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|
*DECK APXSX2
SUBROUTINE APXSX2(IPAPX,IPTEMP,NGRP,NL,NMAC,NISO,NMIL,IMIL,ITRANC,
1 RECNAM,NOMMAC,TYPISO,NOMREA,IPERM,CONCES,B2)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Recover the cross sections of an elementary calculation and single
* mixture in the edit structure and copy them in the Apex file.
*
*Copyright:
* Copyright (C) 2025 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
* IPAPX pointer to the Apex file.
* IPTEMP pointer to the edit structure.
* NGRP number of energy groups in the Apex file.
* NL number of Legendre orders.
* NMAC number of macroscopic sets in the Apex file.
* NISO number of particularized isotopes in the Apex file.
* NMIL number of mixtures in the Apex file.
* ITRANC
* IMIL mixture index.
* RECNAM character identification of calculation.
* NOMMAC names of the macroscopic sets.
* TYPISO types of the particularized isotopes.
* NOMREA name of the Apex reaction.
* IPERM pointer to the particularized isotopes in the edit structure.
* CONCES number densities of particularized isotopes.
* B2 buckling.
*
*-----------------------------------------------------------------------
*
USE GANLIB
USE hdf5_wrap
*----
* SUBROUTINE ARGUMENTS
*----
TYPE(C_PTR) IPAPX,IPTEMP,IPERM(NISO)
CHARACTER*80 RECNAM
CHARACTER*4 TYPISO(NISO)
CHARACTER*8 NOMMAC(NMAC)
CHARACTER*12 NOMREA
INTEGER NGRP,NL,NMAC,NISO,IMIL,ITRANC
REAL B2,CONCES(NISO)
*----
* LOCAL VARIABLES
*----
TYPE(C_PTR) JPEDIT,KPEDIT
INTEGER RANK,TYPE,NBYTE,DIMSR(5)
CHARACTER RECNAM2*80,CM*2,TEXT12*12
*----
* ALLOCATABLE ARRAYS
*----
INTEGER, ALLOCATABLE, DIMENSION(:) :: JSO,ITYPR,IPOS,NJJ,IJJ
REAL, ALLOCATABLE, DIMENSION(:) :: WORK1D,WO1D
REAL, ALLOCATABLE, DIMENSION(:,:) :: WORK2D,WP2D,WF2D,WO2D
REAL, ALLOCATABLE, DIMENSION(:,:,:) :: WORK3D,WP3D,WF3D,WO3D
REAL, ALLOCATABLE, DIMENSION(:,:,:,:) :: WP4D,WF4D,WO4D
*----
* FIND NISOP, NISOF AND NISOO
*----
NISOF=0
NISOP=0
NISOO=0
IF(NISO.EQ.0) GO TO 10
ALLOCATE(JSO(NISO))
DO ISO=1,NISO
IF(TYPISO(ISO).EQ.'FISS') THEN
NISOF=NISOF+1
JSO(ISO)=NISOF
ELSE IF(TYPISO(ISO).EQ.'F.P.') THEN
NISOP=NISOP+1
JSO(ISO)=NISOP
ELSE IF(TYPISO(ISO).EQ.'OTHE') THEN
NISOO=NISOO+1
JSO(ISO)=NISOO
ENDIF
ENDDO
IF(NISOF.GT.0) THEN
CALL hdf5_create_group(IPAPX,TRIM(RECNAM)//"mic/fiss/")
ENDIF
IF(NISOP.GT.0) THEN
CALL hdf5_create_group(IPAPX,TRIM(RECNAM)//"mic/f.p. /")
ENDIF
IF(NISOO.GT.0) THEN
CALL hdf5_create_group(IPAPX,TRIM(RECNAM)//"mic/othe/")
ENDIF
*----
* RECOVER DIFF AND SCAT OF PARTICULARIZED ISOTOPES
*----
IF((NOMREA.EQ.'DIFF').OR.(NOMREA.EQ.'SCAT')) THEN
ALLOCATE(WF3D(NGRP,NL,NISOF),WP3D(NGRP,NL,NISOP),
1 WO3D(NGRP,NL,NISOO),WF4D(NGRP,NGRP,NL,NISOF),
2 WP4D(NGRP,NGRP,NL,NISOP),WO4D(NGRP,NGRP,NL,NISOO))
WF3D(:NGRP,:NL,:NISOF)=0.0
WP3D(:NGRP,:NL,:NISOP)=0.0
WO3D(:NGRP,:NL,:NISOO)=0.0
WF4D(:NGRP,:NGRP,:NL,:NISOF)=0.0
WP4D(:NGRP,:NGRP,:NL,:NISOP)=0.0
WO4D(:NGRP,:NGRP,:NL,:NISOO)=0.0
DO ISO=1,NISO
IF(.NOT.C_ASSOCIATED(IPERM(ISO))) CYCLE
DO IL=1,NL
WRITE(CM,'(I2.2)') IL-1
CALL LCMLEN(IPERM(ISO),'SCAT'//CM,ILONG,ITYLCM)
IF(ILONG.EQ.0) CYCLE
FACT=2.0*REAL(IL)-1.0
ALLOCATE(WORK2D(NGRP,NL),WORK3D(NGRP,NGRP,NL),ITYPR(NL))
CALL XDRLGS(IPERM(ISO),-1,0,0,NL-1,1,NGRP,WORK2D,WORK3D,
1 ITYPR)
IF(TYPISO(ISO).EQ.'FISS') THEN
WF3D(:,:,JSO(ISO))=WORK2D(:,:)
WF4D(:,:,:,JSO(ISO))=WORK3D(:,:,:)*FACT
ELSE IF(TYPISO(ISO).EQ.'F.P.') THEN
WP3D(:,:,JSO(ISO))=WORK2D(:,:)
WP4D(:,:,:,JSO(ISO))=WORK3D(:,:,:)*FACT
ELSE IF(TYPISO(ISO).EQ.'OTHE') THEN
WO3D(:,:,JSO(ISO))=WORK2D(:,:)
WO4D(:,:,:,JSO(ISO))=WORK3D(:,:,:)*FACT
ENDIF
DEALLOCATE(ITYPR,WORK3D,WORK2D)
ENDDO
ENDDO
! remove (n,2n) from 'DIFF'
DO ISO=1,NISO
IF(.NOT.C_ASSOCIATED(IPERM(ISO))) CYCLE
CALL LCMLEN(IPERM(ISO),'N2N',ILONG,ITYLCM)
IF(ILONG.GT.0) THEN
ALLOCATE(WORK1D(NGRP))
CALL LCMGET(IPERM(ISO),'N2N',WORK1D)
IF(TYPISO(ISO).EQ.'FISS') THEN
WF3D(:,1,JSO(ISO))=WF3D(:,1,JSO(ISO))-WORK1D(:)
ELSE IF(TYPISO(ISO).EQ.'F.P.') THEN
WP3D(:,1,JSO(ISO))=WF3D(:,1,JSO(ISO))-WORK1D(:)
ELSE IF(TYPISO(ISO).EQ.'OTHE') THEN
WO3D(:,1,JSO(ISO))=WF3D(:,1,JSO(ISO))-WORK1D(:)
ENDIF
DEALLOCATE(WORK1D)
ENDIF
ENDDO
! remove (n,3n) from 'DIFF'
DO ISO=1,NISO
IF(.NOT.C_ASSOCIATED(IPERM(ISO))) CYCLE
CALL LCMLEN(IPERM(ISO),'N3N',ILONG,ITYLCM)
IF(ILONG.GT.0) THEN
ALLOCATE(WORK1D(NGRP))
CALL LCMGET(IPERM(ISO),'N3N',WORK1D)
IF(TYPISO(ISO).EQ.'FISS') THEN
WF3D(:,1,JSO(ISO))=WF3D(:,1,JSO(ISO))-2.0*WORK1D(:)
ELSE IF(TYPISO(ISO).EQ.'F.P.') THEN
WP3D(:,1,JSO(ISO))=WF3D(:,1,JSO(ISO))-2.0*WORK1D(:)
ELSE IF(TYPISO(ISO).EQ.'OTHE') THEN
WO3D(:,1,JSO(ISO))=WF3D(:,1,JSO(ISO))-2.0*WORK1D(:)
ENDIF
DEALLOCATE(WORK1D)
ENDIF
ENDDO
IF(NOMREA.EQ.'DIFF') THEN
IF(NISOF.GT.0) THEN
WRITE(RECNAM2,'(A,9Hmic/fiss/,A)') TRIM(RECNAM),'DIFF'
CALL hdf5_write_data(IPAPX,RECNAM2,WF3D)
ENDIF
IF(NISOP.GT.0) THEN
WRITE(RECNAM2,'(A,10Hmic/f.p. /,A)') TRIM(RECNAM),'DIFF'
CALL hdf5_write_data(IPAPX,RECNAM2,WP3D)
ENDIF
IF(NISOO.GT.0) THEN
WRITE(RECNAM2,'(A,9Hmic/othe/,A)') TRIM(RECNAM),'DIFF'
CALL hdf5_write_data(IPAPX,RECNAM2,WO3D)
ENDIF
ELSE IF(NOMREA.EQ.'SCAT') THEN
IF(NISOF.GT.0) THEN
WRITE(RECNAM2,'(A,9Hmic/fiss/,A)') TRIM(RECNAM),'SCAT'
CALL hdf5_write_data(IPAPX,RECNAM2,WF4D)
ENDIF
IF(NISOP.GT.0) THEN
WRITE(RECNAM2,'(A,10Hmic/f.p. /,A)') TRIM(RECNAM),'SCAT'
CALL hdf5_write_data(IPAPX,RECNAM2,WP4D)
ENDIF
IF(NISOO.GT.0) THEN
WRITE(RECNAM2,'(A,9Hmic/othe/,A)') TRIM(RECNAM),'SCAT'
CALL hdf5_write_data(IPAPX,RECNAM2,WO4D)
ENDIF
ENDIF
DEALLOCATE(WO4D,WP4D,WF4D,WO3D,WP3D,WF3D)
GO TO 10
ENDIF
*----
* RECOVER OTHER REACTIONS OF PARTICULARIZED ISOTOPES
*----
ALLOCATE(WF2D(NGRP,NISOF),WP2D(NGRP,NISOP),WO2D(NGRP,NISOO))
WF2D(:NGRP,:NISOF)=0.0
WP2D(:NGRP,:NISOP)=0.0
WO2D(:NGRP,:NISOO)=0.0
IF(NOMREA.EQ.'ABSO') THEN
DO ISO=1,NISO
IF(.NOT.C_ASSOCIATED(IPERM(ISO))) CYCLE
CALL LCMLEN(IPERM(ISO),'NTOT0',ILONG,ITYLCM)
IF(ILONG.EQ.0) CYCLE
ALLOCATE(WORK1D(NGRP))
CALL LCMGET(IPERM(ISO),'NTOT0',WORK1D)
IF(TYPISO(ISO).EQ.'FISS') THEN
WF2D(:,JSO(ISO))=WORK1D(:)
ELSE IF(TYPISO(ISO).EQ.'F.P.') THEN
WP2D(:,JSO(ISO))=WORK1D(:)
ELSE IF(TYPISO(ISO).EQ.'OTHE') THEN
WO2D(:,JSO(ISO))=WORK1D(:)
ENDIF
DEALLOCATE(WORK1D)
ENDDO
! remove 'DIFF' from 'TOTA'
DO ISO=1,NISO
IF(.NOT.C_ASSOCIATED(IPERM(ISO))) CYCLE
IF(TYPISO(ISO).EQ.'FISS') THEN
WRITE(RECNAM2,'(A,9Hmic/fiss/,A)') TRIM(RECNAM),'DIFF'
CALL hdf5_info(IPAPX,RECNAM2,RANK,TYPE,NBYTE,DIMSR)
IF(TYPE.EQ.99) CALL XABORT('APXSX2: MISSING DIFF INFO(1).')
CALL hdf5_read_data(IPAPX,RECNAM2,WF3D)
WF2D(:,JSO(ISO))=WF2D(:,JSO(ISO))-WF3D(:,1,JSO(ISO))
DEALLOCATE(WF3D)
ELSE IF(TYPISO(ISO).EQ.'F.P.') THEN
WRITE(RECNAM2,'(A,10Hmic/f.p. /,A)') TRIM(RECNAM),'DIFF'
CALL hdf5_info(IPAPX,RECNAM2,RANK,TYPE,NBYTE,DIMSR)
IF(TYPE.EQ.99) CALL XABORT('APXSX2: MISSING DIFF INFO(2).')
CALL hdf5_read_data(IPAPX,RECNAM2,WP3D)
WP2D(:,JSO(ISO))=WP2D(:,JSO(ISO))-WP3D(:,1,JSO(ISO))
DEALLOCATE(WP3D)
ELSE IF(TYPISO(ISO).EQ.'OTHE') THEN
WRITE(RECNAM2,'(A,9Hmic/othe/,A)') TRIM(RECNAM),'DIFF'
CALL hdf5_info(IPAPX,RECNAM2,RANK,TYPE,NBYTE,DIMSR)
IF(TYPE.EQ.99) CALL XABORT('APXSX2: MISSING DIFF INFO(3).')
CALL hdf5_read_data(IPAPX,RECNAM2,WO3D)
WO2D(:,JSO(ISO))=WO2D(:,JSO(ISO))-WO3D(:,1,JSO(ISO))
DEALLOCATE(WO3D)
ENDIF
ENDDO
ELSE
IF(NOMREA.EQ.'TOTA') THEN
TEXT12='NTOT0'
ELSE IF(NOMREA.EQ.'TOT1') THEN
TEXT12='NTOT1'
ELSE IF(NOMREA.EQ.'NUFI') THEN
TEXT12='NUSIGF'
ELSE IF(NOMREA.EQ.'FISS') THEN
TEXT12='NFTOT'
ELSE IF(NOMREA.EQ.'ENER') THEN
TEXT12='H-FACTOR'
ELSE IF((NOMREA.EQ.'CORR').AND.(ITRANC.EQ.1).AND.(NL.GE.2)) THEN
TEXT12='SIGS01'
ELSE IF((NOMREA.EQ.'CORR').AND.(ITRANC.EQ.2)) THEN
TEXT12='TRANC'
ELSE
TEXT12=NOMREA
ENDIF
DO ISO=1,NISO
IF(.NOT.C_ASSOCIATED(IPERM(ISO))) CYCLE
CALL LCMLEN(IPERM(ISO),TEXT12,ILONG,ITYLCM)
IF(ILONG.EQ.0) CYCLE
ALLOCATE(WORK1D(NGRP))
CALL LCMGET(IPERM(ISO),TEXT12,WORK1D)
IF(TYPISO(ISO).EQ.'FISS') THEN
WF2D(:,JSO(ISO))=WORK1D(:)
ELSE IF(TYPISO(ISO).EQ.'F.P.') THEN
WP2D(:,JSO(ISO))=WORK1D(:)
ELSE IF(TYPISO(ISO).EQ.'OTHE') THEN
WO2D(:,JSO(ISO))=WORK1D(:)
ENDIF
DEALLOCATE(WORK1D)
ENDDO
IF(NOMREA.EQ.'ENER') THEN
WF2D(:,:)=WF2D(:,:)*1.0E-6
WP2D(:,:)=WP2D(:,:)*1.0E-6
WO2D(:,:)=WO2D(:,:)*1.0E-6
ELSE IF(NOMREA.EQ.'LEAK') THEN
WF2D(:,:)=WF2D(:,:)*B2
WP2D(:,:)=WP2D(:,:)*B2
WO2D(:,:)=WO2D(:,:)*B2
ENDIF
ENDIF
IF(NISOF.GT.0) THEN
WRITE(RECNAM2,'(A,9Hmic/fiss/,A)') TRIM(RECNAM),TRIM(NOMREA)
CALL hdf5_write_data(IPAPX,RECNAM2,WF2D)
ENDIF
IF(NISOP.GT.0) THEN
WRITE(RECNAM2,'(A,10Hmic/f.p. /,A)') TRIM(RECNAM),TRIM(NOMREA)
CALL hdf5_write_data(IPAPX,RECNAM2,WP2D)
ENDIF
IF(NISOO.GT.0) THEN
WRITE(RECNAM2,'(A,9Hmic/othe/,A)') TRIM(RECNAM),TRIM(NOMREA)
CALL hdf5_write_data(IPAPX,RECNAM2,WO2D)
ENDIF
DEALLOCATE(WO2D,WP2D,WF2D)
*----
* RECOVER DIFF AND SCAT OF MACROSCOPIC SETS
*----
10 CALL LCMSIX(IPTEMP,'MACROLIB',1)
JPEDIT=LCMGID(IPTEMP,'GROUP')
IF(NMAC.GT.0) THEN
CALL hdf5_create_group(IPAPX,TRIM(RECNAM)//"mac/TOTAL/")
ENDIF
DO IMAC=1,NMAC
IF(NOMMAC(IMAC).EQ.'TOTAL') THEN
IF((NOMREA.EQ.'DIFF').OR.(NOMREA.EQ.'SCAT')) THEN
ALLOCATE(WO2D(NGRP,NL),WO3D(NGRP,NGRP,NL))
WO2D(:NGRP,:NL)=0.0
WO3D(:NGRP,:NGRP,:NL)=0.0
DO IGR=1,NGRP
KPEDIT=LCMGIL(JPEDIT,IGR)
ALLOCATE(IJJ(NMIL),NJJ(NMIL),IPOS(NMIL),WORK1D(NGRP*NMIL))
DO IL=1,NL
WRITE(CM,'(I2.2)') IL-1
CALL LCMLEN(KPEDIT,'SCAT'//CM,ILONG,ITYLCM)
IF(ILONG.EQ.0) CYCLE
CALL LCMGET(KPEDIT,'IJJS'//CM,IJJ)
CALL LCMGET(KPEDIT,'NJJS'//CM,NJJ)
CALL LCMGET(KPEDIT,'IPOS'//CM,IPOS)
CALL LCMGET(KPEDIT,'SCAT'//CM,WORK1D)
IPO=IPOS(IMIL)
J2=IJJ(IMIL)
J1=IJJ(IMIL)-NJJ(IMIL)+1
DO JGR=J2,J1,-1
WO2D(JGR,IL)=WO2D(JGR,IL)+WORK1D(IPO)
WO3D(IGR,JGR,IL)=WORK1D(IPO)*REAL(2*IL-1)
IPO=IPO+1
ENDDO
ENDDO ! IL
DEALLOCATE(WORK1D,IPOS,NJJ,IJJ)
! remove (n,2n) from 'DIFF'
CALL LCMLEN(KPEDIT,'N2N',ILONG,ITYLCM)
IF(ILONG.GT.0) THEN
ALLOCATE(WORK1D(NMIL))
CALL LCMGET(KPEDIT,'N2N',WORK1D)
WO2D(IGR,1)=WO2D(IGR,1)-WORK1D(IMIL)
DEALLOCATE(WORK1D)
ENDIF
! remove (n,2n) from 'DIFF'
CALL LCMLEN(KPEDIT,'N2N',ILONG,ITYLCM)
IF(ILONG.GT.0) THEN
ALLOCATE(WORK1D(NMIL))
CALL LCMGET(KPEDIT,'N2N',WORK1D)
WO2D(IGR,1)=WO2D(IGR,1)-2.0*WORK1D(IMIL)
DEALLOCATE(WORK1D)
ENDIF
ENDDO ! IGR
IF(NOMREA.EQ.'DIFF') THEN
WRITE(RECNAM2,'(A,10Hmac/TOTAL/,A)') TRIM(RECNAM),'DIFF'
CALL hdf5_write_data(IPAPX,RECNAM2,WO2D)
ELSE IF(NOMREA.EQ.'SCAT') THEN
WRITE(RECNAM2,'(A,10Hmac/TOTAL/,A)') TRIM(RECNAM),'SCAT'
CALL hdf5_write_data(IPAPX,RECNAM2,WO3D)
ENDIF
DEALLOCATE(WO3D,WO2D)
*----
* RECOVER OTHER REACTIONS OF MACROSCOPIC SETS
*----
ELSE IF(NOMREA.EQ.'ABSO') THEN
ALLOCATE(WO1D(NGRP))
WO1D(:NGRP)=0.0
DO IGR=1,NGRP
KPEDIT=LCMGIL(JPEDIT,IGR)
CALL LCMLEN(KPEDIT,'NTOT0',ILONG,ITYLCM)
IF(ILONG.EQ.0) CYCLE
ALLOCATE(WORK1D(NMIL))
CALL LCMGET(KPEDIT,'NTOT0',WORK1D)
WO1D(IGR)=WORK1D(IMIL)
DEALLOCATE(WORK1D)
ENDDO
! remove 'DIFF' from 'TOTA'
WRITE(RECNAM2,'(A,10Hmac/TOTAL/,A)') TRIM(RECNAM),'DIFF'
CALL hdf5_info(IPAPX,RECNAM2,RANK,TYPE,NBYTE,DIMSR)
IF(TYPE.EQ.99) CALL XABORT('APXSX2: MISSING DIFF INFO(4).')
CALL hdf5_read_data(IPAPX,RECNAM2,WO2D)
WO1D(:)=WO1D(:)-WO2D(:,1)
DEALLOCATE(WO2D)
WRITE(RECNAM2,'(A,10Hmac/TOTAL/,A)') TRIM(RECNAM),'ABSO'
CALL hdf5_write_data(IPAPX,RECNAM2,WO1D)
DEALLOCATE(WO1D)
ELSE
IF(NOMREA.EQ.'TOTA') THEN
TEXT12='NTOT0'
ELSE IF(NOMREA.EQ.'TOT1') THEN
TEXT12='NTOT1'
ELSE IF(NOMREA.EQ.'NUFI') THEN
TEXT12='NUSIGF'
ELSE IF(NOMREA.EQ.'FISS') THEN
TEXT12='NFTOT'
ELSE IF(NOMREA.EQ.'ENER') THEN
TEXT12='H-FACTOR'
ELSE IF(NOMREA.EQ.'LEAK') THEN
TEXT12='DIFF'
ELSE
TEXT12=NOMREA
ENDIF
ALLOCATE(WO1D(NGRP))
WO1D(:NGRP)=0.0
DO IGR=1,NGRP
KPEDIT=LCMGIL(JPEDIT,IGR)
CALL LCMLEN(KPEDIT,TEXT12,ILONG,ITYLCM)
IF(ILONG.EQ.0) CYCLE
ALLOCATE(WORK1D(NMIL))
CALL LCMGET(KPEDIT,TEXT12,WORK1D)
WO1D(IGR)=WORK1D(IMIL)
DEALLOCATE(WORK1D)
ENDDO
IF(NOMREA.EQ.'ENER') THEN
WO1D(:)=WO1D(:)*1.0E-6
ELSE IF(NOMREA.EQ.'LEAK') THEN
WO1D(:)=WO1D(:)*B2
ENDIF
WRITE(RECNAM2,'(A,10Hmac/TOTAL/,A)') TRIM(RECNAM),
1 TRIM(NOMREA)
CALL hdf5_write_data(IPAPX,RECNAM2,WO1D)
DEALLOCATE(WO1D)
ENDIF
ELSE IF(NOMMAC(IMAC).EQ.'RESIDUAL') THEN
! substract particularized contributions
CALL hdf5_create_group(IPAPX,TRIM(RECNAM)//"mac/RESIDUAL/")
IF(NOMREA.EQ.'DIFF') THEN
WRITE(RECNAM2,'(A,10Hmac/TOTAL/,A)') TRIM(RECNAM),'DIFF'
CALL hdf5_read_data(IPAPX,RECNAM2,WORK2D)
IF(NISOF.GT.0) THEN
WRITE(RECNAM2,'(A,9Hmic/fiss/,A)') TRIM(RECNAM),'DIFF'
CALL hdf5_read_data(IPAPX,RECNAM2,WF3D)
ENDIF
IF(NISOP.GT.0) THEN
WRITE(RECNAM2,'(A,10Hmic/f.p. /,A)') TRIM(RECNAM),'DIFF'
CALL hdf5_read_data(IPAPX,RECNAM2,WP3D)
ENDIF
IF(NISOO.GT.0) THEN
WRITE(RECNAM2,'(A,9Hmic/othe/,A)') TRIM(RECNAM),'DIFF'
CALL hdf5_read_data(IPAPX,RECNAM2,WO3D)
ENDIF
DO ISO=1,NISO
CONC=CONCES(ISO)
IF(TYPISO(ISO).EQ.'FISS') THEN
WORK2D(:,:)=WORK2D(:,:)-CONC*WF3D(:,:,JSO(ISO))
ELSE IF(TYPISO(ISO).EQ.'F.P.') THEN
WORK2D(:,:)=WORK2D(:,:)-CONC*WP3D(:,:,JSO(ISO))
ELSE IF(TYPISO(ISO).EQ.'OTHE') THEN
WORK2D(:,:)=WORK2D(:,:)-CONC*WO3D(:,:,JSO(ISO))
ENDIF
ENDDO
IF(NISOF.GT.0) DEALLOCATE(WF3D)
IF(NISOP.GT.0) DEALLOCATE(WP3D)
IF(NISOO.GT.0) DEALLOCATE(WO3D)
WRITE(RECNAM2,'(A,13Hmac/RESIDUAL/,A)') TRIM(RECNAM),'DIFF'
CALL hdf5_write_data(IPAPX,RECNAM2,WORK2D)
DEALLOCATE(WORK2D)
ELSE IF(NOMREA.EQ.'SCAT') THEN
WRITE(RECNAM2,'(A,10Hmac/TOTAL/,A)') TRIM(RECNAM),'SCAT'
CALL hdf5_read_data(IPAPX,RECNAM2,WORK3D)
IF(NISOF.GT.0) THEN
WRITE(RECNAM2,'(A,9Hmic/fiss/,A)') TRIM(RECNAM),'SCAT'
CALL hdf5_read_data(IPAPX,RECNAM2,WF4D)
ENDIF
IF(NISOP.GT.0) THEN
WRITE(RECNAM2,'(A,10Hmic/f.p. /,A)') TRIM(RECNAM),'SCAT'
CALL hdf5_read_data(IPAPX,RECNAM2,WP4D)
ENDIF
IF(NISOO.GT.0) THEN
WRITE(RECNAM2,'(A,9Hmic/othe/,A)') TRIM(RECNAM),'SCAT'
CALL hdf5_read_data(IPAPX,RECNAM2,WO4D)
ENDIF
DO ISO=1,NISO
CONC=CONCES(ISO)
IF(TYPISO(ISO).EQ.'FISS') THEN
WORK3D(:,:,:)=WORK3D(:,:,:)-CONC*WF4D(:,:,:,JSO(ISO))
ELSE IF(TYPISO(ISO).EQ.'F.P.') THEN
WORK3D(:,:,:)=WORK3D(:,:,:)-CONC*WP4D(:,:,:,JSO(ISO))
ELSE IF(TYPISO(ISO).EQ.'OTHE') THEN
WORK3D(:,:,:)=WORK3D(:,:,:)-CONC*WO4D(:,:,:,JSO(ISO))
ENDIF
ENDDO
IF(NISOF.GT.0) DEALLOCATE(WF4D)
IF(NISOP.GT.0) DEALLOCATE(WP4D)
IF(NISOO.GT.0) DEALLOCATE(WO4D)
WRITE(RECNAM2,'(A,13Hmac/RESIDUAL/,A)') TRIM(RECNAM),'SCAT'
CALL hdf5_write_data(IPAPX,RECNAM2,WORK3D)
DEALLOCATE(WORK3D)
ELSE
WRITE(RECNAM2,'(A,10Hmac/TOTAL/,A)') TRIM(RECNAM),
1 TRIM(NOMREA)
CALL hdf5_read_data(IPAPX,RECNAM2,WORK1D)
IF(NISOF.GT.0) THEN
WRITE(RECNAM2,'(A,9Hmic/fiss/,A)') TRIM(RECNAM),
1 TRIM(NOMREA)
CALL hdf5_read_data(IPAPX,RECNAM2,WF2D)
ENDIF
IF(NISOP.GT.0) THEN
WRITE(RECNAM2,'(A,10Hmic/f.p. /,A)') TRIM(RECNAM),
1 TRIM(NOMREA)
CALL hdf5_read_data(IPAPX,RECNAM2,WP2D)
ENDIF
IF(NISOO.GT.0) THEN
WRITE(RECNAM2,'(A,9Hmic/othe/,A)') TRIM(RECNAM),
1 TRIM(NOMREA)
CALL hdf5_read_data(IPAPX,RECNAM2,WO2D)
ENDIF
DO ISO=1,NISO
CONC=CONCES(ISO)
IF(TYPISO(ISO).EQ.'FISS') THEN
WORK1D(:)=WORK1D(:)-CONC*WF2D(:,JSO(ISO))
ELSE IF(TYPISO(ISO).EQ.'F.P.') THEN
WORK1D(:)=WORK1D(:)-CONC*WP2D(:,JSO(ISO))
ELSE IF(TYPISO(ISO).EQ.'OTHE') THEN
WORK1D(:)=WORK1D(:)-CONC*WO2D(:,JSO(ISO))
ENDIF
ENDDO
IF(NISOF.GT.0) DEALLOCATE(WF2D)
IF(NISOP.GT.0) DEALLOCATE(WP2D)
IF(NISOO.GT.0) DEALLOCATE(WO2D)
WRITE(RECNAM2,'(A,13Hmac/RESIDUAL/,A)') TRIM(RECNAM),
1 TRIM(NOMREA)
CALL hdf5_write_data(IPAPX,RECNAM2,WORK1D)
DEALLOCATE(WORK1D)
ENDIF
ENDIF
ENDDO
CALL LCMSIX(IPTEMP,' ',2)
IF(NISO.GT.0) DEALLOCATE(JSO)
RETURN
END
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