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|
*DECK LIBSUB
SUBROUTINE LIBSUB (MAXISO,MAXTRA,IPLIB,IPROC,NGRO,NBISO,NLIB,
1 ISONAM,TN,MASKI,IPRECI,SVDEPS,IMPX)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Production of an internal library with subgroups.
*
*Copyright:
* Copyright (C) 2003 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
* MAXISO maximum number of isotopes permitted.
* MAXTRA maximum number of energy bins of size DELI.
* IPLIB pointer to the lattice microscopic cross section library
* (L_LIBRARY signature).
* IPROC type of microlib processing:
* =2: perform temperature interpolation and build a
* temperature-independent draglib;
* =3: perform temperature interpolation and compute calendf-
* type mathematical probability tables based on bin-type
* cross-sections for total cross sections;
* =4: perform temperature interpolation and compute physical
* probability tables or slowing-down correlated probability
* tables.
* =5: perform temperature interpolation and compute calendf-
* type mathematical probability tables based on bin-type
* cross-sections for all available cross-sections types.
* =6: compute orthogonal bases for the resonance spectrum
* expansion (RSE) method.
* NGRO number of energy groups.
* NBISO number of isotopes present in the calculation domain.
* NLIB number of independent libraries.
* ISONAM alias name of isotopes.
* TN temperature of each isotope.
* MASKI isotope masks (isotope with index I is process if
* MASKI(I)=.true.).
* IPRECI accuracy index for probability tables in CALENDF.
* SVDEPS rank accuracy of the singular value decomposition.
* IMPX print flag.
*
*-----------------------------------------------------------------------
*
USE GANLIB
*----
* SUBROUTINE ARGUMENTS
*----
TYPE(C_PTR) IPLIB
INTEGER MAXISO,MAXTRA,IPROC,NGRO,NBISO,NLIB,ISONAM(3,NBISO),
1 IPRECI,IMPX
LOGICAL MASKI(NBISO)
REAL TN(NBISO),SVDEPS
*----
* LOCAL VARIABLES
*----
PARAMETER (MAXDIL=65,MAXED=50,NSTATE=40,MAXESP=4,IALTER=0)
TYPE(C_PTR) JPLIB,KPLIB,IPTMP,JPTMP,KPTMP,IPDRL
CHARACTER NAMLBT*8,NAMFIL*64,HNISOR*12,HSMG*131,TEXT12*12,
1 HSHI*12,HVECT(MAXED)*8,HNAMIS*12,HNAMIS2*12,TEXT4*4,CFILNA2*64
LOGICAL LLENG,LLSHI,LTRANC,LINDEX,MASK2(MAXDIL)
INTEGER ISOR(3),IPAR(NSTATE),IPAR2(NSTATE),IESP(MAXESP+1)
REAL DILUT(MAXDIL),EESP(MAXESP+1)
*----
* ALLOCATABLE ARRAYS
*----
INTEGER, ALLOCATABLE, DIMENSION(:) :: LSHI,NFS,ILLIB,NTFG,NIR,
1 INAME,IJCEDM,KISONA,KISONR,KSHI,KTYPE,KNAME,KCOH,KINC,KRSK,KNTFG,
2 KNIR,KSHIN
INTEGER, ALLOCATABLE, DIMENSION(:,:) :: ISONRF,ISHINA
INTEGER, ALLOCATABLE, DIMENSION(:,:,:) :: IHLIB
LOGICAL, ALLOCATABLE, DIMENSION(:) :: MASKJ
REAL, ALLOCATABLE, DIMENSION(:) :: GIR,KGIR,KSN,KTN,ENER,EBIN
REAL, ALLOCATABLE, DIMENSION(:,:) :: SN
*----
* SCRATCH STORAGE ALLOCATION
*----
ALLOCATE(LSHI(NBISO),NFS(NGRO),ISONRF(3,MAXISO),ISHINA(3,MAXISO),
2 IHLIB(2,MAXISO,4),ILLIB(MAXISO),NTFG(MAXISO),NIR(MAXISO))
ALLOCATE(MASKJ(NBISO))
ALLOCATE(SN(NGRO,NBISO),GIR(MAXISO))
*
TKSUB=0.0
TKTAB=0.0
*----
* CHECK FOR DUPLICATE ISOTOPE NAMES. MASKI(I) NUST BE SET IN SUCH A WAY
* THAT TWO IDENTICAL ISOTOPES ARE NEVER PROCESSED.
*----
CALL LCMGET(IPLIB,'ILIBRARYINDX',ILLIB)
DO 20 I=1,NBISO
IF(MASKI(I).AND.(ILLIB(I).NE.0)) THEN
DO 10 J=I+1,NBISO
IF(MASKI(J).AND.(ISONAM(1,I).EQ.ISONAM(1,J)).AND.(ISONAM(2,I)
1 .EQ.ISONAM(2,J)).AND.(ISONAM(3,I).EQ.ISONAM(3,J))) THEN
WRITE (HSMG,300) (ISONAM(I0,I),I0=1,3)
CALL XABORT(HSMG)
ENDIF
10 CONTINUE
ENDIF
20 CONTINUE
*----
* PROCESS THE NON-RESONANT ISOTOPES.
*----
CALL LCMGET(IPLIB,'ISOTOPESSHI',LSHI)
DO 35 ISOT=1,NBISO
MASKJ(ISOT)=MASKI(ISOT).AND.(LSHI(ISOT).EQ.0)
DO 30 I=1,NGRO
SN(I,ISOT)=1.0E10
30 CONTINUE
35 CONTINUE
CALL KDRCPU(TK1)
* --------------------------------------
CALL LIBLIB(IPLIB,NBISO,MASKJ(1),IMPX)
* --------------------------------------
CALL KDRCPU(TK2)
TKSUB=TKSUB+(TK2-TK1)
CALL LCMLEN(IPLIB,'ENERGY',ILENG,ITYLCM)
LLENG=(ILENG.EQ.NGRO+1)
CALL LCMLEN(IPLIB,'INDEX',ILENG,ITYLCM)
LINDEX=(ILENG.NE.0)
*----
* RECOVER SOME LIBRARY PARAMETERS.
*----
CALL LCMGET(IPLIB,'STATE-VECTOR',IPAR)
NL=IPAR(4)
NED=IPAR(13)
NDEL=IPAR(19)
IF(NED.GT.0) THEN
IF(NED.GT.MAXED) CALL XABORT('LIBSUB: MAXED OVERFLOW.')
CALL LCMGTC(IPLIB,'ADDXSNAME-P0',8,NED,HVECT)
ENDIF
*----
* RECOVER INFORMATION FROM THE /MICROLIB/ DIRECTORY.
*----
CALL LCMGET(IPLIB,'ISOTOPERNAME',ISONRF)
CALL LCMGET(IPLIB,'ILIBRARYTYPE',IHLIB(1,1,1))
CALL LCMLEN(IPLIB,'ISOTOPESNTFG',ILENG,ITYLCM)
IF(ILENG.GT.0) THEN
CALL LCMGET(IPLIB,'ISOTOPESNTFG',NTFG)
CALL LCMGET(IPLIB,'ISOTOPESCOH',IHLIB(1,1,2))
CALL LCMGET(IPLIB,'ISOTOPESINC',IHLIB(1,1,3))
ELSE
NTFG(:NBISO)=0
ENDIF
CALL LCMLEN(IPLIB,'ISOTOPESRESK',ILENG,ITYLCM)
IF(ILENG.GT.0) THEN
CALL LCMGET(IPLIB,'ISOTOPESRESK',IHLIB(1,1,4))
ELSE
NAMLBT=','
DO ISOT=1,NBISO
READ(NAMLBT,'(2A4)') IHLIB(1,ISOT,4),IHLIB(2,ISOT,4)
ENDDO
ENDIF
CALL LCMLEN(IPLIB,'ISOTOPESHIN',ILENG,ITYLCM)
LLSHI=(ILENG.GT.0)
IF(LLSHI) CALL LCMGET(IPLIB,'ISOTOPESHIN',ISHINA)
CALL LCMLEN(IPLIB,'ISOTOPESNIR',ILENG,ITYLCM)
IF(ILENG.GT.0) THEN
CALL LCMGET(IPLIB,'ISOTOPESNIR',NIR)
CALL LCMGET(IPLIB,'ISOTOPESGIR',GIR)
ELSE
NIR(:NBISO)=0
GIR(:NBISO)=0.0
ENDIF
*----
* PROCESS THE RESONANT ISOTOPES.
*----
JPLIB=LCMLID(IPLIB,'ISOTOPESLIST',NBISO)
IMPY=MAX(0,IMPX-5)
LTRANC=.FALSE.
DO 200 ISOT=1,NBISO
IF(MASKI(ISOT).AND.(LSHI(ISOT).NE.0)) THEN
WRITE(HNAMIS,'(3A4)') (ISONAM(I0,ISOT),I0=1,3)
IF(IMPX.GT.0) WRITE (6,'(/33H LIBSUB: PROCESSING ISOTOPE/MATER,
1 5HIAL '',A12,2H''.)') HNAMIS
*
* RECOVER MULTI-DILUTION INFORMATION.
*
* FIND THE DILUTION VALUES.
NDIL=0
CALL LCMOP(IPTMP,'*TEMPORARY*',0,1,0)
WRITE(HNISOR,'(3A4)') (ISONRF(I0,ISOT),I0=1,3)
WRITE(NAMLBT,'(2A4)') IHLIB(1,ISOT,1),IHLIB(2,ISOT,1)
ALLOCATE(INAME(16*NLIB))
CALL LCMGET(IPLIB,'ILIBRARYNAME',INAME)
ILIB=ILLIB(ISOT)
WRITE(NAMFIL,'(16A4)') (INAME(16*(ILIB-1)+I),I=1,16)
DEALLOCATE(INAME)
IF(NAMLBT.EQ.'DRAGON') THEN
CALL LCMOP(IPDRL,NAMFIL(:12),2,2,0)
CALL LIBDI1(MAXDIL,IPDRL,HNISOR,NDIL,DILUT)
CALL LCMCL(IPDRL,1)
ELSE IF(NAMLBT.EQ.'MATXS') THEN
CALL LIBDI2(MAXDIL,NAMFIL,HNISOR,NDIL,DILUT)
ELSE IF(NAMLBT.EQ.'MATXS2') THEN
CALL LIBDI3(MAXDIL,NAMFIL,HNISOR,NDIL,DILUT)
ELSE IF(NAMLBT.EQ.'APLIB1') THEN
WRITE(HSHI,'(3A4)') (ISHINA(I0,ISOT),I0=1,3)
CALL LIBDI4(MAXDIL,NAMFIL,HSHI,NDIL,DILUT)
ELSE IF(NAMLBT.EQ.'APLIB2') THEN
WRITE(HSHI,'(3A4)') (ISHINA(I0,ISOT),I0=1,3)
IF(HSHI.EQ.' ') THEN
WRITE (HSMG,'(35HLIBSUB: SELF-SHIELDING ISOTOPE NOT ,
1 25HDEFINED FOR MAIN ISOTOPE ,A12,1H.)') HNISOR
CALL XABORT(HSMG)
ENDIF
CALL LIBDI5(MAXDIL,NAMFIL,HSHI,NDIL,DILUT)
ELSE IF(NAMLBT.EQ.'APXSM') THEN
WRITE(HSHI,'(3A4)') (ISHINA(I0,ISOT),I0=1,3)
IF(HSHI.EQ.' ') THEN
WRITE (HSMG,'(35HLIBSUB: SELF-SHIELDING ISOTOPE NOT ,
1 25HDEFINED FOR MAIN ISOTOPE ,A12,1H.)') HNISOR
CALL XABORT(HSMG)
ENDIF
CALL LIBXS6(MAXDIL,NAMFIL,HSHI,NDIL,DILUT)
ELSE IF(NAMLBT.EQ.'APLIB3') THEN
IND = INDEX(NAMFIL, ":")
IF(IND.EQ.0) THEN
CALL XABORT('LIBSUB: NO SELF SHIELDING DATA AVAILABLE,')
ELSE
CFILNA2=NAMFIL(IND+1:)
ENDIF
CALL LIBD10(MAXDIL,CFILNA2,HNISOR,NDIL,DILUT)
ELSE IF(NAMLBT.EQ.'WIMSAECL') THEN
WRITE(HSHI,'(3A4)') (ISHINA(I0,ISOT),I0=1,3)
CALL LIBDI6(MAXDIL,NGRO,NAMFIL,HNISOR,HSHI,NDIL,DILUT)
ELSE IF(NAMLBT.EQ.'NDAS') THEN
CALL LIBND7(MAXDIL,NGRO,NAMFIL,HNISOR,NDIL,DILUT)
ELSE IF(NAMLBT.EQ.'WIMSD4') THEN
WRITE(HSHI,'(3A4)') (ISHINA(I0,ISOT),I0=1,3)
CALL LIBDI8(MAXDIL,NGRO,NAMFIL,HNISOR,HSHI,NDIL,DILUT)
ELSE IF(NAMLBT.EQ.'WIMSE') THEN
WRITE(HSHI,'(3A4)') (ISHINA(I0,ISOT),I0=1,3)
CALL LIBDI9(MAXDIL,NGRO,NAMFIL,HNISOR,HSHI,NDIL,DILUT)
ELSE
CALL XABORT('LIBSUB: '//NAMLBT//' LIBRARY TREATMENT IS '
1 //'NOT IMPLEMENTED.')
ENDIF
IF(NDIL.EQ.0) GO TO 70
50 IF(DILUT(1).LT.1.0) THEN
DO 60 I=2,NDIL+1
DILUT(I-1)=DILUT(I)
60 CONTINUE
NDIL=NDIL-1
GO TO 50
ENDIF
IF(IMPX.GT.4) THEN
WRITE(6,'(/32H LIBSUB: DILUTIONS FOR ISOTOPE '',A12,
1 2H'':/(1X,1P,10E12.4))') HNAMIS,(DILUT(I),I=1,NDIL+1)
ENDIF
70 IF(NDIL.EQ.0) THEN
WRITE(HSMG,'(41HLIBSUB: NOT ENOUGH DILUTIONS FOR ISOTOPE ,
1 A,1H.)') HNAMIS
CALL XABORT(HSMG)
ENDIF
*
* PROCESS THE ISOTOPE FOR EACH DILUTION.
TEXT12='L_LIBRARY'
READ(TEXT12,'(3A4)') (ISOR(I),I=1,3)
CALL LCMPUT(IPTMP,'SIGNATURE',3,3,ISOR)
DO 80 I=1,NSTATE
IPAR2(I)=IPAR(I)
80 CONTINUE
IPAR2(2)=NDIL+1
CALL LCMPUT(IPTMP,'STATE-VECTOR',NSTATE,1,IPAR2)
IF(NED.GT.0) THEN
ALLOCATE(IJCEDM(2*NED))
CALL LCMGET(IPLIB,'ADDXSNAME-P0',IJCEDM)
CALL LCMPUT(IPTMP,'ADDXSNAME-P0',2*NED,3,IJCEDM)
DEALLOCATE(IJCEDM)
ENDIF
IF(LINDEX) THEN
CALL LCMSIX(IPLIB,'INDEX',1)
CALL LCMSIX(IPTMP,'INDEX',1)
CALL LCMEQU(IPLIB,IPTMP)
CALL LCMSIX(IPTMP,' ',2)
CALL LCMSIX(IPLIB,' ',2)
ENDIF
*
* BUILD A MICROLIB WITH NDIL+1 ISOTOPES.
ALLOCATE(KISONA(3*(NDIL+1)),KISONR(3*(NDIL+1)),KSHI(NDIL+1),
1 KTYPE(2*(NDIL+1)),KNAME(NDIL+1))
IF(NTFG(ISOT).GT.0) THEN
ALLOCATE(KCOH(2*(NDIL+1)),KINC(2*(NDIL+1)),KRSK(2*(NDIL+1)),
1 KNTFG(NDIL+1))
ENDIF
IF(NIR(ISOT).NE.0) THEN
ALLOCATE(KGIR(NDIL+1),KNIR(NDIL+1))
ENDIF
IF(LLSHI) ALLOCATE(KSHIN(3*(NDIL+1)))
ALLOCATE(KSN(NGRO*(NDIL+1)),KTN(NDIL+1))
DO 100 IDIL=1,NDIL+1
KSHI(IDIL)=LSHI(ISOT)
MASK2(IDIL)=.TRUE.
KISONA(3*(IDIL-1)+1)=ISONAM(1,ISOT)
KISONA(3*(IDIL-1)+2)=ISONAM(2,ISOT)
KISONR(3*(IDIL-1)+1)=ISONRF(1,ISOT)
KISONR(3*(IDIL-1)+2)=ISONRF(2,ISOT)
KISONR(3*(IDIL-1)+3)=ISONRF(3,ISOT)
WRITE(TEXT4,'(I4.4)') IDIL
READ(TEXT4,'(A4)') KISONA(3*(IDIL-1)+3)
IF(NIR(ISOT).NE.0) THEN
KGIR(IDIL)=GIR(ISOT)
KNIR(IDIL)=NIR(ISOT)
ENDIF
KTYPE(2*(IDIL-1)+1)=IHLIB(1,ISOT,1)
KTYPE(2*(IDIL-1)+2)=IHLIB(2,ISOT,1)
KNAME(IDIL)=ILLIB(ISOT)
IF(NTFG(ISOT).GT.0) THEN
KCOH(2*(IDIL-1)+1)=IHLIB(1,ISOT,2)
KCOH(2*(IDIL-1)+2)=IHLIB(2,ISOT,2)
KINC(2*(IDIL-1)+1)=IHLIB(1,ISOT,3)
KINC(2*(IDIL-1)+2)=IHLIB(2,ISOT,3)
KRSK(2*(IDIL-1)+1)=IHLIB(1,ISOT,4)
KRSK(2*(IDIL-1)+2)=IHLIB(2,ISOT,4)
KNTFG(IDIL)=NTFG(ISOT)
ENDIF
IF(LLSHI) THEN
KSHIN(3*(IDIL-1)+1)=ISHINA(1,ISOT)
KSHIN(3*(IDIL-1)+2)=ISHINA(2,ISOT)
KSHIN(3*(IDIL-1)+3)=ISHINA(3,ISOT)
ENDIF
DO 90 I=1,NGRO
KSN((IDIL-1)*NGRO+I)=DILUT(IDIL)
90 CONTINUE
KTN(IDIL)=TN(ISOT)
100 CONTINUE
ALLOCATE(INAME(16*NLIB))
CALL LCMGET(IPLIB,'ILIBRARYNAME',INAME)
CALL LCMPUT(IPTMP,'ILIBRARYNAME',16*NLIB,3,INAME)
DEALLOCATE(INAME)
CALL LCMPUT(IPTMP,'ISOTOPESUSED',3*(NDIL+1),3,KISONA)
CALL LCMPUT(IPTMP,'ISOTOPERNAME',3*(NDIL+1),3,KISONR)
DEALLOCATE(KISONR,KISONA)
IF(NIR(ISOT).NE.0) THEN
CALL LCMPUT(IPTMP,'ISOTOPESGIR',NDIL+1,2,KGIR)
CALL LCMPUT(IPTMP,'ISOTOPESNIR',NDIL+1,1,KNIR)
DEALLOCATE(KNIR,KGIR)
ENDIF
CALL LCMPUT(IPTMP,'ISOTOPESSHI',NDIL+1,1,KSHI)
CALL LCMPUT(IPTMP,'ILIBRARYTYPE',2*(NDIL+1),3,KTYPE)
CALL LCMPUT(IPTMP,'ILIBRARYINDX',NDIL+1,1,KNAME)
DEALLOCATE(KNAME,KTYPE,KSHI)
IF(NTFG(ISOT).GT.0) THEN
CALL LCMPUT(IPTMP,'ISOTOPESCOH',2*(NDIL+1),3,KCOH)
CALL LCMPUT(IPTMP,'ISOTOPESINC',2*(NDIL+1),3,KINC)
CALL LCMPUT(IPTMP,'ISOTOPESRESK',2*(NDIL+1),3,KRSK)
CALL LCMPUT(IPTMP,'ISOTOPESNTFG',NDIL+1,1,KNTFG)
DEALLOCATE(KNTFG,KRSK,KINC,KCOH)
ENDIF
IF(LLSHI) THEN
CALL LCMPUT(IPTMP,'ISOTOPESHIN',3*(NDIL+1),3,KSHIN)
DEALLOCATE(KSHIN)
ENDIF
CALL LCMPUT(IPTMP,'ISOTOPESDSN',NGRO*(NDIL+1),2,KSN)
CALL LCMPUT(IPTMP,'ISOTOPESDSB',NGRO*(NDIL+1),2,KSN)
CALL LCMPUT(IPTMP,'ISOTOPESTEMP',NDIL+1,2,KTN)
IF(NED.GT.0) CALL LCMPTC(IPTMP,'ADDXSNAME-P0',8,NED,HVECT)
DEALLOCATE(KTN,KSN)
*
CALL KDRCPU(TK1)
* ---------------------------------------
CALL LIBLIB(IPTMP,NDIL+1,MASK2(1),IMPY)
* ---------------------------------------
CALL KDRCPU(TK2)
TKSUB=TKSUB+(TK2-TK1)
*
* RECOVER THE SELF-SHIELDING GROUP LIMITS.
CALL LCMGET(IPTMP,'STATE-VECTOR',IPAR2)
LTRANC=LTRANC.OR.(IPAR2(5).NE.0)
IPAR(9)=MIN(IPAR(9),IPAR2(9))
IPAR(10)=MAX(IPAR(10),IPAR2(10))
IPAR(16)=MAX(IPAR(16),IPAR2(16))
IPAR(19)=MAX(IPAR(19),IPAR2(19))
*
* RECOVER GROUP STRUCTURE
IF(.NOT.LLENG) THEN
ALLOCATE(ENER(NGRO+1))
CALL LCMGET(IPTMP,'ENERGY',ENER)
CALL LCMPUT(IPLIB,'ENERGY',NGRO+1,2,ENER)
CALL LCMGET(IPTMP,'DELTAU',ENER)
CALL LCMPUT(IPLIB,'DELTAU',NGRO,2,ENER)
DEALLOCATE(ENER)
LLENG=.TRUE.
ENDIF
*
* RECOVER ENERGY-DEPENDENT FISSION SPECTRA
CALL LCMLEN(IPTMP,'CHI-LIMITS',NBESP,ITYLCM)
IF(NBESP.GT.0) THEN
NBESP=NBESP-1
IF(NBESP.GT.MAXESP) CALL XABORT('LIBSUB: MAXESP OVERFLOW.')
CALL LCMGET(IPTMP,'CHI-LIMITS',IESP)
CALL LCMPUT(IPLIB,'CHI-LIMITS',NBESP+1,1,IESP)
CALL LCMGET(IPTMP,'CHI-ENERGY',EESP)
CALL LCMPUT(IPLIB,'CHI-ENERGY',NBESP+1,2,EESP)
ENDIF
*
* RECOVER BIN TYPE INFORMATION (IF AVAILABLE).
JPTMP=LCMGID(IPTMP,'ISOTOPESLIST')
KPLIB=LCMDIL(JPLIB,ISOT) ! set ISOT-th isotope
CALL LCMLEL(JPTMP,NDIL+1,ILENG,ITYLCM)
IF(ILENG.EQ.0) THEN
TEXT12=HNAMIS(1:8)
WRITE(TEXT12(9:12),'(I4.4)') NDIL+1
CALL XABORT('LIBSUB: MISSING LIST ITEM FOR '//TEXT12)
ENDIF
KPTMP=LCMGIL(JPTMP,NDIL+1) ! set (NDIL+1)-th isotope
CALL LCMGET(KPTMP,'AWR',AWR)
CALL LCMLEN(KPTMP,'BIN-NFS',ILENG,ITYLCM)
IF(ILENG.GT.0) THEN
CALL LCMGET(KPTMP,'BIN-NFS',NFS)
CALL LCMPUT(KPLIB,'BIN-NFS',NGRO,1,NFS)
LBIN=0
DO 130 I=1,NGRO
LBIN=LBIN+NFS(I)
130 CONTINUE
IF(IMPX.GT.1) THEN
WRITE(6,'(/41H LIBSUB: NUMBER OF UFG BINS FOR ISOTOPE '',
1 A12,2H''=,I10)') HNAMIS,LBIN
ENDIF
ALLOCATE(EBIN(LBIN+1))
CALL LCMLEN(KPTMP,'BIN-ENERGY',ILONG,ITYLCM)
IF(ILONG.GT.LBIN+1) CALL XABORT('LIBSUB: NFS OVERFLOW.')
CALL LCMGET(KPTMP,'BIN-ENERGY',EBIN)
CALL LCMPUT(KPLIB,'BIN-ENERGY',LBIN+1,2,EBIN)
CALL LCMGET(KPTMP,'BIN-NTOT0',EBIN)
CALL LCMPUT(KPLIB,'BIN-NTOT0',LBIN,2,EBIN)
CALL LCMGET(KPTMP,'BIN-SIGS00',EBIN)
CALL LCMPUT(KPLIB,'BIN-SIGS00',LBIN,2,EBIN)
CALL LCMLEN(KPTMP,'BIN-NUSIGF',ILONG,ITYLCM)
IF(ILONG.GT.0) THEN
CALL LCMGET(KPTMP,'BIN-NUSIGF',EBIN)
CALL LCMPUT(KPLIB,'BIN-NUSIGF',LBIN,2,EBIN)
ENDIF
DEALLOCATE(EBIN)
ENDIF
*
CALL KDRCPU(TK1)
IF(IPROC.EQ.6) THEN
* USE THE RESONANCE SPECTRUM EXPANSION METHOD.
CALL LCMLEN(KPTMP,'BIN-NFS',ILENG,ITYLCM)
IF(ILENG.EQ.0) THEN
CALL LCMLIB(KPTMP)
WRITE(HSMG,'(38HLIBSUB: BIN DATA MISSING FOR ISOTOPE '',
1 A12,2H''.)') HNAMIS
CALL XABORT(HSMG)
ENDIF
NDEL=IPAR(19)
CALL LIBRSE(KPLIB,IPTMP,MAXTRA,HNAMIS,LBIN,NGRO,NL,NED,NDEL,
1 HVECT,NFS,IMPX,DELI,AWR,IALTER,SVDEPS)
ELSE
* RESET CALENDF MAXIMUM ACCURACY FOR INTERMEDIATE ISOTOPES.
IPRECJ=IPRECI
IF((AWR.LT.220.0).AND.(IPRECI.GT.3)) IPRECJ=3
*
* USE THE SUBGROUP METHOD.
CALL LIBPTW(KPLIB,IPTMP,IPROC,NGRO,NL,HNAMIS,NED,HVECT,NDIL,
1 DILUT,AWR,IPRECJ,IMPX,MAXTRA)
ENDIF
*
* RESET ALIAS
CALL LCMPTC(KPLIB,'ALIAS',12,HNAMIS)
CALL KDRCPU(TK2)
TKTAB=TKTAB+(TK2-TK1)
ENDIF
200 CONTINUE
*----
* COMPUTE CORRELATION INFORMATION BETWEEN PAIRS OF RESONANT ISOTOPES.
*----
CALL KDRCPU(TK1)
IF((IPROC.EQ.3).OR.(IPROC.EQ.4).OR.(IPROC.EQ.5)) THEN
DO 220 ISOT=1,NBISO
WRITE(HNAMIS,'(3A4)') (ISONAM(I0,ISOT),I0=1,3)
IF(MASKI(ISOT).AND.(LSHI(ISOT).LT.0)) THEN
DO 210 JSOT=1,ISOT-1
IF(MASKI(JSOT).AND.(LSHI(ISOT).EQ.LSHI(JSOT))) THEN
WRITE(HNAMIS2,'(3A4)') (ISONAM(I0,JSOT),I0=1,3)
IF(IMPX.GT.0) WRITE (6,'(/26H LIBSUB: COMPUTING CORRELA,
1 41HTION EFFECTS BETWEEN ISOTOPES/MATERIALS '',A12,
2 7H'' AND '',A12,2H''.)') HNAMIS,HNAMIS2
CALL LIBCOR(IPLIB,NGRO,ISOT,JSOT,HNAMIS,HNAMIS2)
ENDIF
210 CONTINUE
ENDIF
220 CONTINUE
ELSE IF(IPROC.EQ.6) THEN
CALL LIBRSC(MAXTRA,IPLIB,LBIN,NGRO,NBISO,ISONAM,MASKI,LSHI,
1 NFS,IMPX,IALTER)
ENDIF
CALL KDRCPU(TK2)
TKTAB=TKTAB+(TK2-TK1)
*----
* RESET IPAR(5) FOR TRANSPORT CORRECTION AND SAVE STATE-VECTOR.
*----
IF((IPROC.LE.2).AND.LTRANC) IPAR(5)=2
CALL LCMPUT(IPLIB,'STATE-VECTOR',NSTATE,1,IPAR)
*
IF(IMPX.GT.0) WRITE(6,'(/30H LIBSUB: CPU TIME IN LIBLIB=,F10.2,
1 9H SECONDS./9X,21HCPU TIME IN SUBGROUP=,F10.2,9H SECONDS.)')
2 TKSUB,TKTAB
*----
* SCRATCH STORAGE DEALLOCATION
*----
DEALLOCATE(GIR,SN)
DEALLOCATE(MASKJ)
DEALLOCATE(NIR,NTFG,ILLIB,IHLIB,ISHINA,ISONRF,NFS,LSHI)
RETURN
*
300 FORMAT(8HLIBSUB: ,3A4,34H IS A DUPLICATE ISOTOPE/MATERIAL N,
1 4HAME.)
END
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