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|
*DECK MACDRV
SUBROUTINE MACDRV(IPLIST,INDREC,IPRINT,IDF,NBMIX,NGROUP,NANISO,
> NIFISS,NEDMAC,ITRANC,NDELG,NSTEP,NALBP,ILEAK,NW)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Input macroscopic cross sections in Dragon/Donjon.
*
*Copyright:
* Copyright (C) 2006 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.
* INDREC =1 the macrolib is created;
* =2 an existing macrolib is modified.
* IPRINT print level.
* IDF discontinuity factor flag.
*
*Parameters: output
* NBMIX number of mixtures.
* NGROUP maximum number of groups (default = 1).
* NANISO maximum scattering anisotropy (default = 1 corresponding to
* isotropic collision in laboratory).
* NIFISS number of fissile isotopes per mixtures (default = 0).
* NEDMAC number of aditional edition cross section types.
* ITRANC type of transport correction: =0 no transport correction
* =1 Apollo type transport correction; =2 recover from
* library; =4 leakage correction alone.
* NDELG number of precursor groups for delayed neutrons.
* NSTEP number of delta cross-section sets used for generalized
* perturbation theory (GPT) or kinetics calculations.
* NALBP number of physical albedos.
* ILEAK type of diffusion coefficient information.
* NW weighting flag (=0/1: P1-weighted information absent/present).
*
*-----------------------------------------------------------------------
*
USE GANLIB
*----
* SUBROUTINE ARGUMENTS
*----
TYPE(C_PTR) IPLIST
INTEGER INDREC,IPRINT,IDF,NBMIX,NGROUP,NANISO,NIFISS,NEDMAC,
> ITRANC,NDELG,NSTEP,NALBP,ILEAK,NW
*----
* LOCAL VARIABLES
*----
TYPE(C_PTR) JPLIST,KPLIST,LPLIST
PARAMETER (IUNOUT=6,NCXST=18)
CHARACTER CARLIR*12,CARLU*4,CGOXSN*7
LOGICAL LIREAD,LOLDXS(NCXST),LNEWXS(NCXST),LNORM,LADD,LUPD
INTEGER ITYPLU,INTLIR,IMATER
REAL REALIR
DOUBLE PRECISION DBLINP
DOUBLE PRECISION SQFMAS,XDRCST,NMASS,EVJ
*----
* ALLOCATABLE ARRAYS
*----
INTEGER, ALLOCATABLE, DIMENSION(:) :: ISCATA,IPERMU
REAL, ALLOCATABLE, DIMENSION(:) :: TOTL,TOT1,FISS,SPEC,FIXE,TRANC,
> DIFF,NFTOT,H,SCAT,NUDL,CHDL,OVERV,XSINT0,XSINT1,DIFFX,DIFFY,
> DIFFZ,ENE,VEL,VOL
REAL, ALLOCATABLE, DIMENSION(:,:) :: ALB
CHARACTER(LEN=8), ALLOCATABLE, DIMENSION(:) :: HADF
REAL, ALLOCATABLE, DIMENSION(:,:,:) :: XADF
*----
* FOR AVERAGED NEUTRON VELOCITY
* V=SQRT(2*ENER/M)=SQRT(2/M)*SQRT(ENER)
* SQFMAS=SQRT(2/M) IN CM/S/SQRT(EV) FOR V IN CM/S AND E IN EV
* =SQRT(2*1.602189E-19(J/EV)* 1.0E4(CM2/M2) /1.67495E-27 (KG))
* =1383155.30602 CM/S/SQRT(EV)
*----
EVJ=XDRCST('eV','J')
NMASS=XDRCST('Neutron mass','kg')
SQFMAS=SQRT(2.0D4*EVJ/NMASS)
*----
* INITIALIZE USEFUL PARAMETERS
*----
LIREAD=.TRUE.
LNORM=.FALSE.
LADD=.FALSE.
LUPD=(INDREC.EQ.2)
NEXTRE=1
NEXTMI=1
MAXFIS=MAX(1,NIFISS)
ALLOCATE(ISCATA(NANISO))
ISCATA(:NANISO)=0
DO 120 IL=1,NCXST
LOLDXS(IL)=.FALSE.
LNEWXS(IL)=.FALSE.
120 CONTINUE
LPLIST=IPLIST
ISTEP=0
NTYPE=0
*----
* READ A MAIN OPTION
*----
1000 CALL REDGET(ITYPLU,INTLIR,REALIR,CARLIR,DBLINP)
IF(ITYPLU.NE.3)
> CALL XABORT('MACDRV: READ ERROR 1 CHARACTER VARIABLE EXPECTED')
*----
* CHECK FOR STOP/RETURN
*----
1002 IF(CARLIR.EQ.';') THEN
GO TO 2000
ELSE IF(CARLIR.EQ.'EDIT') THEN
*----
* READ THE PRINT INDEX
*----
CALL REDGET(ITYPLU,IPRINT,REALIR,CARLU,DBLINP)
IF(ITYPLU.NE.1)
> CALL XABORT('MACDRV: READ ERROR - INTEGER VARIABLE EXPECTED')
ELSE IF(CARLIR.EQ.'DELP') THEN
*----
* READ THE NUMBER OF PRECURSOR GROUPS FOR DELAYED NEUTRONS
*----
CALL REDGET(ITYPLU,NDELG,REALIR,CARLU,DBLINP)
IF(ITYPLU.NE.1)
> CALL XABORT('MACDRV: READ ERROR - INTEGER VARIABLE EXPECTED')
ELSE IF(CARLIR.EQ.'STEP') THEN
*----
* STEP TO A GPT SUB-DIRECTORY
*----
CARLIR=' '
CALL REDGET(ITYPLU,INTLIR,REALIR,CARLIR,DBLINP)
IF((ITYPLU.NE.3).OR.(CARLIR.NE.'INPUT'))
> CALL XABORT('MACDRV: READ ERROR - INPUT STRING EXPECTED')
CALL REDGET(ITYPLU,ISTEP,REALIR,CARLU,DBLINP)
IF(ITYPLU.NE.1)
> CALL XABORT('MACDRV: READ ERROR - INTEGER VARIABLE EXPECTED')
IF(INDREC.EQ.1) THEN
IF(ISTEP.LT.NSTEP)
> CALL XABORT('MACDRV: THIS DIRECTORY STEP ALREADY EXISTS.')
ENDIF
NSTEP=MAX(NSTEP,ISTEP)
JPLIST=LCMLID(IPLIST,'STEP',NSTEP)
KPLIST=LCMDIL(JPLIST,ISTEP)
LPLIST=KPLIST
ELSE IF(CARLIR.EQ.'READ') THEN
IF(NBMIX.EQ.0) CALL XABORT('MACDRV: NBMIX NOT YET DEFINED')
ALLOCATE(IPERMU(NBMIX))
NBELEM=0
*----
* IDENTIFY MIXTURES TO READ
*----
NUMMAT=0
DO 100 IMATER=1,NBMIX
CALL REDGET(ITYPLU,JPERMU,REALIR,CGOXSN,DBLINP)
IF(ITYPLU.NE.1) GO TO 1001
IF(JPERMU.GT.NBMIX) CALL XABORT('MACDRV: MATERIAL NUMBER IS'
> //' LARGER THAN NBMIX')
IPERMU(IMATER)=JPERMU
NUMMAT=MAX(NUMMAT,JPERMU)
IF(IMATER.EQ.NBMIX)
> CALL REDGET(ITYPLU,INTLIR,REALIR,CGOXSN,DBLINP)
NBELEM=NBELEM+1
100 CONTINUE
1001 IF(ITYPLU.NE.3)
> CALL XABORT('MACDRV: READ ERROR 2 CHARACTER VARIABLE EXPECTED')
IF(LIREAD) THEN
ALLOCATE(TOTL(NBMIX*NGROUP),TOT1(NBMIX*NGROUP),
> FISS(NBMIX*NGROUP*MAXFIS),SPEC(NBMIX*NGROUP*MAXFIS),
> FIXE(NBMIX*NGROUP),TRANC(NBMIX*NGROUP),DIFF(NBMIX*NGROUP),
> NFTOT(NBMIX*NGROUP),H(NBMIX*NGROUP),
> SCAT(NBMIX*NGROUP*NGROUP*NANISO))
ALLOCATE(NUDL(NBMIX*NGROUP*MAXFIS*MAX(NDELG,1)),
> CHDL(NBMIX*NGROUP*MAXFIS*MAX(NDELG,1)))
ALLOCATE(OVERV(NBMIX*NGROUP),XSINT0(NBMIX*NGROUP),
> XSINT1(NBMIX*NGROUP),DIFFX(NBMIX*NGROUP),DIFFY(NBMIX*NGROUP),
> DIFFZ(NBMIX*NGROUP))
CALL MACIXS(LPLIST,MAXFIS,NGROUP,NBMIX,NIFISS,NANISO,NDELG,
> TOTL,TOT1,FISS,SPEC,FIXE,TRANC,DIFF,NFTOT,H,SCAT,
> LOLDXS,ISCATA,NUDL,CHDL,DIFFX,DIFFY,DIFFZ,OVERV,
> XSINT0,XSINT1)
LIREAD=.FALSE.
ENDIF
IF(CGOXSN.EQ.'INPUT ') THEN
ALLOCATE(HADF(NTYPE),XADF(NBMIX,NGROUP,NTYPE))
CALL MACXSR(MAXFIS,NGROUP,NBMIX,NIFISS,NANISO,NDELG,NTYPE,
> TOTL,TOT1,FISS,SPEC,FIXE,TRANC,DIFF,NFTOT,H,SCAT,
> LOLDXS,LNEWXS,CARLIR,LADD,LUPD,IPRINT,ISCATA,
> NUDL,CHDL,DIFFX,DIFFY,DIFFZ,OVERV,XSINT0,XSINT1,
> HADF,XADF)
IF(NTYPE.GT.0) THEN
CALL LCMSIX(IPLIST,'ADF',1)
CALL LCMPUT(IPLIST,'NTYPE',1,1,NTYPE)
CALL LCMPTC(IPLIST,'HADF',8,NTYPE,HADF)
DO ITYPE=1,NTYPE
CALL LCMPUT(IPLIST,HADF(ITYPE),NBMIX*NGROUP,2,
> XADF(1,1,ITYPE))
ENDDO
CALL LCMSIX(IPLIST,' ',2)
ENDIF
DEALLOCATE(XADF,HADF)
ENDIF
DEALLOCATE(IPERMU)
GO TO 1002
ELSE IF(CARLIR.EQ.'NGRO') THEN
CALL REDGET(ITYPLU,NGROUP,REALIR,CARLU,DBLINP)
IF(ITYPLU.NE.1)
> CALL XABORT('MACDRV: READ ERROR - INTEGER VARIABLE EXPECTED')
ELSE IF(CARLIR.EQ.'NMIX') THEN
CALL REDGET(ITYPLU,NBMIX,REALIR,CARLU,DBLINP)
IF(ITYPLU.NE.1)
> CALL XABORT('MACDRV: READ ERROR - INTEGER VARIABLE EXPECTED')
ELSE IF(CARLIR.EQ.'ANIS') THEN
NANISC=NANISO
CALL REDGET(ITYPLU,NANISO,REALIR,CARLU,DBLINP)
IF(ITYPLU.NE.1)
> CALL XABORT('MACDRV: READ ERROR - INTEGER VARIABLE EXPECTED')
IF(NANISO.GT.NANISC) THEN
DEALLOCATE(ISCATA)
ALLOCATE(ISCATA(NANISO))
ISCATA(:NANISO)=0
ENDIF
ELSE IF(CARLIR.EQ.'NADF') THEN
CALL REDGET(ITYPLU,NTYPE,REALIR,CARLIR,DBLINP)
IF(ITYPLU.NE.1) CALL XABORT('MACDRV: READ ERROR - NUMBER ADF '
> //'TYPES EXPECTED.')
IF(NTYPE.GT.0) IDF=2
ELSE IF(CARLIR.EQ.'CTRA') THEN
*----
* READ TRANSPORT CORRECTION TYPE
*----
CALL REDGET(ITYPLU,INTLIR,REALIR,CARLU,DBLINP)
IF(ITYPLU.NE.3) CALL XABORT('MACDRV: READ ERROR - CHARACTER CT'
> //'RA TYPE EXPECTED')
IF(CARLU.EQ.'NONE') THEN
ITRANC=0
ELSE IF(CARLU.EQ.'APOL') THEN
ITRANC=1
ELSE IF(CARLU.EQ.'WIMS') THEN
ITRANC=2
ELSE IF(CARLU.EQ.'LEAK') THEN
ITRANC=4
ELSE
CALL XABORT('MACDRV: NONE, APOL, WIMS OR LEAK EXPECTED')
ENDIF
ELSE IF(CARLIR.EQ.'NIFI') THEN
CALL REDGET(ITYPLU,NIFISS,REALIR,CARLU,DBLINP)
IF(ITYPLU.NE.1)
> CALL XABORT('MACDRV: READ ERROR - INTEGER VARIABLE EXPECTED')
MAXFIS=MAX(1,NIFISS)
ELSE IF(CARLIR.EQ.'NORM') THEN
LNORM=.TRUE.
ELSE IF(CARLIR.EQ.'ADD') THEN
IF(.NOT.LUPD) CALL XABORT('MACDRV: CANNOT USE THE ADD OPTION ON'
> //' A MACROLIB IN CREATION MODE')
LADD=.TRUE.
ELSE IF(CARLIR.EQ.'VOLUME') THEN
*----
* READ MIXTURE VOLUMES
*----
ALLOCATE(VOL(NBMIX))
DO 177 IBM=1,NBMIX
CALL REDGET(ITYPLU,INTLU,VOL(IBM),CARLU,DBLINP)
IF(ITYPLU.NE.2) CALL XABORT('MACDRV: READ ERROR - REAL V'
> //'ARIABLE EXPECTED FOR VOLUME')
177 CONTINUE
CALL LCMPUT(IPLIST,'VOLUME',NBMIX,2,VOL)
DEALLOCATE(VOL)
ELSE IF(CARLIR.EQ.'ENER') THEN
*----
* READ ENERGY GROUPS
*----
IF(NGROUP.GT.0) THEN
ALLOCATE(ENE(NGROUP+1),VEL(NGROUP))
CALL REDGET(ITYPLU,INTLU,ENEMAX,CARLU,DBLINP)
IF(ITYPLU.NE.2) CALL XABORT('MACDRV: READ ERROR - REAL VAR'
> //'IABLE EXPECTED')
DO 179 IGR=1,NGROUP
ENE(IGR)=ENEMAX
CALL REDGET(ITYPLU,INTLU,ENECUR,CARLU,DBLINP)
IF(ITYPLU.NE.2) CALL XABORT('MACDRV: READ ERROR - REAL V'
> //'ARIABLE EXPECTED')
IF(ENECUR.GT.ENEMAX) CALL XABORT('MACDRV: READ ERROR - E'
> //'NERGY GOES FROM MAX TO MIN')
ENEMAX=ENECUR
179 CONTINUE
IF(ENEMAX.LE.0.0) THEN
ENE(NGROUP+1)=1.0E-5
ELSE
ENE(NGROUP+1)=ENEMAX
ENDIF
CALL LCMPUT(IPLIST,'ENERGY',NGROUP+1,2,ENE)
VELG1=SQRT(ENE(1))
JVEL=1
DO 178 IGR=1,NGROUP
VELG2=SQRT(ENE(IGR+1))
VEL(JVEL)=REAL(SQFMAS)*SQRT(VELG1*VELG2)
VELG1=VELG2
ENE(IGR)=LOG(ENE(IGR)/ENE(IGR+1))
JVEL=JVEL+1
178 CONTINUE
CALL LCMPUT(IPLIST,'AVGVEL',NGROUP,2,VEL)
CALL LCMPUT(IPLIST,'DELTAU',NGROUP,2,ENE)
DEALLOCATE(VEL,ENE)
ENDIF
ELSE IF(CARLIR.EQ.'ALBP') THEN
*----
* READ GROUP INDEPENDENT PHYSICAL ALBEDOS
*----
CALL REDGET(ITYPLU,NALBD,REALIR,CARLU,DBLINP)
IF(ITYPLU.NE.1) CALL XABORT('MACDRV: INTEGER DATA EXPECTED.')
IF(NALBD.GT.0) THEN
NALBP=NALBD
IF(NGROUP.EQ.0) CALL XABORT('MACDRV: NGROUP MISSING FOR ALBP')
ALLOCATE(ALB(NALBD,NGROUP))
DO IAL=1,NALBD
DO IGR=1,NGROUP
CALL REDGET(ITYPLU,INTLIR,ALB(IAL,IGR),CARLU,DBLINP)
IF(ITYPLU.NE.2) CALL XABORT('MACDRV: ALBEDO EXPECTED.')
ENDDO
ENDDO
CALL LCMPUT(IPLIST,'ALBEDO',NALBP*NGROUP,2,ALB)
DEALLOCATE(ALB)
ELSE
NALBP=0
ENDIF
ELSE
CALL XABORT('MACDRV: '//CARLIR//' IS AN INVALID KEY-WORD.')
ENDIF
GO TO 1000
*----
* TRANSFER MODIFIED X-S ON THE MACROLIB
*----
2000 IF(.NOT.LIREAD) THEN
CALL MACPXS(LPLIST,MAXFIS,NGROUP,NBMIX,NIFISS,NANISO,NDELG,
> ITRANC,LNEWXS,TOTL,TOT1,FISS,SPEC,FIXE,TRANC,DIFF,
> NFTOT,H,SCAT,NEDMAC,ISCATA,NUDL,CHDL,DIFFX,DIFFY,
> DIFFZ,OVERV,XSINT0,XSINT1)
DEALLOCATE(DIFFZ,DIFFY,DIFFX,XSINT1,XSINT0,OVERV)
DEALLOCATE(CHDL,NUDL)
DEALLOCATE(SCAT,H,NFTOT,DIFF,TRANC,FIXE,SPEC,FISS,TOT1,TOTL)
ENDIF
DEALLOCATE(ISCATA)
*----
* NORMALIZATION OF X-S INFORMATION
*----
IF(LNORM) THEN
CALL MACNXS(IPLIST,MAXFIS,NGROUP,NBMIX,NIFISS,NANISO)
ENDIF
*----
* PRINT/CHECK X-S INFORMATION
*----
IF((IPRINT.NE.0).AND.(IPRINT.NE.1)) THEN
CALL MACWXS(IPLIST,IPRINT,NGROUP,NBMIX,NIFISS,NANISO,
> ITRANC,NEDMAC)
ENDIF
*----
* SET STATE-VECTOR FLAGS
*----
NW=0
IF(LNEWXS(9)) NW=1
ILEAK=0
IF(LNEWXS(7)) ILEAK=1
IF(LNEWXS(10).OR.LNEWXS(11).OR.LNEWXS(12)) ILEAK=2
RETURN
END
|
