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|
*DECK DSPH
SUBROUTINE DSPH(NENTRY,HENTRY,IENTRY,JENTRY,KENTRY)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Create a delta Macrolib with respect to a SPH correction.
*
*Copyright:
* Copyright (C) 2017 Ecole Polytechnique de Montreal.
*
*Author(s):
* A. Hebert
*
*Parameters: input
* NENTRY number of data structures transfered to this module.
* HENTRY name of the data structures.
* IENTRY data structure type where:
* IENTRY=1 for LCM memory object;
* IENTRY=2 for XSM file;
* IENTRY=3 for sequential binary file;
* IENTRY=4 for sequential ASCII file.
* JENTRY access permission for the data structure where:
* JENTRY=0 for a data structure in creation mode;
* JENTRY=1 for a data structure in modifications mode;
* JENTRY=2 for a data structure in read-only mode.
* KENTRY data structure pointer.
*
*-----------------------------------------------------------------------
*
USE GANLIB
*----
* SUBROUTINE ARGUMENTS
*----
INTEGER NENTRY,IENTRY(NENTRY),JENTRY(NENTRY)
CHARACTER HENTRY(NENTRY)*12
TYPE(C_PTR) KENTRY(NENTRY)
*----
* LOCAL VARIABLES
*----
PARAMETER(NSTATE=40)
CHARACTER HSIGN*12,TEXT2*2,TEXT8*8,TEXT12*12
DOUBLE PRECISION DFLOTT
INTEGER ISTATE(NSTATE)
DOUBLE PRECISION OPTPRR(NSTATE)
TYPE(C_PTR) IPOPT,IPNEW,IPOLD,JPNEW,JPOLD,KPNEW,KPOLD,LPNEW,MPNEW
INTEGER, ALLOCATABLE, DIMENSION(:) :: IJJ,NJJ,IPOS
INTEGER, ALLOCATABLE, DIMENSION(:,:) :: IHEDIT
REAL, ALLOCATABLE, DIMENSION(:) :: DIFHOM,GAR,PER,GAR1,PER1
REAL, ALLOCATABLE, DIMENSION(:,:) :: SPH,GAR2,PER2,ALBP,PALBP
REAL, ALLOCATABLE, DIMENSION(:,:,:) :: PSIGS
DOUBLE PRECISION, ALLOCATABLE, DIMENSION(:) :: VARV
*----
* PARAMETER VALIDATION
*----
IF(NENTRY.NE.3)CALL XABORT('DSPH: THREE PARAMETERS EXPECTED.')
IF((IENTRY(1).NE.1).AND.(IENTRY(1).NE.2))CALL XABORT('@DSPH'
1 //': LCM OBJECT EXPECTED AT LHS.')
IF(JENTRY(1).EQ.0)THEN
HSIGN='L_MACROLIB'
CALL LCMPTC(KENTRY(1),'SIGNATURE',12,HSIGN)
ELSE
CALL XABORT('DSPH: EMPTY DELTA MACROLIB EXPECTED AT LHS.')
ENDIF
IPNEW=KENTRY(1)
IF((IENTRY(2).NE.1).AND.(IENTRY(2).NE.2))CALL XABORT('DSPH: LCM '
1 //'OBJECT EXPECTED AT LHS.')
IF(JENTRY(2).EQ.0)THEN
HSIGN='L_OPTIMIZE'
CALL LCMPTC(KENTRY(2),'SIGNATURE',12,HSIGN)
ELSE IF(JENTRY(2).EQ.1)THEN
CALL LCMGTC(KENTRY(2),'SIGNATURE',12,HSIGN)
IF(HSIGN.NE.'L_OPTIMIZE')THEN
CALL XABORT('DSPH: SIGNATURE OF '//HENTRY(2)//' IS '//HSIGN//
1 '. L_OPTIMIZE EXPECTED.')
ENDIF
ELSE IF(JENTRY(2).EQ.2)THEN
CALL XABORT('DSPH: OPTIMIZE OBJECT IN CREATION OR MODIFICATION'
1 //' MODE EXPECTED.')
ENDIF
IPOPT=KENTRY(2)
IF((IENTRY(3).NE.1).AND.(IENTRY(3).NE.2))CALL XABORT('DSPH: LCM '
1 //'OBJECT EXPECTED AT RHS.')
IF(JENTRY(3).NE.2)CALL XABORT('DSPH: MACROLIB IN READ-ONLY MODE '
1 //'EXPECTED AT RHS.')
CALL LCMGTC(KENTRY(3),'SIGNATURE',12,HSIGN)
IF(HSIGN.NE.'L_MACROLIB')THEN
CALL XABORT('DSPH: SIGNATURE OF '//HENTRY(3)//' IS '//HSIGN//
1 '. L_MACROLIB EXPECTED.')
ENDIF
IPOLD=KENTRY(3)
CALL LCMGET(IPOLD,'STATE-VECTOR',ISTATE)
NGRP=ISTATE(1)
NMIX=ISTATE(2)
NL=ISTATE(3)
NIFISS=ISTATE(4)
NED=ISTATE(5)
NDEL=ISTATE(7)
NALBP=ISTATE(8)
ILEAKS=ISTATE(9)
NW=ISTATE(10)
*----
* READ THE INPUT DATA
*----
IMPX=1
IMC=2
NGR1=1
NGR2=NGRP
NMIXP=NMIX
20 CALL REDGET(INDIC,NITMA,FLOTT,TEXT12,DFLOTT)
IF(INDIC.EQ.10) GO TO 30
IF(INDIC.NE.3) CALL XABORT('DSPH: CHARACTER DATA EXPECTED(1).')
IF(TEXT12.EQ.'EDIT') THEN
* READ THE PRINT INDEX.
CALL REDGET(INDIC,IMPX,FLOTT,TEXT12,DFLOTT)
IF(INDIC.NE.1) CALL XABORT('DSPH: INTEGER DATA EXPECTED(1).')
ELSE IF(TEXT12.EQ.'SPH') THEN
* READ THE TYPE OF SPH CORRECTION.
CALL REDGET(INDIC,NITMA,FLOTT,TEXT12,DFLOTT)
IF(INDIC.NE.3) CALL XABORT('DSPH: CHARACTER DATA EXPECTED(2).')
IF(TEXT12.EQ.'PN') THEN
IMC=1
ELSE IF(TEXT12.EQ.'SN') THEN
IMC=2
ELSE IF(TEXT12.EQ.'ALBEDO') THEN
IMC=3
ELSE
CALL XABORT('DSPH: INVALID TYPE OF SPH CORRECTION.')
ENDIF
ELSE IF(TEXT12.EQ.'GRPMIN') THEN
* READ THE MINIMUM GROUP INDEX.
CALL REDGET(INDIC,NGR1,FLOTT,TEXT12,DFLOTT)
IF(INDIC.NE.1) CALL XABORT('DSPH: INTEGER DATA EXPECTED(4).')
IF((NGR1.LE.0).OR.(NGR1.GT.NGRP)) CALL XABORT('DSPH: INVALID '
1 //'VALUE OF GRPMIN.')
ELSE IF(TEXT12.EQ.'GRPMAX') THEN
* READ THE MAXIMUM GROUP INDEX.
CALL REDGET(INDIC,NGR2,FLOTT,TEXT12,DFLOTT)
IF(INDIC.NE.1) CALL XABORT('DSPH: INTEGER DATA EXPECTED(5).')
IF((NGR2.LT.NGR1).OR.(NGR2.GT.NGRP)) CALL XABORT('DSPH: INVAL'
1 //'ID VALUE OF GRPMAX.')
ELSE IF(TEXT12.EQ.';') THEN
GO TO 30
ELSE
CALL XABORT('DSPH: '//TEXT12//' IS AN INVALID KEYWORD.')
ENDIF
GO TO 20
30 IF(NGR2.LT.NGR1) CALL XABORT('DSPH: INVALID GROUP INDICES.')
NMIXP=NMIX
IF(IMC.EQ.3) NMIXP=0
NPERT=(NMIXP+NALBP)*(NGR2-NGR1+1)
IF(IMPX.GT.0) WRITE(6,'(/36H DSPH: NUMBER OF CROSS-SECTION PERTU,
1 9HRBATIONS=,I5)') NPERT
*----
* SET THE PERTURBED MACROLIB
*----
JPNEW=LCMLID(IPNEW,'STEP',NPERT)
JPOLD=LCMGID(IPOLD,'GROUP')
IPERT=0
ALLOCATE(SPH(NMIXP+NALBP,NGRP),VARV(NPERT),ALBP(NALBP,NGRP),
1 PALBP(NALBP,NGRP))
ALLOCATE(IHEDIT(2,NED+1),IJJ(NMIX),NJJ(NMIX),IPOS(NMIX))
ALLOCATE(DIFHOM(NGRP),GAR(NMIX),PER(NMIX),GAR1(NMIX*NGRP),
1 PER1(NMIX*NGRP),GAR2(NMIX,NIFISS),PER2(NMIX,NIFISS),
2 PSIGS(NMIX,NGRP,NL))
*----
* RECOVER SPH FACTORS
*----
IF(NALBP.GT.0) CALL LCMGET(IPOLD,'ALBEDO',ALBP)
SPH(:NMIXP+NALBP,:NGRP)=1.0
DO 40 IGRP=NGR1,NGR2
KPOLD=LCMGIL(JPOLD,IGRP)
CALL LCMLEN(KPOLD,'NSPH',ILCMLN,ITYLCM)
IF(ILCMLN.EQ.NMIX) THEN
CALL LCMGET(KPOLD,'NSPH',SPH(1,IGRP))
IF(NALBP.GT.0) SPH(NMIXP+1:NMIXP+NALBP,IGRP)=1.0
ELSE
SPH(:NMIXP+NALBP,IGRP)=1.0
ENDIF
40 CONTINUE
*----
* MACROSCOPIC TOTAL CROSS SECTIONS
*----
DO 190 IGRP=NGR1,NGR2
DO 130 IBMP=1,NMIXP
PSIGS(:NMIX,:NGRP,:NL)=0.0
IPERT=IPERT+1
IF(IPERT.GT.NPERT) CALL XABORT('DSPH: NPERT OVERFLOW(1).')
VARV(IPERT)=SPH(IBMP,IGRP)
KPNEW=LCMDIL(JPNEW,IPERT)
IF(NALBP.GT.0) THEN
PALBP(:NALBP,:NGRP)=1.0
CALL LCMPUT(KPNEW,'ALBEDO',NALBP*NGRP,2,PALBP)
ENDIF
LPNEW=LCMLID(KPNEW,'GROUP',NGRP)
DO 110 IGR=1,NGRP
MPNEW=LCMDIL(LPNEW,IGR)
KPOLD=LCMGIL(JPOLD,IGR)
GAR(:NMIX)=0.0
NJJ(:NMIX)=1
IJJ(:NMIX)=IGR
CALL LCMPUT(MPNEW,'NTOT0',NMIX,2,GAR)
CALL LCMPUT(MPNEW,'SIGS00',NMIX,2,GAR)
CALL LCMPUT(MPNEW,'SIGW00',NMIX,2,GAR)
CALL LCMPUT(MPNEW,'SCAT00',NMIX,2,GAR)
CALL LCMPUT(MPNEW,'NJJS00',NMIX,1,NJJ)
CALL LCMPUT(MPNEW,'IJJS00',NMIX,1,IJJ)
CALL LCMPUT(MPNEW,'IPOS00',NMIX,1,NJJ)
*----
* MACROSCOPIC TOTAL CROSS SECTIONS
*----
PER(:NMIX)=0.0
CALL LCMLEN(KPOLD,'NTOT0',ILCMLN,ITYLCM)
IF(ILCMLN.EQ.0) CALL XABORT('DSPH: MISSING NTOT0 INFO')
CALL LCMGET(KPOLD,'NTOT0',GAR)
IF(IMC.EQ.1) THEN
IF(IGR.EQ.IGRP) PER(IBMP)=GAR(IBMP)/SPH(IBMP,IGR)
CALL LCMPUT(MPNEW,'NTOT0',NMIX,2,PER)
ENDIF
PER(:NMIX)=0.0
CALL LCMLEN(KPOLD,'NTOT1',ILCMLN,ITYLCM)
IF(ILCMLN.GT.0) CALL LCMGET(KPOLD,'NTOT1',GAR)
IF(IMC.EQ.1) THEN
IF(IGR.EQ.IGRP) PER(IBMP)=-GAR(IBMP)/SPH(IBMP,IGR)
CALL LCMPUT(MPNEW,'NTOT1',NMIX,2,PER)
ENDIF
*----
* MACROSCOPIC NU*FISSION CROSS SECTIONS (STEADY-STATE AND DELAYED)
*----
IF(NIFISS.GT.0) THEN
PER2(:NMIX,:NIFISS)=0.0
CALL LCMGET(KPOLD,'NUSIGF',GAR2)
IF(IGR.EQ.IGRP) THEN
DO 50 IFIS=1,NIFISS
PER2(IBMP,IFIS)=GAR2(IBMP,IFIS)/SPH(IBMP,IGR)
50 CONTINUE
ENDIF
CALL LCMPUT(MPNEW,'NUSIGF',NMIX*NIFISS,2,PER2)
DO 70 IDEL=1,NDEL
WRITE(TEXT12,'(6HNUSIGF,I2.2)') IDEL
PER2(:NMIX,:NIFISS)=0.0
CALL LCMGET(KPOLD,TEXT12,GAR2)
IF(IGR.EQ.IGRP) THEN
DO 60 IFIS=1,NIFISS
PER2(IBMP,IFIS)=GAR2(IBMP,IFIS)/SPH(IBMP,IGR)
60 CONTINUE
ENDIF
CALL LCMPUT(MPNEW,TEXT12,NMIX*NIFISS,2,PER2)
70 CONTINUE
ENDIF
*----
* MACROSCOPIC SCATTERING CROSS SECTIONS
*----
DO 90 IL=1,NL
WRITE(TEXT2,'(I2.2)') IL-1
CALL LCMLEN(KPOLD,'NJJS'//TEXT2,ILCMLN,ITYLCM)
IF(ILCMLN.GT.0) THEN
CALL LCMGET(KPOLD,'NJJS'//TEXT2,NJJ)
CALL LCMGET(KPOLD,'IJJS'//TEXT2,IJJ)
CALL LCMGET(KPOLD,'IPOS'//TEXT2,IPOS)
CALL LCMGET(KPOLD,'SCAT'//TEXT2,GAR1)
CALL LCMLEN(KPOLD,'NTOT1',ILCMLN,ITYLCM)
IF((MOD(IL-1,2).EQ.1).AND.(ILCMLN.GT.0)) THEN
CALL LCMGET(KPOLD,'NTOT1',GAR)
ELSE
CALL LCMGET(KPOLD,'NTOT0',GAR)
ENDIF
PER1(:NMIX*NGRP)=0.0
IPO=IPOS(IBMP)
DO 80 JGR=IJJ(IBMP),IJJ(IBMP)-NJJ(IBMP)+1,-1
IF(MOD(IL-1,2).EQ.0) THEN
IF((IGR.EQ.JGR).AND.(IMC.GT.1)) THEN
IF(IGR.EQ.IGRP) THEN
PER1(IPO)=GAR1(IPO)/SPH(IBMP,IGR)-GAR(IBMP)/SPH(IBMP,IGR)
ENDIF
ELSE
IF(JGR.EQ.IGRP) THEN
PER1(IPO)=GAR1(IPO)/SPH(IBMP,JGR) ! IGR <- JGR
ENDIF
ENDIF
ELSE
IF((IGR.EQ.JGR).AND.(IMC.GT.1)) THEN
IF(IGR.EQ.IGRP) THEN
PER1(IPO)=-GAR1(IPO)/SPH(IBMP,IGR)+GAR(IBMP)/SPH(IBMP,IGR)
ENDIF
ELSE
IF(IGR.EQ.IGRP) THEN
PER1(IPO)=-GAR1(IPO)/SPH(IBMP,IGR)
ENDIF
ENDIF
ENDIF
PSIGS(IBMP,IGR,IL)=PSIGS(IBMP,IGR,IL)+PER1(IPO)
IPO=IPO+1
80 CONTINUE
CALL LCMPUT(MPNEW,'NJJS'//TEXT2,NMIX,1,NJJ)
CALL LCMPUT(MPNEW,'IJJS'//TEXT2,NMIX,1,IJJ)
CALL LCMPUT(MPNEW,'IPOS'//TEXT2,NMIX,1,IPOS)
CALL LCMPUT(MPNEW,'SCAT'//TEXT2,IPOS(NMIX)+NJJ(NMIX)-1,2,PER1)
ENDIF
CALL LCMLEN(KPOLD,'SIGW'//TEXT2,ILCMLN,ITYLCM)
IF(ILCMLN.GT.0) THEN
PER(:NMIX)=0.0
CALL LCMGET(KPOLD,'SIGW'//TEXT2,GAR1)
CALL LCMLEN(KPOLD,'NTOT1',ILCMLN,ITYLCM)
IF((MOD(IL-1,2).EQ.1).AND.(ILCMLN.GT.0)) THEN
CALL LCMGET(KPOLD,'NTOT1',GAR)
ELSE
CALL LCMGET(KPOLD,'NTOT0',GAR)
ENDIF
IF(MOD(IL-1,2).EQ.0) THEN
IF(IMC.EQ.1) THEN
IF(IGR.EQ.IGRP) THEN
PER(IBMP)=GAR1(IBMP)/SPH(IBMP,IGR)
ENDIF
ELSE
IF(IGR.EQ.IGRP) THEN
PER(IBMP)=-GAR1(IBMP)/SPH(IBMP,IGR)+GAR(IBMP)/SPH(IBMP,IGR)
ENDIF
ENDIF
ELSE
IF(IMC.EQ.1) THEN
IF(IGR.EQ.IGRP) THEN
PER(IBMP)=-GAR1(IBMP)/SPH(IBMP,IGR)
ENDIF
ELSE
IF(IGR.EQ.IGRP) THEN
PER(IBMP)=-GAR1(IBMP)/SPH(IBMP,IGR)+GAR(IBMP)/SPH(IBMP,IGR)
ENDIF
ENDIF
ENDIF
CALL LCMPUT(MPNEW,'SIGW'//TEXT2,NMIX,2,PER)
ENDIF
90 CONTINUE
*----
* DIFFUSION COEFFICIENTS
*----
IF(ILEAKS.EQ.1) THEN
CALL LCMLEN(KPOLD,'DIFF',ILCMLN,ITYLCM)
IF(ILCMLN.GT.0) THEN
PER(:NMIX)=0.0
CALL LCMGET(KPOLD,'DIFF',GAR)
IF(IGR.EQ.IGRP) PER(IBMP)=GAR(IBMP)/SPH(IBMP,IGR)
ELSE
PER(:NMIX)=0.0
CALL LCMGET(IPOLD,'DIFHOMB1HOM',DIFHOM)
IF(IGR.EQ.IGRP) PER(IBMP)=DIFHOM(IGR)/SPH(IBMP,IGR)
ENDIF
CALL LCMPUT(MPNEW,'DIFF',NMIX,2,PER)
ELSE IF(ILEAKS.EQ.2) THEN
CALL LCMLEN(KPOLD,'DIFFX',ILCMLN,ITYLCM)
IF(ILCMLN.GT.0) THEN
PER(:NMIX)=0.0
CALL LCMGET(KPOLD,'DIFFX',GAR)
IF(IGR.EQ.IGRP) PER(IBMP)=GAR(IBMP)/SPH(IBMP,IGR)
CALL LCMPUT(MPNEW,'DIFFX',NMIX,2,PER)
ENDIF
CALL LCMLEN(KPOLD,'DIFFY',ILCMLN,ITYLCM)
IF(ILCMLN.GT.0) THEN
PER(:NMIX)=0.0
CALL LCMGET(KPOLD,'DIFFY',GAR)
IF(IGR.EQ.IGRP) PER(IBMP)=GAR(IBMP)/SPH(IBMP,IGR)
CALL LCMPUT(MPNEW,'DIFFY',NMIX,2,PER)
ENDIF
CALL LCMLEN(KPOLD,'DIFFZ',ILCMLN,ITYLCM)
IF(ILCMLN.GT.0) THEN
PER(:NMIX)=0.0
CALL LCMGET(KPOLD,'DIFFZ',GAR)
IF(IGR.EQ.IGRP) PER(IBMP)=GAR(IBMP)/SPH(IBMP,IGR)
CALL LCMPUT(MPNEW,'DIFFZ',NMIX,2,PER)
ENDIF
ENDIF
*----
* SPECIFIC REACTIONS
*----
CALL LCMLEN(KPOLD,'TRANC',ILCMLN,ITYLCM)
IF(ILCMLN.GT.0) THEN
PER(:NMIX)=0.0
CALL LCMGET(KPOLD,'TRANC',GAR)
IF(IGR.EQ.IGRP) PER(IBMP)=-GAR(IBMP)/SPH(IBMP,IGR)
CALL LCMPUT(MPNEW,'TRANC',NMIX,2,PER)
ENDIF
*----
* ADDITIONAL PHI-WEIGHTED EDITS
*----
DO 100 IED=1,NED
WRITE(TEXT8,'(2A4)') (IHEDIT(I0,IED),I0=1,2)
IF(TEXT8(:5).EQ.'TRANC') GO TO 100
CALL LCMLEN(KPOLD,TEXT8,ILCMLN,ITYLCM)
IF(ILCMLN.GT.0) THEN
PER(:NMIX)=0.0
CALL LCMGET(KPOLD,TEXT8,GAR)
IF(TEXT8(:4).EQ.'STRD') THEN
IF(IGR.EQ.IGRP) PER(IBMP)=GAR(IBMP)/SPH(IBMP,IGR)
ELSE
IF(IGR.EQ.IGRP) PER(IBMP)=GAR(IBMP)*SPH(IBMP,IGR)
ENDIF
CALL LCMPUT(MPNEW,TEXT8,NMIX,2,PER)
ENDIF
100 CONTINUE
110 CONTINUE
*----
* STORE SCATTERING CROSS SECTIONS
*----
DO 125 IGR=1,NGRP
MPNEW=LCMDIL(LPNEW,IGR)
KPOLD=LCMGIL(JPOLD,IGR)
CALL LCMLEN(KPOLD,'SIGS00',ILCMLN,ITYLCM)
IF(ILCMLN.GT.0) THEN
PSIGS(:NMIX,IGR,1)=0.0
CALL LCMGET(KPOLD,'SIGS00',GAR1)
CALL LCMGET(KPOLD,'NTOT0',GAR)
IF(IMC.EQ.1) THEN
IF(IGR.EQ.IGRP) PSIGS(IBMP,IGR,1)=GAR1(IBMP)/SPH(IBMP,IGR)
ELSE
IF(IGR.EQ.IGRP) PSIGS(IBMP,IGR,1)=GAR1(IBMP)/SPH(IBMP,IGR)-
> GAR(IBMP)/SPH(IBMP,IGR)
ENDIF
ENDIF
DO 120 IL=1,NL
WRITE(TEXT2,'(I2.2)') IL-1
CALL LCMLEN(KPOLD,'SIGS'//TEXT2,ILCMLN,ITYLCM)
IF(ILCMLN.GT.0) THEN
CALL LCMPUT(MPNEW,'SIGS'//TEXT2,NMIX,2,PSIGS(1,IGR,IL))
ENDIF
120 CONTINUE
125 CONTINUE
130 CONTINUE
*----
* DERIVATIVE RELATIVE TO PHYSICAL ALBEDOS
*----
DO 180 IALP=1,NALBP
IPERT=IPERT+1
IF(IPERT.GT.NPERT) CALL XABORT('DSPH: NPERT OVERFLOW(2).')
VARV(IPERT)=SPH(NMIXP+IALP,IGRP)
KPNEW=LCMDIL(JPNEW,IPERT)
PALBP(:NALBP,:NGRP)=1.0
FAT=0.5*(1.0-ALBP(IALP,IGRP))/(1.0+ALBP(IALP,IGRP))/
1 REAL(VARV(IPERT))
PALBP(IALP,IGRP)=(1.0-2.0*FAT)/(1.0+2.0*FAT)
LPNEW=LCMLID(KPNEW,'GROUP',NGRP)
CALL LCMPUT(KPNEW,'ALBEDO',NALBP*NGRP,2,PALBP)
DO 170 IGR=1,NGRP
MPNEW=LCMDIL(LPNEW,IGR)
GAR(:NMIX)=0.0
NJJ(:NMIX)=1
DO 140 IMIX=1,NMIX
IJJ(IMIX)=IGR
140 CONTINUE
CALL LCMPUT(MPNEW,'NTOT0',NMIX,2,GAR)
CALL LCMPUT(MPNEW,'SIGS00',NMIX,2,GAR)
CALL LCMPUT(MPNEW,'SIGW00',NMIX,2,GAR)
CALL LCMPUT(MPNEW,'SCAT00',NMIX,2,GAR)
CALL LCMPUT(MPNEW,'NJJS00',NMIX,1,NJJ)
CALL LCMPUT(MPNEW,'IJJS00',NMIX,1,IJJ)
CALL LCMPUT(MPNEW,'IPOS00',NMIX,1,NJJ)
CALL LCMPUT(MPNEW,'NTOT0',NMIX,2,GAR)
IF(IMC.EQ.1) CALL LCMPUT(MPNEW,'NTOT1',NMIX,2,GAR)
IF(NIFISS.GT.0) THEN
PER2(:NMIX,:NIFISS)=0.0
CALL LCMPUT(MPNEW,'NUSIGF',NMIX*NIFISS,2,PER2)
DO 150 IDEL=1,NDEL
WRITE(TEXT12,'(6HNUSIGF,I2.2)') IDEL
PER2(:NMIX,:NIFISS)=0.0
CALL LCMPUT(MPNEW,TEXT12,NMIX*NIFISS,2,PER2)
150 CONTINUE
ENDIF
IF(ILEAKS.EQ.1) THEN
CALL LCMPUT(MPNEW,'DIFF',NMIX,2,GAR)
ELSE IF(ILEAKS.EQ.2) THEN
CALL LCMPUT(MPNEW,'DIFFX',NMIX,2,GAR)
CALL LCMPUT(MPNEW,'DIFFY',NMIX,2,GAR)
CALL LCMPUT(MPNEW,'DIFFZ',NMIX,2,GAR)
ENDIF
DO 160 IED=1,NED
WRITE(TEXT8,'(2A4)') (IHEDIT(I0,IED),I0=1,2)
IF(TEXT8(:5).EQ.'TRANC') GO TO 160
CALL LCMPUT(MPNEW,TEXT8,NMIX,2,GAR)
160 CONTINUE
*----
* END OF LOOP OVER PERTURBED MACROLIBS
*----
170 CONTINUE
180 CONTINUE
190 CONTINUE
DEALLOCATE(PSIGS,PER2,GAR2,PER1,GAR1,PER,GAR,DIFHOM)
DEALLOCATE(IPOS,NJJ,IJJ,IHEDIT)
DEALLOCATE(PALBP,ALBP,SPH)
*----
* SET THE PERTURBED MACROLIB STATE-VECTOR
*----
IF(IMC.EQ.1) NW=1 ! activate NTOT1 flag
ISTATE(:NSTATE)=0
ISTATE(1)=NGRP
ISTATE(2)=NMIX
ISTATE(3)=1
ISTATE(7)=NALBP
ISTATE(9)=ILEAKS
ISTATE(10)=NW
ISTATE(11)=NPERT
CALL LCMPUT(IPNEW,'STATE-VECTOR',NSTATE,1,ISTATE)
IF(IMPX.GT.1) CALL LCMLIB(IPNEW)
*----
* PUT OPTIMIZE OBJECT INFORMATION
*----
CALL LCMPUT(IPOPT,'VAR-VALUE',NPERT,4,VARV)
DEALLOCATE(VARV)
IF(JENTRY(2).EQ.0)THEN
ISTATE(:NSTATE)=0
ISTATE(1)=NGRP
ISTATE(2)=NMIX
ISTATE(3)=1
ISTATE(4)=2+IMC
ISTATE(5)=NGR1
ISTATE(6)=NGR2
ISTATE(7)=1
ISTATE(8)=NMIX
ISTATE(9)=NALBP
IF(IMPX.GT.0) WRITE(6,200) (ISTATE(I),I=1,6)
CALL LCMPUT(IPOPT,'DEL-STATE',NSTATE,1,ISTATE)
ISTATE(:NSTATE)=0
ISTATE(1)=NPERT
ISTATE(2)=0
ISTATE(3)=1
ISTATE(4)=0
ISTATE(5)=0
ISTATE(6)=2
ISTATE(9)=2
ISTATE(10)=0
CALL LCMPUT(IPOPT,'STATE-VECTOR',NSTATE,1,ISTATE)
OPTPRR(:NSTATE)=0.0D0
OPTPRR(1)=1.0D0
OPTPRR(2)=0.1D0
OPTPRR(3)=1.0D-4
OPTPRR(4)=1.0D-4
OPTPRR(5)=1.0D-4
CALL LCMPUT(IPOPT,'OPT-PARAM-R',NSTATE,4,OPTPRR)
ENDIF
RETURN
*
200 FORMAT(/18H DEL-STATE OPTIONS/18H -----------------/
1 7H NGRP ,I8,28H (NUMBER OF ENERGY GROUPS)/
2 7H NMIX ,I8,32H (NUMBER OF MATERIAL MIXTURES)/
3 7H ITYPE ,I8,13H (NOT USED)/
4 7H IDELTA,I8,43H (=3/4/5: USE PN-TYPE/USE SN-TYPE/ALBEDO)/
5 7H NGR1 ,I8,24H (MINIMUM GROUP INDEX)/
6 7H NGR2 ,I8,24H (MAXIMUM GROUP INDEX))
END
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