path: root/Dragon/src/FLUGPI.f

*DECK FLUGPI
      SUBROUTINE FLUGPI(IPFLUX,IPMACR,ITYPEC,MAXOUT,MAXINR,EPSOUT,
     >                  EPSUNK,EPSINR,IREBAL,IFRITR,IACITR,COPTIO,
     >                  ILEAK,B2,NGROUP,NREGIO,NMAT,NIFISS,LEAKSW,
     >                  REFKEF,ITPIJ,IPRINT,REC,INITFL,NMERG,IMERG)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Read data for flux solution operator.
*
*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
* IPFLUX  pointer to the flux LCM object.
* IPMACR  pointer to the macrolib LCM object.
* NGROUP  number of energy groups.
* NREGIO  number of regions.
* NMAT    number of material mixtures.
* NIFISS  number of fissile isotopes.
* LEAKSW  leakage flag (=.true. if leakage is present on the outer
*         surface).
* ITPIJ   type of collision probability information available:
*         =1 scattering modified pij (wij);
*         =2 standard pij;
*         =3 scattering modified pij+pijk (wij,wijk);
*         =4 standard pij+pijk.
* REC     flux recovery flag:
*         =.true. recover the existing solution as initial estimate;
*         =.false. use a new initial estimate.
*
*Parameters: output
* ITYPEC  type of flux evaluation:
*         =-2 Fourier analysis;
*         =-1 skip the flux calculation;
*         =0  fixed sources;
*         =1  fixed source eigenvalue problem (GPT type);
*         =2  fission sources/K-eff convergence;
*         =3  fission sources/K-eff convergence/db2 buckling evaluation;
*         =4  fission sources/db2 buckling convergence;
*         =5  b2 sources/db2 buckling convergence;
* MAXOUT  maximum number of outer iterations.
* MAXINR  maximum number of thermal iterations.
* EPSOUT  outer iterations eigenvalue epsilon.
* EPSUNK  outer iterations eigenvector epsilon.
* EPSINR  thermal iterations epsilon.
* IREBAL  flux rebalancing flag (=1: perform rebalancing).
* IFRITR  number of free iterations in an acceleration cycle.
* IACITR  number of accelerated iterations in an acceleration cycle.
* COPTIO  type of leakage coefficients: 
*         'LKRD' (recover leakage coefficients in Macrolib);
*         'RHS' (recover leakage coefficients in RHS flux object);
*         'B0' (B-0), 'P0' (P-0), 'B1' (B-1),
*         'P1' (P-1), 'B0TR' (B-0 with transport correction) or 'P0TR'
*         (P-0 with transport correction).
* ILEAK   method used to include db2 effect:
*         =1 the scattering modified cp matrix is multiplied by PNLR;
*         =2 the reduced cp matrix is multiplied by PNL;
*         =3 sigs0-db2 approximation;
*         =4 albedo approximation;
*         =5 Todorova-type isotropic streaming model;
*         =6 Ecco-type isotropic streaming model;
*         =17,27,37,47,57,67 for heterogeneous method with pijk and
*         fixed b (17) or search b_x(27), b_y (37), b_z (47),
*         b_r (57) or b_x=b_y=b_z (67).
* B2      initial or imposed directional bucklings.
* REFKEF  target effective multiplication factor (K-eff).
* IPRINT  print selection for FLU: module (= 0/1/2/3 no print/short
*         print/long print).
* INITFL  flux initialisation flags:
*         = 0 flux initialisation (=0.0 or 1.0);
*         = 1 flux read on LCM;
*         = 2 initialization from DSA flux read on LCM.
* NMERG   number of leakage zones.
* IMERG   leakage zone index in each material mixture zone.
*
*-----------------------------------------------------------------------
*
      USE GANLIB
*----
*  SUBROUTINE ARGUMENTS
*----
      TYPE(C_PTR) IPFLUX,IPMACR
      INTEGER     ITYPEC,MAXOUT,MAXINR,IREBAL,IFRITR,IACITR,ILEAK,
     >            NGROUP,NREGIO,NMAT,NIFISS,ITPIJ,IPRINT,INITFL,NMERG,
     >            IMERG(NMAT)
      REAL        EPSOUT,EPSUNK,EPSINR,B2(4)
      CHARACTER   COPTIO*4
      LOGICAL     LEAKSW,REC
      DOUBLE PRECISION REFKEF
*----
*  LOCAL VARIABLES
*----
      PARAMETER  (NBUCKN=7,NLEAK=7,NSDIR=5,ROUMIN=1.0E-5,RINMIN=5.0E-5,
     >            NSTATE=40)
      CHARACTER   CARLIR*4,CTYPEC*1,CBUCKN(0:NBUCKN)*4,CLEAK(NLEAK)*6,
     >            CSDIR(NSDIR)*1
      SAVE        CBUCKN,CLEAK,CSDIR
      INTEGER     ITYPLU,INTLIR,IRSDIR(NSDIR),ISTATE(NSTATE)
      REAL        REALIR,BSDIR(NSDIR),EPSCON(5)
      DOUBLE PRECISION DBLINP
      DATA       (CBUCKN(JJ),JJ=0,NBUCKN)
     >           /'LKRD','RHS','B0','P0','B1','P1','B0TR','P0TR'/
      DATA       (CLEAK(JJ),JJ=1,NLEAK)
     >           /'PNLR','PNL','SIGS','ALBS','HETE','ECCO','TIBERE'/
      DATA       (CSDIR(III),III=1,NSDIR)
     >           /'X','Y','Z','R','G'/
*----
*  INITIALIZE TO DEFAULT VALUE
*----
      ISDIR=0
      COPTIO='B0'
      IF((ITPIJ.EQ.1).OR.(ITPIJ.GE.3)) ISDIR=5
      DO 10 III=1,NSDIR
        BSDIR(III)=0.0
        IRSDIR(III)=0
 10   CONTINUE
      REFKEF=1.0D0
      IPRINT=1
      IF(REC) THEN
         CALL LCMGET(IPFLUX,'STATE-VECTOR',ISTATE)
         ITYPEC=ISTATE(6)
         ILEAK=ISTATE(7)
         IFRITR=ISTATE(8)
         IACITR=ISTATE(9)
         IREBAL=ISTATE(10)
         MAXOUT=ISTATE(12)
         NMERG=ISTATE(18)
         CALL LCMGET(IPFLUX,'EPS-CONVERGE',EPSCON)
         EPSINR=EPSCON(1)
         EPSUNK=EPSCON(2)
         EPSOUT=EPSCON(3)
         INITFL=1
         CALL LCMLEN(IPFLUX,'B2  HETE',ILCML1,ITYLCM)
         CALL LCMLEN(IPFLUX,'B2  B1HOM',ILCML2,ITYLCM)
         IF(ILCML1.EQ.3) THEN
           CALL LCMGET(IPFLUX,'B2  HETE',BSDIR)
           IRSDIR(1)=1
           IRSDIR(2)=1
           IRSDIR(3)=1
         ELSE IF(ILCML2.EQ.1) THEN
           CALL LCMGET(IPFLUX,'B2  B1HOM',BSDIR(5))
           IRSDIR(5)=1
         ENDIF
         IF(NMERG.GT.0) CALL LCMGET(IPFLUX,'IMERGE-LEAK',IMERG)
      ELSE
         ITYPEC=-99
         ILEAK=0
         IFRITR=3
         IACITR=3
         IREBAL=1
         MAXOUT=0
         EPSINR=RINMIN
         EPSUNK=0.0
         EPSOUT=ROUMIN
         INITFL=0
         NMERG=1
         IMERG(:NMAT)=1
         CALL LCMPUT(IPFLUX,'IMERGE-LEAK',NMAT,1,IMERG)
      ENDIF
      IF(NGROUP.EQ.1) MAXINR=1
      IF(MOD(ITPIJ,2).EQ.0) THEN
        MAXINR=4*NGROUP
      ELSE
        MAXINR=2*NGROUP
      ENDIF
*----
*  READ OPTION NAME
*----
  20  CALL REDGET(ITYPLU,INTLIR,REALIR,CARLIR,DBLINP)
      IF(ITYPLU.EQ.10) GO TO 140
  30  IF(ITYPLU.NE.3)
     >  CALL XABORT('FLUGPI: READ ERROR - CHARACTER VARIABLE EXPECTED')
      IF(CARLIR.EQ.';') THEN
        GO TO 140
      ELSE IF(CARLIR.EQ.'EDIT') THEN
        CALL REDGET(ITYPLU,IPRINT,REALIR,CARLIR,DBLINP)
        IF(ITYPLU.NE.1) CALL XABORT('FLUGPI: READ ERROR - INTEGER VA'
     >    //'RIABLE EXPECTED')
      ELSE IF(CARLIR.EQ.'TYPE') THEN
        CALL REDGET(ITYPLU,INTLIR,REALIR,CTYPEC,DBLINP)
        IF(ITYPLU.NE.3) CALL XABORT('FLUGPI: READ ERROR - CHARACTER '
     >    //'VARIABLE EXPECTED')
        IF(CTYPEC.EQ.'N') THEN
          ITYPEC=-1
        ELSE IF(CTYPEC.EQ.'S') THEN
          ITYPEC=0
        ELSE IF(CTYPEC.EQ.'P') THEN
          ITYPEC=1
        ELSE IF(CTYPEC.EQ.'K') THEN
          ITYPEC=2
        ELSE IF(CTYPEC.EQ.'B') THEN
          ITYPEC=4
          ILEAK=3
        ELSE IF(CTYPEC.EQ.'L') THEN
          ITYPEC=5
          ILEAK=3
        ELSE IF(CTYPEC.EQ.'F') THEN
          ITYPEC=-2
          ILEAK=0
          MAXOUT=1
          MAXINR=1
        ELSE
          CALL XABORT('FLUGPI: READ ERROR - INVALID TYPE KEYWORD= '
     >      //CTYPEC//' -- ONLY VALUES ALLOWED ARE: N,S,K,B,L OR F')
        ENDIF
        IF(ITYPEC.GE.2) THEN
          CALL REDGET(ITYPLU,INTLIR,REALIR,CARLIR,DBLINP)
          IF(ITYPLU.NE.3) CALL XABORT('FLUGPI: READ ERROR - CHARACTE'
     >      //'R VARIABLE EXPECTED')
          DO 40 JBUC=0,NBUCKN
            IF(CARLIR.EQ.CBUCKN(JBUC)) THEN
              COPTIO=CARLIR
              GO TO 50
            ENDIF
  40      CONTINUE
          GO TO 30
  50      IF(ITYPEC.EQ.2) ITYPEC=3
          ILEAK=3
          CALL REDGET(ITYPLU,INTLIR,REALIR,CARLIR,DBLINP)
          IF(ITYPLU.NE.3) CALL XABORT('FLUGPI: READ ERROR - CHARACTE'
     >      //'R VARIABLE EXPECTED')
          DO 70 JLEA=1,NLEAK
            IF(CARLIR.EQ.CLEAK(JLEA)(:4)) THEN
              ILEAK=JLEA
              IF(LEAKSW.AND.(ILEAK.NE.3).AND.(ILEAK.NE.5)) THEN
                CALL XABORT('FLUGPI: FUNDAMENTAL MODE EXPECTED WITH A '
     >          //'LEAKAGE MODEL OTHER THAN SIGS OR HETE.')
              ENDIF
              IF(ILEAK.EQ.5) THEN
                DO IBM=1,NMAT
                  CALL REDGET(ITYPLU,INTLIR,REALIR,CARLIR,DBLINP)
                  IF((IBM.EQ.1).AND.(ITYPLU.EQ.3)) GO TO 30
                  IF(ITYPLU.NE.1) CALL XABORT('FLUGPI: READ ERROR - IN'
     >                            //'TEGER VARIABLE EXPECTED')
                  IMERG(IBM)=INTLIR
                  NMERG=MAX(NMERG,IMERG(IBM))
                ENDDO
                CALL LCMPUT(IPFLUX,'IMERGE-LEAK',NMAT,1,IMERG)
              ELSE IF(ILEAK.EQ.7) THEN
                CALL REDGET(ITYPLU,INTLIR,REALIR,CARLIR,DBLINP)
                IF(ITYPLU.NE.3) CALL XABORT('FLUGPI: READ ERROR - '
     >                         //'CHARACTER VARIABLE EXPECTED')
                DO 60 III=1,NSDIR
                  IF(CARLIR.EQ.CSDIR(III)) THEN
                    ISDIR=III
                    GO TO 20
                  ENDIF
  60            CONTINUE
                GO TO 30
              ENDIF
              CALL REDGET(ITYPLU,INTLIR,REALIR,CARLIR,DBLINP)
              GO TO 30
            ENDIF
  70      CONTINUE
          GO TO 30
        ENDIF
      ELSE IF(CARLIR.EQ.'REBA') THEN
        CALL REDGET(ITYPLU,INTLIR,REALIR,CARLIR,DBLINP)
        IF(ITYPLU.NE.3) CALL XABORT('FLUGPI: READ ERROR - CHARACTE'
     >    //'R VARIABLE EXPECTED')
        IF(CARLIR.EQ.'OFF ') THEN
          IREBAL=0
        ELSE
          IREBAL=1
          GO TO 30
        ENDIF
      ELSE IF(CARLIR.EQ.'INIT') THEN
        CALL REDGET(ITYPLU,INTLIR,REALIR,CARLIR,DBLINP)
        IF(ITYPLU.NE.3) CALL XABORT('FLUGPI: READ ERROR - CHARACTE'
     >  //'R VARIABLE EXPECTED')
        IF(CARLIR.EQ.'OFF') THEN
*         initial flat distribution
          INITFL=0
        ELSE IF(CARLIR.EQ.'ON') THEN
*         use LCM flux
          INITFL=1
        ELSE IF(CARLIR.EQ.'DSA') THEN
*         use DSA flux
          INITFL=2
        ELSE
          CALL XABORT('FLUGPI: OFF/ON/DSA KEYWORD EXPECTED')
        ENDIF
      ELSE IF(CARLIR.EQ.'EXTE') THEN
        DO 90 II=1,3
          CALL REDGET(ITYPLU,NITMA,EPSOUT,CARLIR,DBLINP)
          IF(ITYPLU.EQ.1) MAXOUT=NITMA
          IF(ITYPLU.EQ.3) GO TO 30
  90    CONTINUE
      ELSE IF(CARLIR.EQ.'UNKT') THEN
        CALL REDGET(ITYPLU,INTLIR,EPSUNK,CARLIR,DBLINP)
        IF(ITYPLU.NE.2)
     >     CALL XABORT('FLUGPI: REAL VALUE OF EPSUNK MUST FOLLOW'
     >               //' UNKT')
        GO TO 20
      ELSE IF(CARLIR.EQ.'THER') THEN
        DO 100 II=1,3
          CALL REDGET(ITYPLU,NITMA,EPSINR,CARLIR,DBLINP)
          IF(ITYPLU.EQ.1) MAXINR=NITMA
          IF(ITYPLU.EQ.3) GO TO 30
 100    CONTINUE
      ELSE IF(CARLIR.EQ.'ACCE') THEN
        CALL REDGET(ITYPLU,IFRITR,REALIR,CARLIR,DBLINP)
        IF(ITYPLU.NE.1) CALL XABORT('FLUGPI: READ ERROR - INTEGER VA'
     >    //'RIABLE EXPECTED')
        CALL REDGET(ITYPLU,IACITR,REALIR,CARLIR,DBLINP)
        IF(ITYPLU.NE.1) CALL XABORT('FLUGPI: READ ERROR - INTEGER VA'
     >    //'RIABLE EXPECTED')
      ELSE IF(CARLIR.EQ.'KEFF') THEN
         CALL REDGET(ITYPLU,INTLIR,REALIR,CARLIR,DBLINP)
         IF(ITYPLU.NE.2) CALL XABORT('FLUGPI: READ ERROR - REAL VA'
     >   //'RIABLE EXPECTED FOLLOWING KEFF KEYWORD')
         REFKEF=REALIR
      ELSE IF(CARLIR.EQ.'BUCK') THEN
         CALL REDGET(ITYPLU,INTLIR,REALIR,CARLIR,DBLINP)
         IRSDIR(:NSDIR)=0
         IF(ITYPLU.EQ.2) THEN
           BSDIR(5)=REALIR
           IRSDIR(5)=1
           GO TO 20
         ELSE IF(ITYPLU.EQ.1) THEN
           CALL XABORT('FLUGPI: READ ERROR - INTEGER '
     >       //'VARIABLE FOUND FOLLOWING BUCK KEYWORD')
         ENDIF
 110     CONTINUE
         DO 120 III=1,NSDIR
           IF(CARLIR.EQ.CSDIR(III)) THEN
             CALL REDGET(ITYPLU,INTLIR,REALIR,CARLIR,DBLINP)
             IF(ITYPLU.NE.2)
     >         CALL XABORT('FLUGPI: READ ERROR - REAL VARIABLE '//
     >           'EXPECTED FOLLOWING BUCKLING DIRECTION KEYWORD')
             BSDIR(III)=REALIR
             IRSDIR(III)=1
             GO TO 130
           ENDIF
 120     CONTINUE
         GO TO 30
 130     CONTINUE
         CALL REDGET(ITYPLU,INTLIR,REALIR,CARLIR,DBLINP)
         IF(ITYPLU.NE.3)
     >     CALL XABORT('FLUGPI: READ ERROR - CHARACTER '
     >     //'VARIABLE EXPECTED')
         GO TO 110
      ELSE IF(CARLIR.EQ.'IDEM') THEN
         IRSDIR(:NSDIR)=0
         CALL LCMLEN(IPMACR,'B2  HETE',ILCMLN,ITYLCM)
         IF(ILCMLN.EQ.3) THEN
            CALL LCMGET(IPMACR,'B2  HETE',BSDIR)
            IRSDIR(1)=1
            IRSDIR(2)=1
            IRSDIR(3)=1
         ENDIF
         CALL LCMLEN(IPMACR,'B2  B1HOM',ILCMLN,ITYLCM)
         IF(ILCMLN.EQ.1) THEN
           CALL LCMGET(IPMACR,'B2  B1HOM',BSDIR(5))
           IRSDIR(5)=1
         ENDIF
      ELSE
         CALL XABORT('FLUGPI: READ ERROR - ILLEGAL KEYWORD '//CARLIR)
      ENDIF
      GO TO 20
*----
 140  CONTINUE
      IF(ITYPEC.EQ.3) THEN
        ISDIR=0
        IF(ILEAK.EQ.7) THEN
          DO 150 III=1,NSDIR
            IF(IRSDIR(III).EQ.1) GO TO 160
 150      CONTINUE
        ELSE
          GO TO 160
        ENDIF
        CALL XABORT('FLUGPI: NO BUCKLING READ FOR TYPE K '//
     >    'CALCULATION WITH IMPOSED BUCKLING')
 160    CONTINUE
      ENDIF
      IF(ILEAK.EQ.7) THEN
        IF(IRSDIR(5).EQ.1) THEN
          DO 210 III=1,NSDIR-1
            IF(IRSDIR(III).EQ.1) THEN
              CALL XABORT('FLUGPI: GLOBAL INITIAL BUCKLING '//
     >        'INCONSISTENT WITH X, Y, Z, R BUCKLING')
            ENDIF
 210      CONTINUE
          B2(1)=BSDIR(5)/3.0
          B2(2)=B2(1)
          B2(3)=B2(1)
          B2(4)=BSDIR(5)
        ELSE IF(IRSDIR(4).EQ.1) THEN
          DO 220 III=1,2
            IF(IRSDIR(III).EQ.1) THEN
              CALL XABORT('FLUGPI: RADIAL INITIAL BUCKLING '//
     >        'INCONSISTENT WITH X, Y BUCKLING')
            ENDIF
 220      CONTINUE
          B2(1)=BSDIR(4)/2.0
          B2(2)=B2(1)
          B2(3)=BSDIR(3)
          B2(4)=BSDIR(3)+BSDIR(4)
        ELSE
          B2(1)=BSDIR(1)
          B2(2)=BSDIR(2)
          B2(3)=BSDIR(3)
          B2(4)=BSDIR(1)+BSDIR(2)+BSDIR(3)
        ENDIF
        ILEAK=(ISDIR+1)*10+ILEAK
      ELSE
        IF(IRSDIR(4).NE.0.OR.IRSDIR(3).NE.0.OR.
     >     IRSDIR(2).NE.0.OR.IRSDIR(1).NE.0)
     >    CALL XABORT('FLUGPI: FOR HOMOGENEOUS LEAKAGE METHOD'//
     >    'DIRECTIONS X ,Y, Z AND R BUCKLING ARE ILLEGAL')
        B2(4)=BSDIR(5)
      ENDIF
      IF(EPSOUT.LT.1.0E-10) THEN
        CALL XABORT('FLUGPI: ERROR -- EPSOUT MUST BE GREATER '//
     >                       'THAN 1.0E-10')
      ENDIF
      IF(EPSINR.LT.1.0E-10) THEN
        CALL XABORT('FLUGPI: ERROR -- EPSINR MUST BE GREATER '//
     >                       'THAN 1.0E-10')
      ENDIF
      IF(EPSUNK.LE.1.0E-10) EPSUNK=EPSINR
      IF(ITYPEC.EQ.-99) CALL XABORT('FLUGPI: TYPE NOT DEFINED.')
      IF(MAXOUT.EQ.0)THEN
        IF(ITYPEC.LE.2) THEN
          MAXOUT=MAX(2*NREGIO-1,2*NIFISS-1)
        ELSE
          MAXOUT=MAX(10*NREGIO+1,10*NIFISS+1)
        ENDIF
      ENDIF
      RETURN
      END