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*DECK CREDRV
SUBROUTINE CREDRV(IPMAC,IPMAP,NENTRY,HENTRY,KENTRY,LMAC,NMIX,
1 NGRP,NL,ILEAK,IMPX)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Recover and/or interpolate l_compo information, store properties
* in a new or existing macrolib.
*
*Copyright:
* Copyright (C) 2007 Ecole Polytechnique de Montreal.
*
*Author(s):
* A. Hebert, M. Guyot
*
*Parameters: input/output
* IPMAC pointer to the macrolib information.
* IPMAP pointer to fuel-map information (=0 if no l_fmap).
* NENTRY number of lcm or xsm objects used by the module.
* HENTRY character*12 name of each lcm or xsm objects.
* KENTRY pointers to the lcm or xsm objects.
* LMAC flag for macrolib object type: =.false. in create mode;
* =.true. in modification mode.
* NMIX maximum number of material mixtures.
* NGRP number of energy groups.
* NL number of legendre orders (=1 for isotropic scattering).
* ILEAK diffusion coefficient flag (=1: isotropic; =2: anisotropic).
* IMPX printing index (=0 for no print).
*
*NOTE: a cross section not read is set to zero.
*
*-----------------------------------------------------------------------
*
USE GANLIB
*----
* SUBROUTINE ARGUMENTS
*----
INTEGER NENTRY,NMIX,NGRP,NL,ILEAK,IMPX
TYPE(C_PTR) IPMAC,IPMAP,KENTRY(NENTRY)
CHARACTER HENTRY(NENTRY)*12
LOGICAL LMAC
*----
* LOCAL VARIABLES
*----
CHARACTER CM*2
TYPE(C_PTR) JPMAC,KPMAC
INTEGER, ALLOCATABLE, DIMENSION(:) :: IPOS
INTEGER, ALLOCATABLE, DIMENSION(:,:,:) :: IJJ,NJJ
REAL, ALLOCATABLE, DIMENSION(:) :: WORK
REAL, ALLOCATABLE, DIMENSION(:,:) :: TOTAL,ZNUG,SNUGF,CHI,OVERV,
1 DIFFX,DIFFY,DIFFZ
REAL, ALLOCATABLE, DIMENSION(:,:,:) :: H
REAL, ALLOCATABLE, DIMENSION(:,:,:,:) :: SCAT
*----
* SCRATCH STORAGE ALLOCATION
*----
ALLOCATE(IPOS(NMIX),IJJ(NMIX,NL,NGRP),NJJ(NMIX,NL,NGRP))
ALLOCATE(TOTAL(NMIX,NGRP),ZNUG(NMIX,NGRP),SNUGF(NMIX,NGRP),
1 CHI(NMIX,NGRP),OVERV(NMIX,NGRP),DIFFX(NMIX,NGRP),
2 DIFFY(NMIX,NGRP),DIFFZ(NMIX,NGRP),WORK(NMIX*NGRP),
3 SCAT(NMIX,NL,NGRP,NGRP),H(NMIX,NGRP,NL))
*
TOTAL(:NMIX,:NGRP)=0.0
ZNUG(:NMIX,:NGRP)=0.0
SNUGF(:NMIX,:NGRP)=0.0
CHI(:NMIX,:NGRP)=0.0
OVERV(:NMIX,:NGRP)=0.0
DIFFX(:NMIX,:NGRP)=0.0
DIFFY(:NMIX,:NGRP)=0.0
DIFFZ(:NMIX,:NGRP)=0.0
WORK(:NMIX*NGRP)=0.0
SCAT(:NMIX,:NL,:NGRP,:NGRP)=0.0
H(:NMIX,:NGRP,:NL)=0.0
IPOS(:NMIX)=0
DO 12 IGR=1,NGRP
DO 11 IBM=1,NMIX
DO 10 IL=1,NL
IJJ(IBM,IL,IGR)=IGR
NJJ(IBM,IL,IGR)=1
10 CONTINUE
11 CONTINUE
12 CONTINUE
IF((IMPX.GT.1).AND.LMAC) CALL LCMLIB(IPMAC)
*----
* RECOVER THE EXISTING MACROLIB DATA
*----
ILEAK=0
IF(LMAC)THEN
JPMAC=LCMGID(IPMAC,'GROUP')
DO 40 JGR=1,NGRP
KPMAC=LCMGIL(JPMAC,JGR)
CALL LCMLEN(KPMAC,'NTOT0',ILENGT,ITYLCM)
IF(ILENGT.EQ.NMIX)THEN
CALL LCMGET(KPMAC,'NTOT0',TOTAL(1,JGR))
ELSEIF(ILENGT.NE.0)THEN
CALL XABORT('@CREDRV: INVALID INPUT MACROLIB(1).')
ENDIF
CALL LCMLEN(KPMAC,'NUSIGF',ILENGT,ITYLCM)
IF(ILENGT.EQ.NMIX)CALL LCMGET(KPMAC,'NUSIGF',ZNUG(1,JGR))
CALL LCMLEN(KPMAC,'NFTOT',ILENGT,ITYLCM)
IF(ILENGT.EQ.NMIX)CALL LCMGET(KPMAC,'NFTOT',SNUGF(1,JGR))
CALL LCMLEN(KPMAC,'CHI',ILENGT,ITYLCM)
IF(ILENGT.EQ.NMIX)CALL LCMGET(KPMAC,'CHI',CHI(1,JGR))
CALL LCMLEN(KPMAC,'OVERV',ILENGT,ITYLCM)
IF(ILENGT.EQ.NMIX)CALL LCMGET(KPMAC,'OVERV',OVERV(1,JGR))
CALL LCMLEN(KPMAC,'DIFF',ILENGT,ITYLCM)
IF(ILENGT.EQ.NMIX)THEN
ILEAK=1
CALL LCMGET(KPMAC,'DIFF',DIFFX(1,JGR))
ENDIF
CALL LCMLEN(KPMAC,'DIFFX',ILENGT,ITYLCM)
IF(ILENGT.EQ.NMIX)THEN
ILEAK=2
CALL LCMGET(KPMAC,'DIFFX',DIFFX(1,JGR))
CALL LCMGET(KPMAC,'DIFFY',DIFFY(1,JGR))
CALL LCMGET(KPMAC,'DIFFZ',DIFFZ(1,JGR))
ENDIF
CALL LCMLEN(KPMAC,'H-FACTOR',ILENGT,ITYLCM)
IF(ILENGT.EQ.NMIX)CALL LCMGET(KPMAC,'H-FACTOR',H(1,JGR,1))
DO IL=1,NL
WRITE (CM,'(I2.2)') IL-1
CALL LCMLEN(KPMAC,'SCAT'//CM,ILENGT,ITYLCM)
IF(ILENGT.GT.NMIX*NL*NGRP*NGRP)THEN
CALL XABORT('@CREDRV: INVALID INPUT MACROLIB(2).')
ELSEIF(ILENGT.GT.0)THEN
CALL LCMGET(KPMAC,'SCAT'//CM,WORK)
CALL LCMGET(KPMAC,'NJJS'//CM,NJJ(1,IL,JGR))
CALL LCMGET(KPMAC,'IJJS'//CM,IJJ(1,IL,JGR))
IPOSDE=0
DO 25 IBM=1,NMIX
IJJ0=IJJ(IBM,IL,JGR)
DO 20 IGR=IJJ0,IJJ0-NJJ(IBM,IL,JGR)+1,-1
IPOSDE=IPOSDE+1
SCAT(IBM,IL,IGR,JGR)=WORK(IPOSDE)
20 CONTINUE
25 CONTINUE
ELSE
CALL XABORT('@CREDRV: OLD FORMAT OF THE MACROLIB.')
ENDIF
ENDDO
40 CONTINUE
ENDIF
*----
* READ INPUT DATA
*----
CALL CREXSI(IPMAP,NENTRY,HENTRY,KENTRY,NMIX,NGRP,NL,ILEAK,IMPX,
1 TOTAL,ZNUG,SNUGF,CHI,OVERV,DIFFX,DIFFY,DIFFZ,H,IJJ,NJJ,SCAT)
*----
* MACROLIB DATA STORAGE
*----
JPMAC=LCMLID(IPMAC,'GROUP',NGRP)
DO 190 JGR=1,NGRP
KPMAC=LCMDIL(JPMAC,JGR)
CALL LCMPUT(KPMAC,'NTOT0',NMIX,2,TOTAL(1,JGR))
CALL LCMPUT(KPMAC,'NUSIGF',NMIX,2,ZNUG(1,JGR))
CALL LCMPUT(KPMAC,'NFTOT',NMIX,2,SNUGF(1,JGR))
CALL LCMPUT(KPMAC,'CHI',NMIX,2,CHI(1,JGR))
CALL LCMPUT(KPMAC,'OVERV',NMIX,2,OVERV(1,JGR))
IF(ILEAK.EQ.1)THEN
CALL LCMPUT(KPMAC,'DIFF',NMIX,2,DIFFX(1,JGR))
ELSEIF(ILEAK.EQ.2)THEN
CALL LCMPUT(KPMAC,'DIFFX',NMIX,2,DIFFX(1,JGR))
CALL LCMPUT(KPMAC,'DIFFY',NMIX,2,DIFFY(1,JGR))
CALL LCMPUT(KPMAC,'DIFFZ',NMIX,2,DIFFZ(1,JGR))
ENDIF
CALL LCMPUT(KPMAC,'H-FACTOR',NMIX,2,H(1,JGR,1))
190 CONTINUE
*----
* SCATTERING DATA
*----
H(:NMIX,:NGRP,:NL)=0.0
DO 215 JGR=1,NGRP
KPMAC=LCMDIL(JPMAC,JGR)
DO 210 IL=1,NL
WRITE (CM,'(I2.2)') IL-1
IPOSDE=0
DO 205 IBM=1,NMIX
IPOS(IBM)=IPOSDE+1
DO 200 IGR=IJJ(IBM,IL,JGR),IJJ(IBM,IL,JGR)-NJJ(IBM,IL,JGR)+1,-1
IPOSDE=IPOSDE+1
WORK(IPOSDE)=SCAT(IBM,IL,IGR,JGR)
H(IBM,IGR,IL)=H(IBM,IGR,IL)+SCAT(IBM,IL,IGR,JGR)
200 CONTINUE
205 CONTINUE
CALL LCMPUT(KPMAC,'SCAT'//CM,IPOSDE,2,WORK)
CALL LCMPUT(KPMAC,'IPOS'//CM,NMIX,1,IPOS)
CALL LCMPUT(KPMAC,'NJJS'//CM,NMIX,1,NJJ(1,IL,JGR))
CALL LCMPUT(KPMAC,'IJJS'//CM,NMIX,1,IJJ(1,IL,JGR))
CALL LCMPUT(KPMAC,'SIGW'//CM,NMIX,2,SCAT(1,IL,JGR,JGR))
210 CONTINUE
215 CONTINUE
DO 225 IGR=1,NGRP
KPMAC=LCMDIL(JPMAC,IGR)
DO 220 IL=1,NL
WRITE (CM,'(I2.2)') IL-1
CALL LCMPUT(KPMAC,'SIGS'//CM,NMIX,2,H(1,IGR,IL))
IF(IMPX.GT.2)CALL LCMLIB(KPMAC)
220 CONTINUE
225 CONTINUE
*
IF(IMPX.GT.1)CALL LCMLIB(IPMAC)
*----
* SCRATCH STORAGE DEALLOCATION
*----
DEALLOCATE(H,SCAT,WORK,DIFFZ,DIFFY,DIFFX,OVERV,CHI,SNUGF,ZNUG,
1 TOTAL)
DEALLOCATE(NJJ,IJJ,IPOS)
RETURN
END
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