAY HMAKE.
DO 45 IW=1,MIN(NW+1,10)
WRITE(TEXT8,'(3HNWT,I1)') IW-1
CALL LCMLEN(KPWORK,TEXT8,ILONG,ITYLCM)
IF(ILONG.EQ.NGCOND) HMAKE(IW)=TEXT8
WRITE(TEXT8,'(4HNWAT,I1)') IW-1
CALL LCMLEN(KPWORK,TEXT8,ILONG,ITYLCM)
IF(ILONG.EQ.NGCOND) HMAKE(1+NW+IW)=TEXT8
WRITE(TEXT8,'(4HNTOT,I1)') IW-1
CALL LCMLEN(KPWORK,TEXT8,ILONG,ITYLCM)
IF(ILONG.EQ.NGCOND) HMAKE(2+2*NW+IW)=TEXT8
45 CONTINUE
IOF=3+3*NW
DO 50 IL=0,NL-1
IOF=IOF+1
WRITE (CM,'(I2.2)') IL
CALL LCMLEN(KPWORK,'SIGS'//CM,ILONG,ITYLCM)
IF(ILONG.EQ.NGCOND) HMAKE(IOF)='SIGS'//CM
50 CONTINUE
IOF=IOF+1
CALL LCMLEN(KPWORK,'NUSIGF',ILONG,ITYLCM)
IF(ILONG.EQ.NGCOND) THEN
LFISS=.TRUE.
HMAKE(IOF)='NUSIGF'
ENDIF
DO 60 IED=1,NED
IOF=IOF+1
CALL LCMLEN(KPWORK,HVECT(IED),ILONG,ITYLCM)
IF(ILONG.EQ.NGCOND) HMAKE(IOF)=HVECT(IED)
60 CONTINUE
CALL LCMLEN(KPWORK,'H-FACTOR',ILONG,ITYLCM)
IF(ILONG.EQ.NGCOND) HMAKE(IOF+1)='H-FACTOR'
CALL LCMLEN(KPWORK,'OVERV',ILONG,ITYLCM)
IF(ILONG.EQ.NGCOND) HMAKE(IOF+2)='OVERV'
CALL LCMLEN(KPWORK,'TRANC',ILONG,ITYLCM)
IF(ILONG.EQ.NGCOND) HMAKE(IOF+3)='TRANC'
CALL LCMLEN(KPWORK,'STRD',ILONG,ITYLCM)
IF(ILONG.EQ.NGCOND) HMAKE(IOF+4)='STRD'
IOF=IOF+4
DO 70 IDEL=1,NDEL
IOF=IOF+1
WRITE(TEXT8,'(6HNUSIGF,I2.2)') IDEL
CALL LCMLEN(KPWORK,TEXT8,ILONG,ITYLCM)
IF(ILONG.EQ.NGCOND) HMAKE(IOF)=TEXT8
70 CONTINUE
IOF=IOF+1
CALL LCMLEN(KPWORK,'CHI',ILONG,ITYLCM)
IF(ILONG.EQ.NGCOND) HMAKE(IOF)='CHI'
DO 80 IDEL=1,NDEL
IOF=IOF+1
WRITE(TEXT8,'(3HCHI,I2.2)') IDEL
CALL LCMLEN(KPWORK,TEXT8,ILONG,ITYLCM)
IF(ILONG.EQ.NGCOND) HMAKE(IOF)=TEXT8
80 CONTINUE
DO 85 ISP=1,NBESP
IOF=IOF+1
WRITE(TEXT8,'(5HCHI--,I2.2)') ISP
CALL LCMLEN(KPWORK,TEXT8,ILONG,ITYLCM)
IF(ILONG.EQ.NGCOND) HMAKE(IOF)=TEXT8
85 CONTINUE
IF(IOF.NE.MAXH) CALL XABORT('EDIRES: WRONG OFFSET.')
*
PNFIRA(0:NDEL,1)=0.0
DO 150 J=1,MAXH
IF(HMAKE(J).NE.' ') THEN
CALL LCMLEN(KPWORK,HMAKE(J),ILONG,ITYLCM)
IF(ILONG.GT.0) THEN
CALL LCMGET(KPWORK,HMAKE(J),WORK)
IF(HMAKE(J).EQ.'NUSIGF') THEN
DO 90 IGR=1,NGCOND
DEL=WORK(IGR)*GAS(IGR,1)*MAX(DDEN,1.0E-30)
PNFIRA(0,1)=PNFIRA(0,1)+DEL
PNFIRA(0,2)=PNFIRA(0,2)+DEL
GAS(IGR,J)=GAS(IGR,J)+WORK(IGR)*DDEN
90 CONTINUE
ELSE IF(HMAKE(J)(:3).EQ.'NUS') THEN
IDEL=J-IOF0H
DO 100 IGR=1,NGCOND
DEL=WORK(IGR)*GAS(IGR,1)*MAX(DDEN,1.0E-30)
PNFIRA(IDEL,1)=PNFIRA(IDEL,1)+DEL
PNFIRA(IDEL,2)=PNFIRA(IDEL,2)+DEL
GAS(IGR,J)=GAS(IGR,J)+WORK(IGR)*DDEN
100 CONTINUE
ELSE IF(HMAKE(J)(:3).EQ.'NWT') THEN
DO 110 IGR=1,NGCOND
GAS(IGR,J)=WORK(IGR)
110 CONTINUE
ELSE IF((HMAKE(J).EQ.'CHI').OR.
1 (HMAKE(J)(:5).EQ.'CHI--')) THEN
DO 120 IGR=1,NGCOND
GAS(IGR,J)=GAS(IGR,J)+WORK(IGR)*PNFIRA(0,1)
120 CONTINUE
ELSE IF(HMAKE(J)(:3).EQ.'CHI') THEN
IDEL=J-IOF1H-1
DO 130 IGR=1,NGCOND
GAS(IGR,J)=GAS(IGR,J)+WORK(IGR)*PNFIRA(IDEL,1)
130 CONTINUE
ELSE
DO 140 IGR=1,NGCOND
GAS(IGR,J)=GAS(IGR,J)+WORK(IGR)*DDEN
140 CONTINUE
ENDIF
ENDIF
ENDIF
150 CONTINUE
CALL LCMLEN(KPWORK,'SCAT-SAVED',ILONG,ITYLCM)
IF(ILONG.GT.0) THEN
ALLOCATE(SIGS(NGCOND,NL))
CALL XDRLGS(KPWORK,-1,IPRINT,0,NL-1,1,NGCOND,SIGS(1,1),
1 WORK2,ITYPRO)
DEALLOCATE(SIGS)
DO 162 IL=1,NL
WRITE (CM,'(I2.2)') IL-1
IF(ITYPRO(IL).NE.0) HMAKE(MAXH+IL)='SCAT'//CM
DO 161 JGR=1,NGCOND
DO 160 IGR=1,NGCOND
WSCAT(IGR,JGR,IL)=WSCAT(IGR,JGR,IL)+WORK2(IGR,JGR,IL)*DDEN
160 CONTINUE
161 CONTINUE
162 CONTINUE
ENDIF
ENDIF
170 CONTINUE
IF((DENTOT(INM).GT.0.0).OR.LFISS) THEN
JJISO=JJISO+1
IF(JJISO.GT.MAXISO) CALL XABORT('EDIRES: MAXISO OVERFLOW(1).')
WRITE(TEXT12,'(A8,I4.4)') '*MAC*RES',INM
IF(IPRINT.GT.0) WRITE (6,600) TEXT12,JJISO
KPEDIT=LCMDIL(JPEDIT,JJISO) ! set JJISO-th isotope
CALL LCMPTC(KPEDIT,'ALIAS',12,TEXT12)
CALL LCMPUT(KPEDIT,'AWR',1,2,DAWR(INM))
DECISO=DECISO/DENTOT(INM)
IF(DECISO.GT.0.0) CALL LCMPUT(KPEDIT,'DECAY',1,2,DECISO)
IF(NDFI.GT.0) THEN
LYIEL=.FALSE.
DO 175 IGR=1,NGCOND+1
LYIEL=LYIEL.OR.(YIELD2(IGR).GT.0.0)
175 CONTINUE
IF(LYIEL) THEN
CALL LCMPUT(KPEDIT,'YIELD',NGCOND+1,2,YIELD2)
CALL LCMPUT(KPEDIT,'PYIELD',NDFI,2,PYIELD2)
CALL LCMPUT(KPEDIT,'PIFI',NDFI,1,JPIFI)
ENDIF
ENDIF
IF(NOUT.GT.0) THEN
DO J=1,MAXH+NL
DO IOUT=1,NOUT
IF(HMAKE(J).EQ.HVOUT(IOUT)) GO TO 180
ENDDO
HMAKE(J)=' '
180 CONTINUE
ENDDO
ENDIF
DO 210 J=1,MAXH
IF(HMAKE(J).EQ.'OVERV') THEN
DO 185 IGR=1,NGCOND
GAS(IGR,J)=GAS(IGR,J)/DENTOT(INM)
185 CONTINUE
ELSE IF((HMAKE(J).EQ.'CHI').OR.(HMAKE(J)(:5).EQ.'CHI--')) THEN
DO 190 IGR=1,NGCOND
IF(GAS(IGR,J).NE.0.0) THEN
GAS(IGR,J)=GAS(IGR,J)/PNFIRA(0,2)
ENDIF
190 CONTINUE
ELSE IF(HMAKE(J)(:3).EQ.'CHI') THEN
IDEL=J-IOF1H-1
DO 200 IGR=1,NGCOND
IF(GAS(IGR,J).NE.0.0) THEN
GAS(IGR,J)=GAS(IGR,J)/PNFIRA(IDEL,2)
ENDIF
200 CONTINUE
ENDIF
IF((HMAKE(J).NE.' ').AND.(HMAKE(J)(:4).NE.'SIGS')) THEN
CALL LCMPUT(KPEDIT,HMAKE(J),NGCOND,2,GAS(1,J))
ENDIF
210 CONTINUE
DO 220 IL=1,NL
ITYPRO(IL)=0
IF(HMAKE(MAXH+IL).NE.' ') ITYPRO(IL)=1
220 CONTINUE
IF(ITYPRO(1).GT.0) THEN
CALL XDRLGS(KPEDIT,1,IPRINT,0,NL-1,1,NGCOND,GAS(1,4+3*NW),
1 WSCAT,ITYPRO)
ENDIF
IF(LWD) CALL LCMPUT(KPEDIT,'LAMBDA-D',NDEL,2,WDLA)
*
IF(IPRINT.GT.3) THEN
WRITE(6,'(/17H NUMBER DENSITY =,1P,E12.4)') 1.0
WRITE(6,'(23H WEIGHTED ATOMIC MASS =,1P,E13.5)') DAWR(INM)
DO 230 J=1,MAXH
IF(HMAKE(J).NE.' ') THEN
WRITE (6,610) HMAKE(J),(GAS(I,J),I=1,NGCOND)
ENDIF
230 CONTINUE
WRITE (6,610) 'SIGA ',(GAS(I,3+2*NW)-GAS(I,4+3*NW),
> I=1,NGCOND)
WRITE (6,610) 'SIGW00 ',(WSCAT(I,I,1),I=1,NGCOND)
IF(NL.GT.1) THEN
WRITE (6,610) 'SIGW01 ',(WSCAT(I,I,2),I=1,NGCOND)
ENDIF
IF(LWD) WRITE (6,610) 'LAMBDA-D',(WDLA(I),I=1,NDEL)
ENDIF
ENDIF
240 CONTINUE
CALL LCMSIX(IPWORK,' ',2)
CALL LCMCL(IPWORK,2)
*----
* UPDATE RECORDS ISOTOPESUSED, ISOTOPERNAME, ISOTOPESMIX, ETC.
*----
CALL LCMGET(IPEDIT,'STATE-VECTOR',IPAR)
JJISO=IPAR(2)
IF(JJISO.GT.MAXISO) CALL XABORT('EDIRES: MAXISO OVERFLOW(2).')
IF(JJISO.GT.0) THEN
CALL LCMGET(IPEDIT,'ISOTOPESUSED',IHNISO)
CALL LCMGET(IPEDIT,'ISOTOPERNAME',IHNIRF)
CALL LCMGET(IPEDIT,'ISOTOPESDENS',SDEN)
CALL LCMGET(IPEDIT,'ISOTOPESMIX',ISMIX)
CALL LCMGET(IPEDIT,'ISOTOPESTYPE',ISTYP)
CALL LCMGET(IPEDIT,'ISOTOPESTODO',ISTOD)
CALL LCMGET(IPEDIT,'ISOTOPESVOL',VOLISO)
CALL LCMGET(IPEDIT,'ISOTOPESTEMP',TNISO)
ENDIF
DO 260 INM=1,NMERGE
IF(DENTOT(INM).GT.0.0) THEN
JJISO=JJISO+1
IF(JJISO.GT.MAXISO) CALL XABORT('EDIRES: MAXISO OVERFLOW(3).')
WRITE(TEXT12,'(A8,I4.4)') '*MAC*RES',INM
READ(TEXT12,'(3A4)') (IHNISO(I0,JJISO),I0=1,3)
WRITE(TEXT12,'(A12)') '*MAC*RES '
READ(TEXT12,'(3A4)') (IHNIRF(I0,JJISO),I0=1,3)
SDEN(JJISO)=1.0
ISMIX(JJISO)=INM
ISTYP(JJISO)=1
ISTOD(JJISO)=1
DVOL=0.0
DO 250 IREGIO=1,NREGIO
IF(IMERGE(IREGIO).EQ.INM) DVOL=DVOL+VOLUME(IREGIO)
250 CONTINUE
VOLISO(JJISO)=DVOL
TNISO(JJISO)=TNTOT(INM)
ENDIF
260 CONTINUE
IPAR(2)=JJISO
IPAR(22)=IPAR(22)+1
CALL LCMPUT(IPEDIT,'STATE-VECTOR',NSTATE,1,IPAR)
CALL LCMPUT(IPEDIT,'ISOTOPESUSED',3*JJISO,3,IHNISO)
CALL LCMPUT(IPEDIT,'ISOTOPERNAME',3*JJISO,3,IHNIRF)
CALL LCMPUT(IPEDIT,'ISOTOPESDENS',JJISO,2,SDEN)
CALL LCMPUT(IPEDIT,'ISOTOPESMIX',JJISO,1,ISMIX)
CALL LCMPUT(IPEDIT,'ISOTOPESTYPE',JJISO,1,ISTYP)
CALL LCMPUT(IPEDIT,'ISOTOPESTODO',JJISO,1,ISTOD)
CALL LCMPUT(IPEDIT,'ISOTOPESVOL',JJISO,2,VOLISO)
CALL LCMPUT(IPEDIT,'ISOTOPESTEMP',JJISO,2,TNISO)
CALL LCMSIX(IPEDIT,' ',2) ! step down CURNAM
*----
* SCRATCH STORAGE DEALLOCATION
*----
DEALLOCATE(TNISO,VOLISO,ISTOD,ISTYP,ISMIX,IHNIRF,SDEN,IHNISO)
DEALLOCATE(HMAKE)
DEALLOCATE(PYIELD2,YIELD2,TNTOT,DAWR,DENTOT,WORK2,PNFIRA,WPY,
1 WORK,GAS,WSCAT,WDLA)
DEALLOCATE(ITYPRO,JPIFI,IEVOL2,LSIS2)
RETURN
*
600 FORMAT (//44H CROSS SECTION OF MERGED/CONDENSED ISOTOPE ',A12,
1 7H' (ISO=,I8,2H):)
610 FORMAT (/11H REACTION ',A12,2H':/(1X,1P,10E12.4))
END
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