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|
*DECK MACWXS
SUBROUTINE MACWXS(IPLIST,IPRINT,NGROUP,NBMIX,NIFISS,NANISO,ICTRA,
> NEDMAC)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Print/check cross section information if required.
*
*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
* IPLIST LCM pointer to the macrolib.
* IPRINT print level.
* NGROUP number of energy groups.
* NBMIX number of mixtures.
* NIFISS number of fissile isotopes.
* NANISO maximum Legendre order:
* =1 isotropic collision;
* =2 linearly anisotropic collision.
* ICTRA type of transport correction.
* NEDMAC number of macro edit cross sections.
*
*-----------------------------------------------------------------------
*
USE GANLIB
*----
* SUBROUTINE ARGUMENTS
*----
TYPE(C_PTR) IPLIST
INTEGER IPRINT,NGROUP,NBMIX,NIFISS,NANISO,ICTRA,NEDMAC
*----
* LOCAL VARIABLES
*----
TYPE(C_PTR) JPLIST,KPLIST
CHARACTER CANISO*2,NAMREC*12,CEDNAM*12,NAMRE1*12,NAMRE2*12
PARAMETER (IUNOUT=6,ILCMUP=1,ILCMDN=2,IOUT=6)
*----
* ALLOCATABLE ARRAYS
*----
INTEGER, ALLOCATABLE, DIMENSION(:) :: INGSCT,IFGSCT,IPOSCT
INTEGER, ALLOCATABLE, DIMENSION(:,:) :: CADNAM
REAL, ALLOCATABLE, DIMENSION(:) :: XSWORK,XSWOR2,TCOR
REAL, ALLOCATABLE, DIMENSION(:,:,:) :: SCWORK
*----
* SCRATCH STORAGE ALLOCATION
* INGSCT number of scattering group for cross sections.
* IFGSCT first scattering group for cross sections.
* IPOSCT mixture location in cross section matrix.
* TCOR transport correction.
* CADNAM additional cross section names.
*----
ALLOCATE(INGSCT(NBMIX),IFGSCT(NBMIX),IPOSCT(NBMIX),
> CADNAM(2,NEDMAC+1))
ALLOCATE(XSWORK(NBMIX*(2+NGROUP)),XSWOR2(NBMIX*NIFISS),
> SCWORK(NBMIX,NANISO,NGROUP),TCOR(NBMIX))
*
IF(IPRINT.GT.1) WRITE(IUNOUT,6000)
SCWORK(:NBMIX,:NANISO,:NGROUP)=0.0
IF(NEDMAC.GT.0) CALL LCMGET(IPLIST,'ADDXSNAME-P0',CADNAM)
JPLIST=LCMGID(IPLIST,'GROUP')
DO 100 IGR=1,NGROUP
KPLIST=LCMGIL(JPLIST,IGR)
IF(ICTRA.EQ.0) THEN
TCOR(:NBMIX)=0.0
ELSE
CALL LCMGET(KPLIST,'TRANC',TCOR)
ENDIF
*----
* PRINT TOTAL X-S AND FIXE SOURCES INFORMATION
*----
IF(IPRINT.GT.1) THEN
IF(NBMIX.LE.7) THEN
WRITE(IUNOUT,6001) IGR,(II,II=1,NBMIX)
ELSE
WRITE(IUNOUT,6001) IGR,(II,II=1,7)
WRITE(IUNOUT,6011) (II,II=8,NBMIX)
ENDIF
CALL LCMGET(KPLIST,'NTOT0',XSWORK)
IF(NBMIX.LE.7) THEN
WRITE(IUNOUT,6002) 'NTOT0 ',
> (XSWORK(II)-TCOR(II),II=1,NBMIX)
ELSE
WRITE(IUNOUT,6002) 'NTOT0 ',
> (XSWORK(II)-TCOR(II),II=1,7)
WRITE(IUNOUT,6010) (XSWORK(II)-TCOR(II),II=8,NBMIX)
ENDIF
CALL LCMLEN(KPLIST,'NTOT1',ILCMLN,ITYLCM)
IF(ILCMLN.GT.0) THEN
CALL LCMGET(KPLIST,'NTOT1',XSWORK)
IF(NBMIX.LE.7) THEN
WRITE(IUNOUT,6002) 'NTOT1 ',(XSWORK(II),II=1,NBMIX)
ELSE
WRITE(IUNOUT,6002) 'NTOT1 ',(XSWORK(II),II=1,7)
WRITE(IUNOUT,6010) (XSWORK(II),II=8,NBMIX)
ENDIF
ENDIF
CALL LCMLEN(KPLIST,'FIXE',ILCMLN,ITYLCM)
IF(ILCMLN.GT.0) THEN
CALL LCMGET(KPLIST,'FIXE',XSWORK)
IF(NBMIX.LE.7) THEN
WRITE(IUNOUT,6002) 'FIXE ',(XSWORK(II),II=1,NBMIX)
ELSE
WRITE(IUNOUT,6002) 'FIXE ',(XSWORK(II),II=1,7)
WRITE(IUNOUT,6010) (XSWORK(II),II=8,NBMIX)
ENDIF
ENDIF
CALL LCMLEN(KPLIST,'TRANC',ILCMLN,ITYLCM)
IF(ILCMLN.GT.0) THEN
CALL LCMGET(KPLIST,'TRANC',XSWORK)
IF(NBMIX.LE.7) THEN
WRITE(IUNOUT,6002) 'TRANC ',(XSWORK(II),II=1,NBMIX)
ELSE
WRITE(IUNOUT,6002) 'TRANC ',(XSWORK(II),II=1,7)
WRITE(IUNOUT,6010) (XSWORK(II),II=8,NBMIX)
ENDIF
ENDIF
CALL LCMLEN(KPLIST,'DIFF',ILCMLN,ITYLCM)
IF(ILCMLN.GT.0) THEN
CALL LCMGET(KPLIST,'DIFF',XSWORK)
IF(NBMIX.LE.7) THEN
WRITE(IUNOUT,6002) 'DIFF ',(XSWORK(II),II=1,NBMIX)
ELSE
WRITE(IUNOUT,6002) 'DIFF ',(XSWORK(II),II=1,7)
WRITE(IUNOUT,6010) (XSWORK(II),II=8,NBMIX)
ENDIF
ENDIF
CALL LCMLEN(KPLIST,'H-FACTOR',ILCMLN,ITYLCM)
IF(ILCMLN.GT.0) THEN
CALL LCMGET(KPLIST,'H-FACTOR',XSWORK)
IF(NBMIX.LE.7) THEN
WRITE(IUNOUT,6002) 'H-FACTOR ',(XSWORK(II),II=1,NBMIX)
ELSE
WRITE(IUNOUT,6002) 'H-FACTOR ',(XSWORK(II),II=1,7)
WRITE(IUNOUT,6010) (XSWORK(II),II=8,NBMIX)
ENDIF
ENDIF
CALL LCMLEN(KPLIST,'FLUX-INTG',ILCMLN,ITYLCM)
IF(ILCMLN.GT.0) THEN
CALL LCMGET(KPLIST,'FLUX-INTG',XSWORK)
IF(NBMIX.LE.7) THEN
WRITE(IUNOUT,6002) 'FLUX-INTG ',(XSWORK(II),II=1,NBMIX)
ELSE
WRITE(IUNOUT,6002) 'FLUX-INTG ',(XSWORK(II),II=1,7)
WRITE(IUNOUT,6010) (XSWORK(II),II=8,NBMIX)
ENDIF
ENDIF
CALL LCMLEN(KPLIST,'FLUX-INTG-P1',ILCMLN,ITYLCM)
IF(ILCMLN.GT.0) THEN
CALL LCMGET(KPLIST,'FLUX-INTG-P1',XSWORK)
IF(NBMIX.LE.7) THEN
WRITE(IUNOUT,6002) 'FLUX-INTG-P1',(XSWORK(II),II=1,NBMIX)
ELSE
WRITE(IUNOUT,6002) 'FLUX-INTG-P1',(XSWORK(II),II=1,7)
WRITE(IUNOUT,6010) (XSWORK(II),II=8,NBMIX)
ENDIF
ENDIF
ENDIF
*----
* PRINT FISSION INFORMATION
*----
IF(IPRINT.GT.1) THEN
CALL LCMLEN(KPLIST,'NUSIGF',ILCMLN,ITYLCM)
IF(ILCMLN.GT.0) THEN
CALL LCMGET(KPLIST,'NUSIGF',XSWOR2)
DO 110 IFISS=1,NIFISS
IOF=(IFISS-1)*NBMIX
WRITE(IUNOUT,6003) IFISS
IF(NBMIX.LE.7) THEN
WRITE(IUNOUT,6002) 'NUSIGF',(XSWOR2(IOF+II),II=1,NBMIX)
ELSE
WRITE(IUNOUT,6002) 'NUSIGF',(XSWOR2(IOF+II),II=1,7)
WRITE(IUNOUT,6010) (XSWOR2(IOF+II),II=8,NBMIX)
ENDIF
110 CONTINUE
ENDIF
*
CALL LCMLEN(KPLIST,'CHI',ILCMLN,ITYLCM)
IF(ILCMLN.GT.0) THEN
CALL LCMGET(KPLIST,'CHI',XSWOR2)
DO 115 IFISS=1,NIFISS
IOF=(IFISS-1)*NBMIX
WRITE(IUNOUT,6003) IFISS
IF(NBMIX.LE.7) THEN
WRITE(IUNOUT,6002) 'CHI',(XSWOR2(IOF+II),II=1,NBMIX)
ELSE
WRITE(IUNOUT,6002) 'CHI',(XSWOR2(IOF+II),II=1,7)
WRITE(IUNOUT,6010) (XSWOR2(IOF+II),II=8,NBMIX)
ENDIF
115 CONTINUE
ENDIF
*
CALL LCMLEN(KPLIST,'NFTOT',ILCMLN,ITYLCM)
IF(ILCMLN.GT.0) THEN
CALL LCMGET(KPLIST,'NFTOT',XSWORK)
IF(NBMIX.LE.7) THEN
WRITE(IUNOUT,6002) 'NFTOT ',(XSWORK(II),II=1,NBMIX)
ELSE
WRITE(IUNOUT,6002) 'NFTOT ',(XSWORK(II),II=1,7)
WRITE(IUNOUT,6010) (XSWORK(II),II=8,NBMIX)
ENDIF
ENDIF
ENDIF
*----
* PRINT SCATTERING MATRICES INFORMATION
*----
MAXMXR=0
IF(ICTRA.NE.0) THEN
NNANIS=1
ELSE
NNANIS=NANISO
ENDIF
DO 120 IANIS=1,NNANIS
WRITE(CANISO,'(I2.2)') IANIS-1
CALL LCMLEN(KPLIST,'NJJS'//CANISO,ILCMLN,ITYLCM)
IF(ILCMLN.EQ.0) GO TO 120
IF(ILCMLN.LT.NBMIX) THEN
MAXMXR=ILCMLN
ELSE IF(ILCMLN.GT.NBMIX) THEN
CALL XABORT('MACWXS: NUMBER OF MIXTURES ON LCM IS LARGER'//
> ' THAN THE MAXIMUM PROVIDED ON NMIX CARD')
ELSE
MAXMXR=NBMIX
ENDIF
NAMREC='SIGW'//CANISO
NAMRE1='SIGS'//CANISO
NAMRE2='SCAT'//CANISO
CALL LCMGET(KPLIST,'NJJS'//CANISO,INGSCT)
CALL LCMGET(KPLIST,'IJJS'//CANISO,IFGSCT)
CALL LCMGET(KPLIST,'IPOS'//CANISO,IPOSCT)
CALL LCMGET(KPLIST,NAMREC,XSWORK)
CALL LCMLEN(KPLIST,NAMRE1,ILCMLN,ITYLCM)
IF(ILCMLN.GT.0) CALL LCMGET(KPLIST,NAMRE1,XSWORK(NBMIX+1))
CALL LCMGET(KPLIST,NAMRE2,XSWORK(2*NBMIX+1))
IF(IPRINT.GT.1) THEN
IF(NBMIX.LE.7) THEN
WRITE(IUNOUT,6002) NAMREC,
> (XSWORK(II)-TCOR(II),II=1,MAXMXR)
IF(ILCMLN.GT.0) THEN
WRITE(IUNOUT,6002) NAMRE1,
> (XSWORK(NBMIX+II)-TCOR(II),II=1,MAXMXR)
ENDIF
ELSE
WRITE(IUNOUT,6002) NAMREC,
> (XSWORK(II)-TCOR(II),II=1,7)
WRITE(IUNOUT,6010) (XSWORK(II)-TCOR(II),II=8,MAXMXR)
IF(ILCMLN.GT.0) THEN
WRITE(IUNOUT,6002) NAMRE1,
> (XSWORK(NBMIX+II)-TCOR(II),II=1,7)
WRITE(IUNOUT,6010) (XSWORK(NBMIX+II)-TCOR(II),II=8,
> MAXMXR)
ENDIF
ENDIF
ENDIF
IF(IPRINT.GT.2) THEN
IF=2*NBMIX+1
IS=2*NBMIX+INGSCT(1)
IDG=IFGSCT(1)
IFG=IDG-INGSCT(1)+1
IDIAG=IS+IFG-IGR
XSWORK(IDIAG)=XSWORK(IDIAG)-TCOR(1)
IF(INGSCT(1).GT.0) THEN
IF(IS-IF+1.LE.4) THEN
WRITE(IUNOUT,6004) NAMRE2,1,IFG,IDG,
> (XSWORK(J),J=IS,IF,-1)
ELSE
WRITE(IUNOUT,6004) NAMRE2,1,IFG,IDG,
> (XSWORK(J),J=IS,IS-3,-1)
WRITE(IUNOUT,6010)(XSWORK(J),J=IS-4,IF,-1)
ENDIF
ENDIF
DO 130 IMAT=2,MAXMXR
IF=IS+1
IS=IS+INGSCT(IMAT)
IDG=IFGSCT(IMAT)
IFG=IDG-INGSCT(IMAT)+1
IDIAG=IS+IFG-IGR
XSWORK(IDIAG)=XSWORK(IDIAG)-TCOR(IMAT)
IF(INGSCT(IMAT).GT.0) THEN
IF(IS-IF+1.LE.4) THEN
WRITE(IUNOUT,6005) IMAT,IFG,IDG,
> (XSWORK(J),J=IS,IF,-1)
ELSE
WRITE(IUNOUT,6005) IMAT,IFG,IDG,
> (XSWORK(J),J=IS,IS-3,-1)
WRITE(IUNOUT,6010)(XSWORK(J),J=IS-4,IF,-1)
ENDIF
ENDIF
130 CONTINUE
ENDIF
IF((IPRINT.GT.4).OR.(IPRINT.LT.0)) THEN
*----
* VALIDATION OF SCATTERING INFORMATION
*----
IPO=0
DO 90 IMAT=1,NBMIX
IDG=IFGSCT(IMAT)
IFG=IDG-INGSCT(IMAT)+1
IF(IPOSCT(IMAT).NE.IPO+1) THEN
WRITE(IUNOUT,6006) 'IPOS'//CANISO,IGR,IMAT
ENDIF
XS=XSWORK(IMAT)
IF(XS.GT.0.0) THEN
ERR=ABS((XS-XSWORK(2*NBMIX+IPO+1+IDG-IGR))/XS)
IF(ERR.GT.1.0E-5) THEN
WRITE(IUNOUT,6006) 'SIGW'//CANISO,IGR,IMAT
WRITE(IUNOUT,'(7H ERROR=,1P,E15.5)') ERR
ENDIF
ENDIF
DO 80 JGR=IDG,IFG,-1
IPO=IPO+1
SCWORK(IMAT,IANIS,JGR)=SCWORK(IMAT,IANIS,JGR)
> +XSWORK(2*NBMIX+IPO)
80 CONTINUE
90 CONTINUE
ENDIF
120 CONTINUE
IF(IPRINT.GE.4) THEN
*----
* PRINT ADDITIONAL XS INFORMATION IF REQUIRED
*----
DO 200 IED=1,NEDMAC
WRITE(CEDNAM,'(2A4)') CADNAM(1,IED),CADNAM(2,IED)
CALL LCMLEN(KPLIST,CEDNAM,ILCMLN,ILCMTY)
IF(ILCMLN .GT. 0) THEN
CALL LCMGET(KPLIST,CEDNAM,XSWORK)
IF(NBMIX .LE. 6) THEN
WRITE(IOUT,6007) CEDNAM,(XSWORK(ITC),ITC=1,NBMIX)
ELSE
WRITE(IOUT,6007) CEDNAM,(XSWORK(ITC),ITC=1,6)
WRITE(IOUT,6010) (XSWORK(ITC),ITC=7,NBMIX)
ENDIF
ENDIF
200 CONTINUE
ENDIF
100 CONTINUE
IF((IPRINT.GT.4).OR.(IPRINT.LT.0)) THEN
DO 160 IGR=1,NGROUP
KPLIST=LCMGIL(JPLIST,IGR)
DO 150 IANIS=1,NANISO
WRITE(CANISO,'(I2.2)') IANIS-1
CALL LCMLEN(KPLIST,'SIGS'//CANISO,ILCMLN,ITYLCM)
IF(ILCMLN.GT.0) THEN
CALL LCMGET(KPLIST,'SIGS'//CANISO,XSWORK)
DO 140 IMAT=1,NBMIX
XS=XSWORK(IMAT)
IF(XS.GT.0.0) THEN
ERR=ABS((SCWORK(IMAT,IANIS,IGR)-XS)/XS)
IF(ERR.GT.1.0E-4) THEN
WRITE(IUNOUT,6006) 'SIGS'//CANISO,IGR,IMAT
WRITE(IUNOUT,'(7H ERROR=,1P,E15.5)') ERR
ENDIF
ENDIF
140 CONTINUE
ENDIF
150 CONTINUE
160 CONTINUE
ENDIF
*----
* SCRATCH STORAGE DEALLOCATION
*----
DEALLOCATE(TCOR,SCWORK,XSWOR2,XSWORK)
DEALLOCATE(CADNAM,IPOSCT,IFGSCT,INGSCT)
RETURN
*----
* FORMAT
*----
6000 FORMAT(//' EDITION OF X-S STORED ON LCM.'/1X,29(1H-))
6001 FORMAT(/' G R O U P : ',I5/' MIXTURE',I8,6I16)
6002 FORMAT(1X,A12,1P,7E16.8)
6003 FORMAT(/14X,'FISSIONABLE ISOTOPE POSITION:',I5)
6004 FORMAT(1X,A12,1X,'MIXTURE:',I5,3X,'FROM GROUPS:',I5,' TO ',I5,5X,
>1P,4E16.8)
6005 FORMAT(14X,'MIXTURE:',I5,3X,'FROM GROUPS:',I5,' TO ',I5,5X,
>1P,4E16.8)
6006 FORMAT(/39H MACWXS: INCONSISTENT VALUE OF RECORD ',A12,7H' IN GR,
>3HOUP,I4,12H AND MIXTURE,I6,1H.)
6007 FORMAT(1X,'ADDITIONAL XS : ',A12,1P,6E16.8)
6010 FORMAT(1P,(13X,7E16.8))
6011 FORMAT(7I16)
END
|
