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*DECK LIBNOT
SUBROUTINE LIBNOT (IPLIB,NGRO,NL,NDIL,NED,NDEL,IMPX,LSCAT,LSIGF,
1 LADD,DILUT,FLUX,TOTAL,SIGF,SIGS,SCAT,SADD,ZDEL,HVECT)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Write the incremental x-s data on a temperature-independant Draglib.
*
*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): A. Hebert
*
*Parameters: input
* IPLIB pointer to the internal library (L_LIBRARY signature).
* NGRO number of energy groups.
* NL number of Legendre orders required in the calculation
* (NL=1 or higher).
* NDIL number of finite dilutions.
* NED number of extra vector edits.
* NDEL number of delayed neutron precursor groups.
* IMPX print flag.
* LSCAT Legendre flag (=.true. if a given Legendre order of the
* scattering cross section exists).
* LSIGF fission flag (=.true. if the isotope can fission).
* LADD additional xs flag (=.true. if a given additional cross
* section exists).
* DILUT dilutions.
* FLUX weighting flux.
* TOTAL total cross sections.
* SIGF nu*fission cross sections.
* SIGS diffusion cross sections.
* SCAT scattering transfer matrices (sec,prim,Legendre,dilution).
* SADD additional cross sections.
* ZDEL delayed nu-sigf cross sections.
* HVECT names of the extra vector edits.
*
*-----------------------------------------------------------------------
*
USE GANLIB
*----
* SUBROUTINE ARGUMENTS
*----
TYPE(C_PTR) IPLIB
INTEGER NGRO,NL,NDIL,NED,NDEL,IMPX
REAL DILUT(NDIL+1),FLUX(NGRO,NDIL+1),TOTAL(NGRO,NDIL+1),
1 SIGF(NGRO,NDIL+1),SIGS(NGRO,NL,NDIL+1),SCAT(NGRO,NGRO,NL,NDIL+1),
2 SADD(NGRO,NED,NDIL+1),ZDEL(NGRO,NDEL,NDIL+1)
LOGICAL LSIGF,LSCAT(NL),LADD(NED)
CHARACTER HVECT(NED)*8
*----
* LOCAL VARIABLES
*----
CHARACTER TEXT12*12,CD*4
INTEGER, ALLOCATABLE, DIMENSION(:) :: ITYPRO
REAL, ALLOCATABLE, DIMENSION(:) :: GAS
REAL, ALLOCATABLE, DIMENSION(:,:) :: GA1
REAL, ALLOCATABLE, DIMENSION(:,:,:) :: GA2
*----
* SCRATCH STORAGE ALLOCATION
*----
ALLOCATE(ITYPRO(NL))
ALLOCATE(GAS(NGRO),GA1(NGRO,NL),GA2(NGRO,NGRO,NL))
*
CALL LCMPUT(IPLIB,'DILUTION',NDIL,2,DILUT)
DO 130 IDIL=1,NDIL
WRITE (CD,'(I4.4)') IDIL
CALL LCMSIX(IPLIB,'SUBMAT'//CD,1)
DO 10 IG1=1,NGRO
GAS(IG1)=FLUX(IG1,IDIL)-1.0
10 CONTINUE
CALL LCMPUT(IPLIB,'NWT0',NGRO,2,GAS)
DO 20 IG1=1,NGRO
GAS(IG1)=TOTAL(IG1,IDIL)*FLUX(IG1,IDIL)-TOTAL(IG1,NDIL+1)
20 CONTINUE
CALL LCMPUT(IPLIB,'NTOT0',NGRO,2,GAS)
IF(LSIGF) THEN
DO 30 IG1=1,NGRO
GAS(IG1)=SIGF(IG1,IDIL)*FLUX(IG1,IDIL)-SIGF(IG1,NDIL+1)
30 CONTINUE
CALL LCMPUT(IPLIB,'NUSIGF',NGRO,2,GAS)
ENDIF
INGRO=NL-1
DO 40 IL=NL-1,0,-1
IF(.NOT.LSCAT(IL+1)) THEN
INGRO=INGRO-1
ELSE
GO TO 50
ENDIF
40 CONTINUE
50 DO 80 IL=1,INGRO+1
IF(LSCAT(IL)) THEN
DO 65 IG1=1,NGRO
GA1(IG1,IL)=SIGS(IG1,IL,IDIL)*FLUX(IG1,IDIL)-
1 SIGS(IG1,IL,NDIL+1)
DO 60 IG2=1,NGRO
GA2(IG1,IG2,IL)=SCAT(IG1,IG2,IL,IDIL)*FLUX(IG2,IDIL)-
1 SCAT(IG1,IG2,IL,NDIL+1)
60 CONTINUE
65 CONTINUE
ELSE
DO 75 IG1=1,NGRO
GA1(IG1,IL)=0.0
DO 70 IG2=1,NGRO
GA2(IG1,IG2,IL)=0.0
70 CONTINUE
75 CONTINUE
ENDIF
80 CONTINUE
CALL XDRLGS(IPLIB,1,IMPX,0,INGRO,1,NGRO,GA1,GA2,ITYPRO)
DO 100 IED=1,NED
IF(LADD(IED)) THEN
DO 90 IG1=1,NGRO
GAS(IG1)=SADD(IG1,IED,IDIL)*FLUX(IG1,IDIL)-SADD(IG1,IED,NDIL+1)
90 CONTINUE
CALL LCMPUT(IPLIB,HVECT(IED),NGRO,2,GAS)
ENDIF
100 CONTINUE
DO 120 IDEL=1,NDEL
WRITE(TEXT12,'(6HNUSIGF,I2.2)') IDEL
DO 110 IG1=1,NGRO
GAS(IG1)=ZDEL(IG1,IDEL,IDIL)*FLUX(IG1,IDIL)-ZDEL(IG1,IDEL,NDIL+1)
110 CONTINUE
CALL LCMPUT(IPLIB,TEXT12,NGRO,2,GAS)
120 CONTINUE
CALL LCMSIX(IPLIB,' ',2)
130 CONTINUE
IF(IMPX.GT.3) CALL LCMLIB(IPLIB)
*----
* SCRATCH STORAGE DEALLOCATION
*----
DEALLOCATE(GA2,GA1,GAS)
DEALLOCATE(ITYPRO)
RETURN
END
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