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|
*DECK LIBNRG
SUBROUTINE LIBNRG(IPLIB,NAMLBT,NAMFIL,NGROUP,NGT)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Test for energy mesh compatibility.
*
*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): G. Marleau
*
*Parameters: input/output
* IPLIB pointer to the internal library.
* NAMLBT library type.
* NAMFIL library file name.
* NGROUP total number of groups.
* NGT number of groups to test.
*
*-----------------------------------------------------------------------
*
USE GANLIB
USE LIBEEDR
#if defined(HDF5_LIB)
USE hdf5_wrap
#endif /* defined(HDF5_LIB) */
*----
* SUBROUTINE ARGUMENTS
*----
TYPE(C_PTR) IPLIB
INTEGER NGROUP,NGT
CHARACTER NAMLBT*8,NAMFIL*(*)
*----
* LOCAL VARIABLES
*----
PARAMETER (IOUT=6,LRIND=256,IACTO=2,IACTC=1,ILIBDA=4,
> NMTYP=8)
CHARACTER HSMG*131,HMTYP(NMTYP)*1,HFORMAT*132
#if defined(HDF5_LIB)
CHARACTER CFILNA1*64
#endif /* defined(HDF5_LIB) */
*----
* LIBRARY PARAMETERS
*----
PARAMETER (MAXISO=246,NCT=10,LPZ=9,LMASTB=MAXISO+9,
> LMASIN=LMASTB-4,LGENTB=6,LGENIN=LGENTB,
> MAXA=10000,MULT=2)
TYPE(C_PTR) IPDRL
CHARACTER HPRT*6,NAMLCM*12,NAMMY*12
LOGICAL EMPTY,LCM,LEXIST
INTEGER ILONG,MASTER(LMASTB),GENINX(LGENTB),NPZ(LPZ),
> IA(MAXA)
REAL RA(MAXA)
DOUBLE PRECISION DA(MAXA/2)
EQUIVALENCE (RA(1),IA(1),DA(1))
*----
* ALLOCATABLE ARRAYS
*----
REAL, POINTER, DIMENSION(:) :: ENERG
REAL, ALLOCATABLE, DIMENSION(:) :: UUU,TEMPE,EIER
TYPE(C_PTR) IPENER
*----
* DATA STATEMENTS
*----
SAVE HMTYP
DATA HMTYP /'N','n','G','g','B','b','C','c'/
*
NGRI=0
ILIBIN=2
*----
* READ LIBRARY GROUP STRUCTURE
*----
IF((NAMLBT.EQ.'DRAGON').OR.(NAMLBT.EQ.'MICROLIB')) THEN
*---
* DRAGON LIBRARY
*----
CALL LCMINF(IPLIB,NAMLCM,NAMMY,EMPTY,ILONG,LCM)
IF(NAMFIL.EQ.NAMLCM) THEN
IPDRL=IPLIB
ELSE
INQUIRE(FILE=TRIM(NAMFIL),EXIST=LEXIST)
IF(.NOT.LEXIST) THEN
WRITE(HSMG,'(17HLIBNRG: XSM FILE ,A,14H DOESNT EXIST.)')
> TRIM(NAMFIL)
CALL XABORT(HSMG)
ENDIF
CALL LCMOP(IPDRL,NAMFIL,2,2,0)
ENDIF
CALL LCMLEN(IPDRL,'ENERGY',LENGT,ITYLCM)
IF(LENGT.EQ.0) THEN
CALL LCMLIB(IPDRL)
CALL XABORT('LIBNRG: NO GROUP STRUCTURE AVAILABLE')
ENDIF
NGRI=LENGT-1
ALLOCATE(ENERG(LENGT))
CALL LCMGET(IPDRL,'ENERGY',ENERG)
IF(NAMFIL.NE.NAMLCM) CALL LCMCL(IPDRL,1)
ELSE IF(NAMLBT.EQ.'WIMSAECL') THEN
*---
* WIMS-AECL LIBRARY
*----
IUNIT=KDROPN(NAMFIL,IACTO,ILIBDA,LRIND)
IF(IUNIT.LE.0) THEN
HFORMAT='(27HLIBNRG: WIMS-AECL LIBRARY '',A16,8H'' CANNOT'//
> '30H BE OPENED BY KDROPN (ERRCODE=,I2,2H).)'
WRITE(HSMG,HFORMAT) NAMFIL,IUNIT
CALL XABORT(HSMG)
ENDIF
CALL OPNIND(IUNIT,MASTER,LMASTB)
CALL REDIND(IUNIT,MASTER,LMASIN,GENINX,LGENTB,1)
CALL REDIND(IUNIT,GENINX,LGENIN,NPZ,LPZ,1)
NGRI=NPZ(2)
ALLOCATE(ENERG(NGRI+1))
CALL REDIND(IUNIT,GENINX,LGENIN,ENERG,NGRI+1,4)
CALL CLSIND(IUNIT)
ELSE IF((NAMLBT.EQ.'WIMSD4').OR.(NAMLBT.EQ.'WIMSE')) THEN
*---
* WIMSD4 OR WIMSE LIBRARY
*----
IUNIT=KDROPN(NAMFIL,IACTO,ILIBIN,LRIND)
IF(IUNIT.LE.0) THEN
HFORMAT='(22HLIBNRG: WIMS LIBRARY '',A16,9H'' CANNOT '//
> '29HBE OPENED BY KDROPN (ERRCODE=,I2,2H).)'
WRITE(HSMG,HFORMAT) NAMFIL,IUNIT
CALL XABORT(HSMG)
ENDIF
READ(IUNIT) (NPZ(II),II=1,LPZ-1)
NGRI=NPZ(2)
READ(IUNIT) ITEMP
ALLOCATE(ENERG(NGRI+1))
READ(IUNIT) (ENERG(J),J=1,NGRI+1)
IERR=KDRCLS(IUNIT,IACTC)
IF(IERR.LT.0) THEN
HFORMAT='(22HLIBNRG: WIMS LIBRARY '',A16,9H'' CANNOT '//
> '29HBE CLOSED BY KDRCLS (ERRCODE=,I2,2H).)'
WRITE(HSMG,HFORMAT) NAMFIL,IERR
CALL XABORT(HSMG)
ENDIF
ELSE IF(NAMLBT.EQ.'APLIB1') THEN
*---
* APOLLO-1 LIBRARY
*----
IUNIT=KDROPN(NAMFIL,IACTO,ILIBIN,LRIND)
IF(IUNIT.LE.0) THEN
HFORMAT='(26HLIBNRG: APOLLO-1 LIBRARY '',A16,9H'' CANNOT '//
> '29HBE OPENED BY KDROPN (ERRCODE=,I2,2H).)'
WRITE(HSMG,HFORMAT) NAMFIL,IUNIT
CALL XABORT(HSMG)
ENDIF
REWIND(IUNIT)
100 CONTINUE
READ(IUNIT) INDLOR,NR,NIA,(IA(I),I=1,NIA)
IF(NIA.GT.MAXA)
> CALL XABORT('LIBNRG: DIMENSION MAXA =1000 TOO SMALL')
IF(INDLOR.EQ.9999)
> CALL XABORT('LIBNRG: NO GROUP STRUCTURE AVAILABLE')
NGRI=IA(1)
IF(IA(3).EQ.0) THEN
DO 110 K=1,NR
READ(IUNIT)
110 CONTINUE
GO TO 100
ELSE
ALLOCATE(ENERG(NGRI+1),UUU(NGRI))
READ(IUNIT) E0,DEL,(UUU(I),I=1,NGRI)
E0=1.0E+6*E0
ENERG=E0
DO 120 IG=1,NGRI
ENERG(IG+1)=E0*EXP(-UUU(IG))
120 CONTINUE
DEALLOCATE(UUU)
ENDIF
IERR=KDRCLS(IUNIT,IACTC)
IF(IERR.LT.0) THEN
HFORMAT='(26HLIBNRG: APOLLO-1 LIBRARY '',A16,9H'' CANNOT '//
> '29HBE CLOSED BY KDRCLS (ERRCODE=,I2,2H).)'
WRITE(HSMG,HFORMAT) NAMFIL,IERR
CALL XABORT(HSMG)
ENDIF
ELSE IF(NAMLBT.EQ.'APLIB2') THEN
*---
* APOLLO-2 LIBRARY
*----
CALL LIBA2G(NAMFIL,NGRI,IPENER)
CALL C_F_POINTER(IPENER,ENERG,(/ NGRI+1 /))
ELSE IF(NAMLBT.EQ.'APXSM') THEN
*---
* APOLLO-XSM LIBRARY
*----
CALL LIBXS3(NAMFIL,NGRI,IPENER)
CALL C_F_POINTER(IPENER,ENERG,(/ NGRI+1 /))
ELSE IF(NAMLBT.EQ.'APLIB3') THEN
*---
* APOLLO-3 LIBRARY
*----
#if defined(HDF5_LIB)
IND=INDEX(NAMFIL, ":")
IF(IND.EQ.0) THEN
CFILNA1=NAMFIL
ELSE
CFILNA1=NAMFIL(:IND-1)
ENDIF
CALL hdf5_open_file(CFILNA1, IPDRL, .TRUE.)
CALL hdf5_read_data(IPDRL, "EnergyMesh/nbGr", NGRI)
ALLOCATE(ENERG(NGRI+1))
CALL hdf5_read_data(IPDRL, "EnergyMesh/EnMshInMeV", EIER)
ENERG(:NGRI+1)=EIER(:NGRI+1)*1.E6
DEALLOCATE(EIER)
CALL hdf5_close_file(IPDRL)
#else
CALL XABORT('LIBNRG: THE HDF5 API IS NOT AVAILABLE.')
#endif /* defined(HDF5_LIB) */
ELSE IF(NAMLBT.EQ.'MATXS') THEN
*---
* MATXS LIBRARY
*----
IUNIT=KDROPN(NAMFIL,IACTO,ILIBIN,LRIND)
IF(IUNIT.LE.0) THEN
HFORMAT='(23HLIBNRG: MATXS LIBRARY '',A16,11H'' CANNOT BE'//
> '27H OPENED BY KDROPN (ERRCODE=,I2,2H).)'
WRITE(HSMG,HFORMAT) NAMFIL,IUNIT
CALL XABORT(HSMG)
ENDIF
NWDS=3
IREC=2
CALL XDREED(IUNIT,IREC,RA,NWDS)
NPART=IA(1)
NTYPE=IA(2)
IREC=4
NWDS=(NPART+NTYPE)*MULT+6*NTYPE+NPART
IF(NWDS.GT.MAXA)
> CALL XABORT('LIBNRG: INSUFFICIENT VALUE OF MAXA(1).')
CALL XDREED(IUNIT,IREC,RA,NWDS)
NEX1=(NPART+NTYPE)*MULT+6*NTYPE
DO 180 I=1,NPART
NGX=IA(NEX1+I)
WRITE(HPRT,'(A6)') DA(I)
IREC=IREC+1
IF(HPRT.EQ.'NEUT'.OR.HPRT.EQ.'neut'.OR.
> HPRT.EQ.'N'.OR.HPRT.EQ.'n') THEN
IF(NGRI.EQ.0) THEN
NGRI=NGX
ALLOCATE(ENERG(NGRI+1))
CALL XDREED(IUNIT,IREC,ENERG,NGRI+1)
ELSE
IF(NGX.NE.NGRI)
> CALL XABORT('LIBNRG: INVALID GROUP STRUCTURE.')
ALLOCATE(TEMPE(NGRI+1))
CALL XDREED(IUNIT,IREC,TEMPE,NGRI+1)
DO 170 IG=0,NGRI
IF(TEMPE(IG+1).NE.ENERG(IG+1))
> CALL XABORT('LIBNRG: INVALID GROUP STRUCTURE.')
170 CONTINUE
DEALLOCATE(TEMPE)
ENDIF
ENDIF
180 CONTINUE
CALL XDRCLS(IUNIT)
IERR=KDRCLS(IUNIT,IACTC)
IF(IERR.LT.0) THEN
HFORMAT='(23HLIBNRG: MATXS LIBRARY '',A16,11H'' CANNOT BE'//
> '27H CLOSED BY KDRCLS (ERRCODE=,I2,2H).)'
WRITE(HSMG,HFORMAT) NAMFIL,IERR
CALL XABORT(HSMG)
ENDIF
ELSE IF(NAMLBT.EQ.'MATXS2') THEN
*---
* MATXS2 LIBRARY
*----
IF(NAMFIL(:1).EQ.'_') ILIBIN=3
IUNIT=KDROPN(NAMFIL,IACTO,ILIBIN,LRIND)
IF(IUNIT.LE.0) THEN
HFORMAT='(24HLIBNRG: MATXS2 LIBRARY '',A16,10H'' CANNOT B'//
> '28HE OPENED BY KDROPN (ERRCODE=,I2,2H).)'
WRITE(HSMG,HFORMAT) NAMFIL,IUNIT
CALL XABORT(HSMG)
ENDIF
NWDS=6
IREC=2
IF(ILIBIN.EQ.2) THEN
CALL XDREED(IUNIT,IREC,RA,NWDS)
ELSE IF(ILIBIN.EQ.3) THEN
CALL LIBEED(IUNIT,IREC,RA,NWDS)
ENDIF
NPART=IA(1)
NTYPE=IA(2)
NMAT=IA(4)
IREC=4
NWDS=(NPART+NTYPE+NMAT)*MULT+2*NTYPE+NPART+2*NMAT
IF(NWDS.GT.MAXA)
> CALL XABORT('LIBNRG: INSUFFICIENT VALUE OF MAXA(2).')
NEX1=(NPART+NTYPE+NMAT)*MULT
IF(ILIBIN.EQ.2) THEN
CALL XDREED(IUNIT,IREC,RA,NWDS)
ELSE IF(ILIBIN.EQ.3) THEN
CALL LIBEED(IUNIT,IREC,RA,NWDS)
ENDIF
NGX=IA(NEX1+1) ! use the energy mesh of the first particle
WRITE(HPRT,'(A6)') DA(1) ! name of the first particle
IREC=IREC+1
DO 195 IMTYP=1,NMTYP
IF(HPRT.EQ.HMTYP(IMTYP)) THEN
IF(NGRI.EQ.0) THEN
NGRI=NGX
ALLOCATE(ENERG(NGRI+1))
IF(ILIBIN.EQ.2) THEN
CALL XDREED(IUNIT,IREC,ENERG,NGRI+1)
ELSE
CALL LIBEED(IUNIT,IREC,ENERG,NGRI+1)
ENDIF
ELSE
IF(NGX.NE.NGRI)
> CALL XABORT('LIBNRG: INVALID GROUP STRUCTURE.')
ALLOCATE(TEMPE(NGRI+1))
IF(ILIBIN.EQ.2) THEN
CALL XDREED(IUNIT,IREC,TEMPE,NGRI+1)
ELSE
CALL LIBEED(IUNIT,IREC,TEMPE,NGRI+1)
ENDIF
DO 190 IG=0,NGRI
IF(TEMPE(IG+1).NE.ENERG(IG+1))
> CALL XABORT('LIBNRG: INVALID GROUP STRUCTURE.')
190 CONTINUE
DEALLOCATE(TEMPE)
ENDIF
ENDIF
195 CONTINUE
IF(ILIBIN.EQ.2) THEN
CALL XDRCLS(IUNIT)
ELSE
CALL LIBCLS()
ENDIF
IERR=KDRCLS(IUNIT,IACTC)
IF(IERR.LT.0) THEN
HFORMAT='(24HLIBNRG: MATXS2 LIBRARY '',A16,10H'' CANNOT B'//
> '28HE CLOSED BY KDRCLS (ERRCODE=,I2,2H).)'
WRITE(HSMG,HFORMAT) NAMFIL,IERR
CALL XABORT(HSMG)
ENDIF
ELSE IF(NAMLBT.EQ.'NDAS') THEN
*---
* WIMS-NDAS LIBRARY
*----
CALL LIBND0(NAMFIL,NGRI,IPENER)
CALL C_F_POINTER(IPENER,ENERG,(/ NGRI+1 /))
ENDIF
IF(ENERG(NGRI+1).EQ.0.0) ENERG(NGRI+1)=1.0E-5
IF(NGT.EQ.0) THEN
*----
* IF NGT=0 SAVE GROUP STRUCTURE AND SET GROUP PARAMETERS
*----
NGROUP=NGRI
CALL LCMPUT(IPLIB,'ENERGY',NGRI+1,2,ENERG)
JG=0
DO 210 IG=1,NGROUP
ENERG(JG+1)=LOG(ENERG(JG+1)/ENERG(JG+2))
JG=JG+1
210 CONTINUE
CALL LCMPUT(IPLIB,'DELTAU',NGROUP,2,ENERG)
NGT=NGROUP
ELSE IF(NGRI.EQ.NGT) THEN
*----
* IF NGT>0 VALIDATE GROUP STRUCTURE
*----
ALLOCATE(EIER(NGT+1))
CALL LCMGET(IPLIB,'ENERGY',EIER)
JG=0
DO 220 IG=1,NGT
ERROR=ABS(ENERG(JG+1)-EIER(JG+1))
IF(ERROR.GT.ABS(ENERG(JG+1))*1.0E-4) THEN
WRITE(IOUT,'(1X,A20)') 'OLD GROUP STRUCTURE='
WRITE(IOUT,'(1P,5E15.7)')
> (EIER(IPR+1),IPR=0,NGT)
WRITE(IOUT,'(1X,A20)') 'NEW GROUP STRUCTURE='
WRITE(IOUT,'(1P,5E15.7)')
> (ENERG(IPR+1),IPR=0,NGT)
WRITE(IOUT,'(7H ERROR=,1P,E10.3,9H IN GROUP,I4)')
> ERROR,IG
WRITE(IOUT,'(7H VALUE=,1P,E10.3,3H VS,E10.3)') ENERG(JG+1),
> EIER(JG+1)
CALL XABORT('LIBNRG: INCOMPATIBLE GROUP STRUCTURE')
ENDIF
JG=JG+1
220 CONTINUE
DEALLOCATE(EIER)
ELSE
WRITE(IOUT,'(1X,A20,1X,I10)') 'OLD NUMBER OF GROUPS=',NGT
WRITE(IOUT,'(1X,A20,1X,I10)') 'NEW NUMBER OF GROUPS=',NGRI
CALL XABORT('LIBNRG: INCOMPATIBLE NUMBER OF GROUPS')
ENDIF
IF((NAMLBT.EQ.'NDAS').OR.(NAMLBT.EQ.'APLIB2').OR.
> (NAMLBT.EQ.'APXSM')) THEN
CALL LCMDRD(IPENER)
ELSE
DEALLOCATE(ENERG)
ENDIF
*----
* RETURN
*----
RETURN
END
|
