read_exsegn.f90

!MNH_LIC Copyright 1994-2014 CNRS, Meteo-France and Universite Paul Sabatier
!MNH_LIC This is part of the Meso-NH software governed by the CeCILL-C licence
!MNH_LIC version 1. See LICENSE, CeCILL-C_V1-en.txt and CeCILL-C_V1-fr.txt  
!MNH_LIC for details. version 1.
!-----------------------------------------------------------------
!--------------- special set of characters for RCS information
!-----------------------------------------------------------------
! $Source$ $Revision$
! masdev4_8 2008/07/09 16:40:30
!-----------------------------------------------------------------
!     ###################### 
      MODULE MODI_READ_EXSEG_n
!     ######################
!
INTERFACE
!
      SUBROUTINE READ_EXSEG_n(KMI,HEXSEG,HLUOUT,HCONF,OFLAT,OUSERV,                &
                   OUSERC,OUSERR,OUSERI,OUSECI,OUSERS,OUSERG,OUSERH,               &
                   OUSECHEM,OUSECHAQ,OUSECHIC,OCH_PH,OCH_CONV_LINOX,OSALT,         &
                   ODEPOS_SLT, ODUST,ODEPOS_DST,                                   &
                   OORILAM,ODEPOS_AER, OLG,OPASPOL,                                &
#ifdef MNH_FOREFIRE
                   OFOREFIRE,                                                      &
#endif
                   OCONDSAMP,                                                      &
                   KRIMX,KRIMY, KSV_USER,                                          &
                   HTURB,HTOM,ORMC01,HRAD,HDCONV,HSCONV,HCLOUD,HELEC,              &
                   HEQNSYS,PTSTEP_ALL,HSTORAGE_TYPE,HINIFILEPGD                    )
INTEGER,            INTENT(IN) :: KMI    ! Model index
CHARACTER (LEN=*),  INTENT(IN) :: HEXSEG ! name of the EXSEG file
CHARACTER (LEN=*),  INTENT(IN) :: HLUOUT ! Name  for outputlisting  
!     The following variables are read by READ_DESFM in DESFM descriptor : 
CHARACTER (LEN=*),  INTENT(IN) :: HCONF  ! configuration var. linked to FMfile
LOGICAL,            INTENT(IN) :: OFLAT  ! Logical for zero orography
LOGICAL,            INTENT(IN) :: OUSERV,OUSERC,OUSERR,OUSERI,OUSERS, &
                                  OUSERG,OUSERH  ! kind of moist variables in 
                                                 ! FMfile
LOGICAL,            INTENT(IN) :: OUSECI         ! ice concentration in
                                                 ! FMfile
LOGICAL,            INTENT(IN) :: OUSECHEM       ! Chemical FLAG in FMFILE
LOGICAL,            INTENT(IN) :: OUSECHAQ       ! Aqueous chemical FLAG in FMFILE
LOGICAL,            INTENT(IN) :: OUSECHIC       ! Ice chemical FLAG in FMFILE
LOGICAL,            INTENT(IN) :: OCH_PH         ! pH FLAG in FMFILE
LOGICAL,            INTENT(IN) :: OCH_CONV_LINOX ! LiNOx FLAG in FMFILE
LOGICAL,            INTENT(IN) :: ODUST          ! Dust FLAG in FMFILE
LOGICAL,DIMENSION(:), INTENT(IN)  :: ODEPOS_DST  ! Dust wet deposition FLAG in FMFILE     
LOGICAL,DIMENSION(:), INTENT(IN)  :: ODEPOS_SLT  ! Sea Salt wet deposition FLAG in FMFILE     
LOGICAL,DIMENSION(:), INTENT(IN)  :: ODEPOS_AER  ! Orilam wet deposition FLAG in FMFILE     
LOGICAL,            INTENT(IN) :: OSALT          ! Sea Salt FLAG in FMFILE
LOGICAL,            INTENT(IN) :: OORILAM        ! Orilam FLAG in FMFILE
LOGICAL,            INTENT(IN) :: OPASPOL        ! Passive pollutant FLAG in FMFILE
#ifdef MNH_FOREFIRE
LOGICAL,            INTENT(IN) :: OFOREFIRE      ! ForeFire FLAG in FMFILE
#endif
LOGICAL,            INTENT(IN) :: OCONDSAMP      ! Conditional sampling FLAG in FMFILE

LOGICAL,            INTENT(IN) :: OLG            ! lagrangian FLAG in FMFILE
INTEGER,            INTENT(IN) :: KRIMX, KRIMY   ! number of points for the
                       ! horizontal relaxation for the outermost verticals
INTEGER,            INTENT(IN) :: KSV_USER    ! number of additional scalar
                                         ! variables in FMfile 
CHARACTER (LEN=*),  INTENT(IN) :: HTURB  ! Kind of turbulence parameterization
                                         ! used to  produce FMFILE
CHARACTER (LEN=*),  INTENT(IN) :: HTOM   ! Kind of third order moment
LOGICAL,            INTENT(IN) :: ORMC01 ! flag for RMC01 SBL computations
CHARACTER (LEN=*),  INTENT(IN) :: HRAD   ! Kind of radiation scheme
CHARACTER (LEN=4),  INTENT(IN) :: HDCONV ! Kind of deep convection scheme
CHARACTER (LEN=4),  INTENT(IN) :: HSCONV ! Kind of shallow convection scheme
CHARACTER (LEN=4),  INTENT(IN) :: HCLOUD ! Kind of microphysical scheme
CHARACTER (LEN=4),  INTENT(IN) :: HELEC  ! Kind of electrical scheme
CHARACTER (LEN=*),  INTENT(IN) :: HEQNSYS! type of equations' system
REAL,DIMENSION(:),  INTENT(INOUT):: PTSTEP_ALL ! Time STEP of ALL models
CHARACTER (LEN=*),  INTENT(IN) :: HSTORAGE_TYPE ! type of initial file
CHARACTER (LEN=*),  INTENT(IN) :: HINIFILEPGD ! name of PGD file
!
END SUBROUTINE READ_EXSEG_n
!
END INTERFACE
!
END MODULE MODI_READ_EXSEG_n
!
!
!     #########################################################################
      SUBROUTINE READ_EXSEG_n(KMI,HEXSEG,HLUOUT,HCONF,OFLAT,OUSERV,                &
                   OUSERC,OUSERR,OUSERI,OUSECI,OUSERS,OUSERG,OUSERH,               &
                   OUSECHEM,OUSECHAQ,OUSECHIC,OCH_PH,OCH_CONV_LINOX,OSALT,         &
                   ODEPOS_SLT, ODUST,ODEPOS_DST,                                   &
                   OORILAM,ODEPOS_AER, OLG,OPASPOL,                                &
#ifdef MNH_FOREFIRE
                   OFOREFIRE,                                                      &
#endif
                   OCONDSAMP,                                                      &
                   KRIMX,KRIMY, KSV_USER,                                          &
                   HTURB,HTOM,ORMC01,HRAD,HDCONV,HSCONV,HCLOUD,HELEC,              &
                   HEQNSYS,PTSTEP_ALL,HSTORAGE_TYPE,HINIFILEPGD                    )
!     #########################################################################
!
!!****  *READ_EXSEG_n * - routine to read  the descriptor file EXSEG
!!
!!    PURPOSE
!!    -------
!       The purpose of this routine is to read the descriptor file called 
!     EXSEG and to control the coherence with FMfile data . 
!       
!!
!!**  METHOD
!!    ------
!!      Logical unit number of EXSEG file is retrieved by calling FMLOOK.
!!      Then, the descriptor file is read. Namelists (NAMXXXn) which contain
!!    variables linked to one nested model are at the beginning of the file.
!!    Namelists (NAMXXX) which contain variables common to all models
!!    are at the end of the file. When the  model index is different from 1, 
!!    the end of the file (namelists NAMXXX) is not read. 
!!
!!      Coherence between the initial file (description read in DESFM file)
!!    and the segment to perform (description read in EXSEG file)
!!    is checked for segment achievement  configurations 
!!    or  postprocessing configuration. The get indicators are set according 
!!      to the following check :
!!
!!      - segment achievement and preinit configurations :
!!
!!       * if there is no turbulence kinetic energy in  initial
!!      file (HTURB='NONE'), and the segment to perform requires a turbulence
!!      parameterization (CTURB /= 'NONE'), the get indicators for turbulence 
!!      kinetic energy variables are set to 'INIT'; i.e. these variables will be
!!      set equal to  zero by READ_FIELD according to the get indicators.
!!       * The same procedure is applied to the dissipation of TKE. 
!!       * if there is no moist variables RRn  in  initial file (OUSERn=.FALSE.)
!!      and the segment to perform requires  moist variables RRn
!!      (LUSERn=.TRUE.),  the get indicators for moist variables RRn are set
!!      equal to 'INIT'; i.e. these variables will be set equal to  zero by 
!!      READ_FIELD according to the get indicators.
!!       * if there are KSV_USER additional scalar variables in initial file and the
!!      segment to perform needs more than KSV_USER additional variables,  the get
!!      indicators for these (NSV_USER-KSV_USER) additional scalar variables are set 
!!      equal to 'INIT'; i.e. these variables will be set equal to  zero by 
!!      READ_FIELD according to the get indicators. If the segment to perform
!!      needs less additional scalar variables than there are in initial file,
!!      the get indicators for these (KSV_USER - NSV_USER) additional scalar variables are
!!      set equal to 'SKIP'.      
!!       * warning messages are printed if the fields in initial file are the
!!      same at time t and t-dt (HCONF='START') and  a leap-frog advance 
!!      at first time step will be used  for the segment to perform
!!      (CCONF='RESTA'); It is likewise when HCONF='RESTA' and CCONF='START'.
!!       * A warning message is printed if the orography in initial file is zero
!!      (OFLAT=.TRUE.) and the segment to perform considers no-zero orography
!!      (LFLAT=.FALSE.). It is likewise for LFLAT=.TRUE. and OFLAT=.FALSE..
!!       If the segment to perform requires zero orography (LFLAT=.TRUE.), the
!!       orography (XZS) will not read in initial file but  set equal to zero 
!!       by SET_GRID.  
!!       * check of the depths of the Lateral Damping Layer in x and y 
!!       direction is performed
!!       * If some coupling files are specified, LSTEADYLS is set to T
!!       * If no coupling files are specified, LSTEADYLS is set to F
!!
!!
!!    EXTERNAL
!!    --------
!!      FMLOOK      : to retrieve the logical unit number of descriptor
!!                    or LFI files
!!
!!    IMPLICIT ARGUMENTS
!!    ------------------
!!     Module MODN_CONF : CCONF,LTHINSHELL,LFLAT,NMODEL,NVERB     
!!
!!      Module MODN_DYN : LCORIO, LZDIFFU
!!
!!      Module MODN_NESTING : NDAD(m),NDTRATIO(m),XWAY(m)
!!
!!      Module MODN_BUDGET : CBUTYPE,XBULEN
!!
!!      Module MODN_CONF1 : LUSERV,LUSERC,LUSERR,LUSERI,LUSERS,LUSERG,LUSERH,CSEG
!!
!!      Module MODN_DYN1 : XTSTEP,CPRESOPT,NITR,XRELAX
!!
!!      Module MODD_ADV1 : CMET_ADV_SCHEME,CSV_ADV_SCHEME,CUVW_ADV_SCHEME,NLITER
!!
!!      Module MODN_PARAM1 : CTURB,CRAD,CDCONV,CSCONV
!!
!!      Module MODN_LUNIT1 : 
!!      Module MODN_LBC1 : CLBCX,CLBCY,NLBLX,NLBLY,XCPHASE
!!
!!      Module MODN_TURB_n : CTURBLEN,CTURBDIM
!!
!!      Module MODD_GET1: 
!!        CGETTKEM,CGETTKET,
!!        CGETRVM,CGETRCM,CGETRRM,CGETRIM,CGETRSM,CGETRGM,CGETRHM
!!        CGETRVT,CGETRCT,CGETRRT,CGETRIT,CGETRST,CGETRGT,CGETRHT,CGETSVM
!!        CGETSVT,CGETSIGS,CGETSRCM,CGETSRCT 
!!        NCPL_NBR,NCPL_TIMES,NCPL_CUR
!!      Module MODN_LES  : contains declaration of the control parameters
!!                                for Large Eddy Simulations' storages
!!                                for the forcing
!!
!!    REFERENCE
!!    ---------
!!      Book2 of the  documentation (routine READ_EXSEG_n)
!!      
!!
!!    AUTHOR
!!    ------
!!  	V. Ducrocq       * Meteo France *
!!
!!    MODIFICATIONS
!!    -------------
!!      Original    07/06/94 
!!      Modification   26/10/94  (Stein)  remove NAM_GET from the Namelists
!!      present in DESFM + change the namelist names
!!      Modification   22/11/94  (Stein)  add GET indicator for phi
!!      Modification   21/12/94  (Stein)  add GET indicator for LS fields  
!!      Modification   06/01/95  (Stein)  bug in the test for Scalar Var.
!!      Modifications  09/01/95  (Stein)  add the turbulence scheme
!!      Modifications  09/01/95  (Stein)  add the 1D switch
!!      Modifications  10/03/95  (Mallet) add coherence in coupling case
!!      Modifications  16/03/95  (Stein)  remove R from the historical variables
!!      Modifications  01/03/95  (Hereil) add the budget namelists
!!      Modifications  16/06/95  (Stein)  coherence control for the
!!                microphysical scheme + remove the wrong messge for RESTA conf
!!      Modifications  30/06/95  (Stein)  conditionnal reading of the fields
!!                used by the moist turbulence scheme
!!      Modifications  12/09/95  (Pinty)  add the radiation scheme
!!      Modification   06/02/96  (J.Vila) implement scalar advection schemes
!!      Modifications  24/02/96  (Stein)  change the default value for CCPLFILE
!!      Modifications  02/05/96  (Stein Jabouille) change the Z0SEA activation
!!      Modifications  24/05/96  (Stein)  change the SRC SIGS control
!!      Modifications  08/09/96  (Masson) the coupling file names are reset to
!!                               default value " " before reading in EXSEG1.nam
!!                               to avoid extra non-existant coupling files
!!
!!      Modifications  25/04/95  (K.Suhre)add namelist NAM_BLANK
!!                                        add read for LFORCING
!!                     25/04/95  (K.Suhre)add namelist NAM_FRC
!!                                        and switch checking
!!                     06/08/96  (K.Suhre)add namelist NAM_CH_MNHCn
!!                                        and NAM_CH_SOLVER
!!      Modifications  10/10/96  (Stein)  change SRC into SRCM and SRCT
!!      Modifications  11/04/96  (Pinty)  add the rain-ice microphysical scheme
!!      Modifications  11/01/97  (Pinty)  add the deep convection scheme
!!      Modifications  22/05/97  (Lafore) gridnesting implementation
!!      Modifications  22/06/97  (Stein)  add the absolute pressure + cleaning
!!      Modifications  25/08/97  (Masson) add tests on surface schemes
!!                     22/10/97  (Stein) remove the RIMX /= 0 control
!!                                       + new namelist + cleaning
!!      Modifications  17/04/98  (Masson) add tests on character variables
!!      Modification   15/03/99  (Masson) add tests on PROGRAM
!!      Modification   04/01/00  (Masson) removes TSZ0 case
!!      Modification   04/06/00  (Pinty)  add C2R2 scheme
!!                     11/12/00  (Tomasini) add CSEA_FLUX to MODD_PARAMn
!!                                          delete the test on SST_FRC only in 1D
!!      Modification   22/01/01  (Gazen)  change NSV,KSV to NSV_USER,KSV_USER and add
!!                                        NSV_* variables initialization
!!      Modification   15/10/01  (Mallet) allow namelists in different orders
!!      Modification   18/03/02  (Solmon)  new radiation scheme test
!!      Modification   29/11/02 (JP Pinty) add C3R5, ICE2, ICE4, ELEC
!!      Modification   06/11/02  (Masson)  new LES BL height diagnostic
!!      Modification   06/11/02  (Jabouille)  remove LTHINSHELL LFORCING test
!!      Modification   01/12/03  (Gazen)   change Chemical scheme interface
!!      Modification   01/2004   (Masson) removes surface (externalization)
!!      Modification   01/2005   (Masson) removes 1D and 2D switches
!!      Modification   04/2005   (Tulet)  add dust, orilam
!!      Modification   03/2006   (O.Geoffroy) Add KHKO scheme
!!      Modification   04/2006   (Maric)  include 4th order advection scheme
!!      Modification   05/2006   (Masson) add nudging
!!      Modification   05/2006   Remove KEPS
!!      Modification   04/2006   (Maric)  include PPM advection scheme
!!      Modification   04/2006   (J.Escobar) Bug dollarn add CALL UPDATE_NAM_CONFN  
!!      Modifications  01/2007   (Malardel,Pergaud)  add the MF shallow
!!                               convection scheme MODN_PARAM_MFSHALL_n
!!      Modification   09/2009   (J.Escobar) add more info on relaxation problems
!!      Modification   09/2011   (J.Escobar) re-add 'ZRESI' choose
!!      Modification   12/2011   (C.Lac) Adaptation to FIT temporal scheme 
!!      Modification   12/2012   (S.Bielli) add NAM_NCOUT for netcdf output
!!      Modification   02/2012   (Pialat/Tulet) add ForeFire
!!------------------------------------------------------------------------------
!
!*       0.    DECLARATIONS
!              ------------
USE MODD_PARAMETERS
USE MODD_CONF
USE MODD_CONFZ
USE MODD_CONF_n, ONLY : CSTORAGE_TYPE
!
#ifdef MNH_NCWRIT
USE MODD_NCOUT
USE MODN_NCOUT
#endif
!
USE MODN_BUDGET
USE MODN_LES
USE MODN_CONF
USE MODN_CONFZ
USE MODN_FRC
USE MODN_DYN
USE MODN_NESTING
USE MODN_FMOUT
USE MODN_CONF_n
USE MODN_LBC_n      ! routine is used for each nested model. This has been done 
USE MODN_DYN_n      ! to avoid the duplication of this routine for each model.
USE MODN_ADV_n      ! The final filling of these modules for the model n is
USE MODN_PARAM_n    ! realized in subroutine ini_model n
USE MODN_PARAM_RAD_n
USE MODN_PARAM_KAFR_n
USE MODN_PARAM_MFSHALL_n
USE MODN_PARAM_ICE
USE MODN_LUNIT_n
USE MODN_NUDGING_n
USE MODN_TURB_n
USE MODN_BLANK
USE MODN_CH_MNHC_n
USE MODN_CH_SOLVER_n
USE MODN_PARAM_C2R2
USE MODN_PARAM_C1R3
USE MODN_ELEC
USE MODN_SERIES
USE MODN_SERIES_n 
USE MODN_TURB_CLOUD
USE MODN_TURB
USE MODN_MEAN
USE MODN_DRAGTREE
USE MODN_LATZ_EDFLX
!
USE MODD_NSV,NSV_USER_n=>NSV_USER
USE MODD_DYN
USE MODD_GET_n
USE MODD_GR_FIELD_n
!
USE MODE_POS
USE MODE_FM
USE MODE_IO_ll
!
USE MODI_TEST_NAM_VAR
USE MODI_INI_NSV
USE MODI_CH_INIT_SCHEME_n
USE MODN_CH_ORILAM
USE MODD_CH_AEROSOL
USE MODD_DUST
USE MODD_SALT
USE MODD_PASPOL
#ifdef MNH_FOREFIRE
USE MODD_FOREFIRE
USE MODN_FOREFIRE
#endif
USE MODD_CONDSAMP
USE MODN_DUST
USE MODN_SALT
USE MODD_CH_M9_n, ONLY : NEQ
USE MODN_PASPOL
USE MODN_CONDSAMP
USE MODN_2D_FRC
!
IMPLICIT NONE
!
!*       0.1   declarations of arguments
!
!
!
INTEGER,            INTENT(IN) :: KMI    ! Model index
CHARACTER (LEN=*),  INTENT(IN) :: HEXSEG ! name of the EXSEG file
CHARACTER (LEN=*),  INTENT(IN) :: HLUOUT ! Name  for outputlisting  
!     The following variables are read by READ_DESFM in DESFM descriptor : 
CHARACTER (LEN=*),  INTENT(IN) :: HCONF  ! configuration var. linked to FMfile
LOGICAL,            INTENT(IN) :: OFLAT  ! Logical for zero orography
LOGICAL,            INTENT(IN) :: OUSERV,OUSERC,OUSERR,OUSERI,OUSERS, &
                                  OUSERG,OUSERH  ! kind of moist variables in 
                                                 ! FMfile
LOGICAL,            INTENT(IN) :: OUSECI         ! ice concentration in
                                                 ! FMfile
LOGICAL,            INTENT(IN) :: OUSECHEM       ! Chemical FLAG in FMFILE
LOGICAL,            INTENT(IN) :: OUSECHAQ       ! Aqueous chemical FLAG in FMFILE
LOGICAL,            INTENT(IN) :: OUSECHIC       ! Ice chemical FLAG in FMFILE
LOGICAL,            INTENT(IN) :: OCH_PH         ! pH FLAG in FMFILE
LOGICAL,            INTENT(IN) :: OCH_CONV_LINOX ! LiNOx FLAG in FMFILE
LOGICAL,            INTENT(IN) :: ODUST          ! Dust FLAG in FMFILE
LOGICAL,DIMENSION(:), INTENT(IN) :: ODEPOS_DST   ! Dust Deposition FLAG in FMFILE
LOGICAL,DIMENSION(:), INTENT(IN) :: ODEPOS_SLT   ! Sea Salt wet deposition FLAG in FMFILE     
LOGICAL,DIMENSION(:), INTENT(IN) :: ODEPOS_AER   ! Orilam wet deposition FLAG in FMFILE     
LOGICAL,            INTENT(IN) :: OSALT          ! Sea Salt FLAG in FMFILE
LOGICAL,            INTENT(IN) :: OORILAM        ! Orilam FLAG in FMFILE
LOGICAL,            INTENT(IN) :: OPASPOL        ! Passive pollutant FLAG in FMFILE
#ifdef MNH_FOREFIRE
LOGICAL,            INTENT(IN) :: OFOREFIRE      ! ForeFire FLAG in FMFILE
#endif
LOGICAL,            INTENT(IN) :: OCONDSAMP      ! Conditional sampling FLAG in FMFILE

LOGICAL,            INTENT(IN) :: OLG            ! lagrangian FLAG in FMFILE
INTEGER,            INTENT(IN) :: KRIMX, KRIMY   ! number of points for the
                       ! horizontal relaxation for the outermost verticals
INTEGER,            INTENT(IN) :: KSV_USER    ! number of additional scalar
                                         ! variables in FMfile 
CHARACTER (LEN=*),  INTENT(IN) :: HTURB  ! Kind of turbulence parameterization
                                         ! used to  produce FMFILE
CHARACTER (LEN=*),  INTENT(IN) :: HTOM   ! Kind of third order moment
LOGICAL,            INTENT(IN) :: ORMC01 ! flag for RMC01 SBL computations
CHARACTER (LEN=*),  INTENT(IN) :: HRAD   ! Kind of radiation scheme
CHARACTER (LEN=4),  INTENT(IN) :: HDCONV ! Kind of deep convection scheme
CHARACTER (LEN=4),  INTENT(IN) :: HSCONV ! Kind of shallow convection scheme
CHARACTER (LEN=4),  INTENT(IN) :: HCLOUD ! Kind of microphysical scheme
CHARACTER (LEN=4),  INTENT(IN) :: HELEC  ! Kind of electrical scheme
CHARACTER (LEN=*),  INTENT(IN) :: HEQNSYS! type of equations' system
REAL,DIMENSION(:),  INTENT(INOUT):: PTSTEP_ALL ! Time STEP of ALL models
CHARACTER (LEN=*),  INTENT(IN) :: HSTORAGE_TYPE ! type of initial file
CHARACTER (LEN=*),  INTENT(IN) :: HINIFILEPGD ! name of PGD file
!
!*       0.2   declarations of local variables
!
INTEGER :: IRESP,ILUSEG,ILUOUT ! return code of FMLOOK and logical unit numbers
                               ! of EXSEG file and outputlisting
INTEGER :: JS,JCI,JI,JSV       ! Loop indexes 
LOGICAL :: GRELAX              
LOGICAL :: GFOUND              ! Return code when searching namelist
!
INTEGER :: IMOMENTS, JMODE, IMODEIDX, JMOM, JSV_NAME
!
!-------------------------------------------------------------------------------
!
!*       1.    READ EXSEG FILE
!              ---------------
!
CALL FMLOOK_ll(HEXSEG,HLUOUT,ILUSEG,IRESP)
CALL FMLOOK_ll(HLUOUT,HLUOUT,ILUOUT,IRESP)
!
CALL INIT_NAM_LUNITN
CCPLFILE(:)="                            "
CALL INIT_NAM_CONFN
CALL INIT_NAM_DYNN
CALL INIT_NAM_ADVN
CALL INIT_NAM_PARAMN
CALL INIT_NAM_PARAM_RADN
CALL INIT_NAM_PARAM_KAFRN
CALL INIT_NAM_PARAM_MFSHALLN
CALL INIT_NAM_LBCN
CALL INIT_NAM_NUDGINGN
CALL INIT_NAM_TURBN
CALL INIT_NAM_CH_MNHCN
CALL INIT_NAM_CH_SOLVERN
CALL INIT_NAM_SERIESN
!
WRITE(UNIT=ILUOUT,FMT="(/,'READING THE EXSEG.NAM FILE')")
CALL POSNAM(ILUSEG,'NAM_LUNITN',GFOUND,ILUOUT)
IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_LUNITn)
CALL POSNAM(ILUSEG,'NAM_CONFN',GFOUND,ILUOUT)
IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_CONFn)
CALL POSNAM(ILUSEG,'NAM_DYNN',GFOUND,ILUOUT)
IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_DYNn)
CALL POSNAM(ILUSEG,'NAM_ADVN',GFOUND,ILUOUT)
IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_ADVn)
CALL POSNAM(ILUSEG,'NAM_PARAMN',GFOUND,ILUOUT)
IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_PARAMn)
CALL POSNAM(ILUSEG,'NAM_PARAM_RADN',GFOUND,ILUOUT)
IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_PARAM_RADn)
CALL POSNAM(ILUSEG,'NAM_PARAM_KAFRN',GFOUND,ILUOUT)
IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_PARAM_KAFRn)
CALL POSNAM(ILUSEG,'NAM_PARAM_MFSHALLN',GFOUND,ILUOUT)
IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_PARAM_MFSHALLn)
CALL POSNAM(ILUSEG,'NAM_LBCN',GFOUND,ILUOUT)
IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_LBCn)
CALL POSNAM(ILUSEG,'NAM_NUDGINGN',GFOUND,ILUOUT)
IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_NUDGINGn)
CALL POSNAM(ILUSEG,'NAM_TURBN',GFOUND,ILUOUT)
IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_TURBn)
CALL POSNAM(ILUSEG,'NAM_CH_MNHCN',GFOUND,ILUOUT)
IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_CH_MNHCn)
CALL POSNAM(ILUSEG,'NAM_CH_SOLVERN',GFOUND,ILUOUT)
IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_CH_SOLVERn)
CALL POSNAM(ILUSEG,'NAM_SERIESN',GFOUND,ILUOUT)
IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_SERIESn)
!
IF (KMI == 1) THEN                                               
  WRITE(UNIT=ILUOUT,FMT="(' namelists common to all the models ')")
  CALL POSNAM(ILUSEG,'NAM_CONF',GFOUND,ILUOUT)
  IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_CONF)
  CALL POSNAM(ILUSEG,'NAM_CONFZ',GFOUND,ILUOUT)
  IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_CONFZ)
  CALL POSNAM(ILUSEG,'NAM_DYN',GFOUND,ILUOUT)
  IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_DYN)
  CALL POSNAM(ILUSEG,'NAM_NESTING',GFOUND,ILUOUT)
  IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_NESTING)
  CALL POSNAM(ILUSEG,'NAM_FMOUT',GFOUND,ILUOUT)
  IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_FMOUT)
  CALL POSNAM(ILUSEG,'NAM_BUDGET',GFOUND,ILUOUT)
  IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_BUDGET)
  CALL POSNAM(ILUSEG,'NAM_BU_RU',GFOUND,ILUOUT)
  IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_BU_RU)
  CALL POSNAM(ILUSEG,'NAM_BU_RV',GFOUND,ILUOUT)
  IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_BU_RV)
  CALL POSNAM(ILUSEG,'NAM_BU_RW',GFOUND,ILUOUT)
  IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_BU_RW)
  CALL POSNAM(ILUSEG,'NAM_BU_RTH',GFOUND,ILUOUT)
  IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_BU_RTH)
  CALL POSNAM(ILUSEG,'NAM_BU_RTKE',GFOUND,ILUOUT)
  IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_BU_RTKE)
  CALL POSNAM(ILUSEG,'NAM_BU_RRV',GFOUND,ILUOUT)
  IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_BU_RRV)
  CALL POSNAM(ILUSEG,'NAM_BU_RRC',GFOUND,ILUOUT)
  IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_BU_RRC)
  CALL POSNAM(ILUSEG,'NAM_BU_RRR',GFOUND,ILUOUT)
  IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_BU_RRR)
  CALL POSNAM(ILUSEG,'NAM_BU_RRI',GFOUND,ILUOUT)
  IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_BU_RRI)
  CALL POSNAM(ILUSEG,'NAM_BU_RRS',GFOUND,ILUOUT)
  IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_BU_RRS)
  CALL POSNAM(ILUSEG,'NAM_BU_RRG',GFOUND,ILUOUT)
  IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_BU_RRG)
  CALL POSNAM(ILUSEG,'NAM_BU_RRH',GFOUND,ILUOUT)
  IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_BU_RRH)
  CALL POSNAM(ILUSEG,'NAM_BU_RSV',GFOUND,ILUOUT)
  IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_BU_RSV)
  CALL POSNAM(ILUSEG,'NAM_LES',GFOUND,ILUOUT)
  IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_LES)
  CALL POSNAM(ILUSEG,'NAM_MEAN',GFOUND,ILUOUT)
  IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_MEAN)
  CALL POSNAM(ILUSEG,'NAM_PDF',GFOUND,ILUOUT)
  IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_PDF)
  CALL POSNAM(ILUSEG,'NAM_BLANK',GFOUND,ILUOUT)
  IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_BLANK)
  CALL POSNAM(ILUSEG,'NAM_FRC',GFOUND,ILUOUT)
  IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_FRC)
  CALL POSNAM(ILUSEG,'NAM_PARAM_ICE',GFOUND,ILUOUT)
  IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_PARAM_ICE)
  CALL POSNAM(ILUSEG,'NAM_PARAM_C2R2',GFOUND,ILUOUT)
  IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_PARAM_C2R2)
  CALL POSNAM(ILUSEG,'NAM_PARAM_C1R3',GFOUND,ILUOUT)
  IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_PARAM_C1R3)
  CALL POSNAM(ILUSEG,'NAM_ELEC',GFOUND,ILUOUT)
  IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_ELEC)
  CALL POSNAM(ILUSEG,'NAM_SERIES',GFOUND,ILUOUT)
  IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_SERIES)
  CALL POSNAM(ILUSEG,'NAM_TURB_CLOUD',GFOUND,ILUOUT)
  IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_TURB_CLOUD)
  CALL POSNAM(ILUSEG,'NAM_TURB',GFOUND,ILUOUT)
  IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_TURB)
  CALL POSNAM(ILUSEG,'NAM_CH_ORILAM',GFOUND,ILUOUT)
  IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_CH_ORILAM)
  CALL POSNAM(ILUSEG,'NAM_DUST',GFOUND,ILUOUT)
  IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_DUST)
  CALL POSNAM(ILUSEG,'NAM_SALT',GFOUND,ILUOUT)
  IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_SALT)
  CALL POSNAM(ILUSEG,'NAM_PASPOL',GFOUND,ILUOUT)
  IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_PASPOL)
#ifdef MNH_FOREFIRE
  CALL POSNAM(ILUSEG,'NAM_FOREFIRE',GFOUND,ILUOUT)
  IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_FOREFIRE)
#endif
  CALL POSNAM(ILUSEG,'NAM_CONDSAMP',GFOUND,ILUOUT)
  IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_CONDSAMP)
  CALL POSNAM(ILUSEG,'NAM_DRAGTREE',GFOUND,ILUOUT)
  IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_DRAGTREE)
  CALL POSNAM(ILUSEG,'NAM_2D_FRC',GFOUND,ILUOUT)
  IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_2D_FRC)
  CALL POSNAM(ILUSEG,'NAM_LATZ_EDFLX',GFOUND)
  IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_LATZ_EDFLX)
#ifdef MNH_NCWRIT
  CALL POSNAM(ILUSEG,'NAM_NCOUT',GFOUND,ILUOUT)
  IF (GFOUND) READ(UNIT=ILUSEG,NML=NAM_NCOUT)
#endif
END IF
!
!-------------------------------------------------------------------------------
!
CALL TEST_NAM_VAR(ILUOUT,'CPRESOPT',CPRESOPT,'RICHA','CGRAD','CRESI','ZRESI')
!
CALL TEST_NAM_VAR(ILUOUT,'CUVW_ADV_SCHEME',CUVW_ADV_SCHEME, &
       'CEN4TH','CEN2ND','WENO_K' ) 
CALL TEST_NAM_VAR(ILUOUT,'CMET_ADV_SCHEME',CMET_ADV_SCHEME, &
      &'PPM_00','PPM_01','PPM_02')
CALL TEST_NAM_VAR(ILUOUT,'CSV_ADV_SCHEME',CSV_ADV_SCHEME,   &
      &'PPM_00','PPM_01','PPM_02')
CALL TEST_NAM_VAR(ILUOUT,'CTEMP_SCHEME',CTEMP_SCHEME,       &
      & 'RK11','RK21','RK33','RK53' )
!
CALL TEST_NAM_VAR(ILUOUT,'CTURB',CTURB,'NONE','TKEL')
CALL TEST_NAM_VAR(ILUOUT,'CRAD',CRAD,'NONE','FIXE','ECMW','TOPA')
CALL TEST_NAM_VAR(ILUOUT,'CCLOUD',CCLOUD,'NONE','REVE','KESS',  &
                                   'ICE2','ICE3','ICE4','C2R2','C3R5','KHKO')
CALL TEST_NAM_VAR(ILUOUT,'CDCONV',CDCONV,'NONE','KAFR')
CALL TEST_NAM_VAR(ILUOUT,'CSCONV',CSCONV,'NONE','KAFR','EDKF')
CALL TEST_NAM_VAR(ILUOUT,'CELEC',CELEC,'NONE','ELE3','ELE4')
!
CALL TEST_NAM_VAR(ILUOUT,'CAER',CAER,'TANR','TEGE','SURF','NONE')
CALL TEST_NAM_VAR(ILUOUT,'CAOP',CAOP,'CLIM','EXPL')
CALL TEST_NAM_VAR(ILUOUT,'CLW',CLW,'RRTM','MORC')
CALL TEST_NAM_VAR(ILUOUT,'CEFRADL',CEFRADL,'PRES','OCLN','MART','C2R2')
CALL TEST_NAM_VAR(ILUOUT,'CEFRADI',CEFRADI,'FX40','LIOU','SURI','C3R5')
CALL TEST_NAM_VAR(ILUOUT,'COPWLW',COPWLW,'SAVI','SMSH','LILI','MALA')
CALL TEST_NAM_VAR(ILUOUT,'COPILW',COPILW,'FULI','EBCU','SMSH','FU98')
CALL TEST_NAM_VAR(ILUOUT,'COPWSW',COPWSW,'SLIN','FOUQ','MALA')
CALL TEST_NAM_VAR(ILUOUT,'COPISW',COPISW,'FULI','EBCU','FU96')
!
CALL TEST_NAM_VAR(ILUOUT,'CLBCX(1)',CLBCX(1),'CYCL','WALL','OPEN')
CALL TEST_NAM_VAR(ILUOUT,'CLBCX(2)',CLBCX(2),'CYCL','WALL','OPEN')
CALL TEST_NAM_VAR(ILUOUT,'CLBCY(1)',CLBCY(1),'CYCL','WALL','OPEN')
CALL TEST_NAM_VAR(ILUOUT,'CLBCY(2)',CLBCY(2),'CYCL','WALL','OPEN')
!
CALL TEST_NAM_VAR(ILUOUT,'CTURBDIM',CTURBDIM,'1DIM','3DIM')
CALL TEST_NAM_VAR(ILUOUT,'CTURBLEN',CTURBLEN,'DELT','BL89','DEAR','BLKR')
CALL TEST_NAM_VAR(ILUOUT,'CTOM',CTOM,'NONE','TM06')
CALL TEST_NAM_VAR(ILUOUT,'CSUBG_AUCV',CSUBG_AUCV,'NONE','CLFR','SIGM')
!
CALL TEST_NAM_VAR(ILUOUT,'CCH_TDISCRETIZATION',CCH_TDISCRETIZATION, &
                 'SPLIT     ','CENTER    ','LAGGED    ')
!
CALL TEST_NAM_VAR(ILUOUT,'CCONF',CCONF,'START','RESTA')
CALL TEST_NAM_VAR(ILUOUT,'CEQNSYS',CEQNSYS,'LHE','DUR','MAE')
CALL TEST_NAM_VAR(ILUOUT,'CSPLIT',CSPLIT,'BSPLITTING','XSPLITTING','YSPLITTING')
!
CALL TEST_NAM_VAR(ILUOUT,'CBUTYPE',CBUTYPE,'NONE','CART','MASK')
!
CALL TEST_NAM_VAR(ILUOUT,'CRELAX_HEIGHT_TYPE',CRELAX_HEIGHT_TYPE,'FIXE','THGR')
!
CALL TEST_NAM_VAR(ILUOUT,'CLES_NORM_TYPE',CLES_NORM_TYPE,'NONE','CONV','EKMA','MOBU')
CALL TEST_NAM_VAR(ILUOUT,'CBL_HEIGHT_DEF',CBL_HEIGHT_DEF,'TKE','KE','WTV','FRI','DTH')
CALL TEST_NAM_VAR(ILUOUT,'CTURBLEN_CLOUD',CTURBLEN_CLOUD,'NONE','DEAR','DELT','BL89')
!
!   The test on the mass flux scheme for shallow convection
!
CALL TEST_NAM_VAR(ILUOUT,'CMF_UPDRAFT',CMF_UPDRAFT,'NONE','EDKF')
CALL TEST_NAM_VAR(ILUOUT,'CMF_CLOUD',CMF_CLOUD,'NONE','STAT','DIRE')
!
!   The test on the CSOLVER name is made elsewhere
!
CALL TEST_NAM_VAR(ILUOUT,'CPRISTINE_ICE',CPRISTINE_ICE,'PLAT','COLU','BURO')
CALL TEST_NAM_VAR(ILUOUT,'CSEDIM',CSEDIM,'SPLI','STAT')
IF( CCLOUD == 'C3R5' ) THEN
  CALL TEST_NAM_VAR(ILUOUT,'CPRISTINE_ICE_C1R3',CPRISTINE_ICE_C1R3, &
                                                'PLAT','COLU','BURO')
  CALL TEST_NAM_VAR(ILUOUT,'CHEVRIMED_ICE_C1R3',CHEVRIMED_ICE_C1R3, &
                                                'GRAU','HAIL')
END IF
!-------------------------------------------------------------------------------!
!*       2.    FIRST INITIALIZATIONS
!              ---------------------
!
!*       2.1   Time step in gridnesting case
!
IF (KMI /= 1 .AND. NDAD(KMI) /= KMI)  THEN
  XTSTEP = PTSTEP_ALL(NDAD(KMI)) / NDTRATIO(KMI)
END IF
PTSTEP_ALL(KMI) = XTSTEP
!
!*       2.2    Fill the global configuration module 
!
! Check coherence between the microphysical scheme and water species and 
!initialize the logicals LUSERn 
!
SELECT CASE ( CCLOUD )
  CASE ( 'NONE' )
    IF (.NOT. ( (.NOT. LUSERC) .AND. (.NOT. LUSERR) .AND. (.NOT. LUSERI) .AND. &
                (.NOT. LUSERS) .AND. (.NOT. LUSERG) .AND. (.NOT. LUSERH)       &
              ) .AND. CPROGRAM=='MESONH' )  THEN
!
      LUSERC=.FALSE.
      LUSERR=.FALSE.; LUSERI=.FALSE.
      LUSERS=.FALSE.; LUSERG=.FALSE. 
      LUSERH=.FALSE.
!
    END IF
!
    IF (CSUBG_AUCV == 'SIGM')  THEN
!
      WRITE(UNIT=ILUOUT,FMT=9002) KMI
      WRITE(UNIT=ILUOUT,FMT=*) 'YOU WANT TO USE THE SUBGRID AUTOCONVERSION SCHEME '                                         
      WRITE(UNIT=ILUOUT,FMT=*) ' WITHOUT MICROPHYSICS'                         
      WRITE(UNIT=ILUOUT,FMT=*) ' CSUBG_AUCV IS PUT TO "NONE"'                            
!
      CSUBG_AUCV = 'NONE'
!
    END IF
!
  CASE ( 'REVE' ) 
    IF (.NOT. ( LUSERV .AND. LUSERC .AND. (.NOT. LUSERR) .AND. (.NOT. LUSERI) &
               .AND. (.NOT. LUSERS) .AND. (.NOT. LUSERG) .AND. (.NOT. LUSERH) &
              ) )  THEN
!
      WRITE(UNIT=ILUOUT,FMT=9002) KMI
      WRITE(UNIT=ILUOUT,FMT='("YOU WANT TO USE A REVERSIBLE MICROPHYSICAL "   ,&
      &" SCHEME. YOU WILL ONLY HAVE VAPOR AND CLOUD WATER ",/,                 &
      &" LUSERV AND LUSERC ARE TO TRUE AND THE OTHERS TO FALSE ")') 
!
      LUSERV=.TRUE. ; LUSERC=.TRUE.
      LUSERR=.FALSE.; LUSERI=.FALSE.
      LUSERS=.FALSE.; LUSERG=.FALSE. 
      LUSERH=.FALSE.
    END IF
!
    IF (CSUBG_AUCV == 'SIGM')  THEN
!
      WRITE(UNIT=ILUOUT,FMT=9003) KMI
      WRITE(UNIT=ILUOUT,FMT=*) 'YOU WANT TO USE BOTH A REVERSIBLE MICROPHYSICAL SCHEME '
      WRITE(UNIT=ILUOUT,FMT=*) ' AND THE SUBGRID AUTOCONVERSION SCHEME '       
      WRITE(UNIT=ILUOUT,FMT=*) 'BUT YOU DO NOT HAVE RAIN in the "REVE" SCHEME'
      WRITE(UNIT=ILUOUT,FMT=*) ' CSUBG_AUCV IS PUT TO "NONE"'                            
!
      CSUBG_AUCV = 'NONE'
!
    END IF
!
  CASE ( 'KESS' )
    IF (.NOT. ( LUSERV .AND. LUSERC .AND. LUSERR .AND. (.NOT. LUSERI) .AND. &
              (.NOT. LUSERS) .AND. (.NOT. LUSERG) .AND. (.NOT. LUSERH)      &
              ) )  THEN
!
      WRITE(UNIT=ILUOUT,FMT=9002) KMI
      WRITE(UNIT=ILUOUT,FMT='("YOU WANT TO USE A KESSLER MICROPHYSICAL "   , &
      &" SCHEME. YOU WILL ONLY HAVE VAPOR, CLOUD WATER AND RAIN ",/,           &
      &" LUSERV, LUSERC AND LUSERR ARE SET TO TRUE AND THE OTHERS TO FALSE ")') 
!
      LUSERV=.TRUE. ; LUSERC=.TRUE. ; LUSERR=.TRUE.
      LUSERI=.FALSE.; LUSERS=.FALSE.
      LUSERG=.FALSE.; LUSERH=.FALSE.
    END IF
!
    IF (CSUBG_AUCV == 'SIGM')  THEN
!
      WRITE(UNIT=ILUOUT,FMT=9003) KMI
      WRITE(UNIT=ILUOUT,FMT=*) 'YOU WANT TO USE BOTH A KESSLER MICROPHYSICAL SCHEME '
      WRITE(UNIT=ILUOUT,FMT=*) ' AND THE SUBGRID AUTOCONVERSION SCHEME USING'
      WRITE(UNIT=ILUOUT,FMT=*) 'SIGMA_RC.'
      WRITE(UNIT=ILUOUT,FMT=*) 'THIS IS NOT YET AVAILABLE.'
      WRITE(UNIT=ILUOUT,FMT=*) 'SET CSUBG_AUCV TO "CLFR" or "NONE"  OR CCLOUD TO "ICE3"'
!
 !callabortstop
      CALL CLOSE_ll(HLUOUT,IOSTAT=IRESP)
      CALL ABORT
      STOP
    END IF
!
  CASE ( 'ICE3' )
    IF (.NOT. ( LUSERV .AND. LUSERC .AND. LUSERR .AND. LUSERI .AND. LUSECI &
                       .AND. LUSERS .AND. LUSERG .AND. (.NOT. LUSERH))     &
                .AND. CPROGRAM=='MESONH' )  THEN
      !
      WRITE(UNIT=ILUOUT,FMT=9002) KMI
      WRITE(UNIT=ILUOUT,FMT=*) 'YOU WANT TO USE THE ice3 SIMPLE MIXED PHASE'
      WRITE(UNIT=ILUOUT,FMT=*) 'MICROPHYSICAL SCHEME. YOU WILL ONLY HAVE VAPOR, CLOUD WATER,'
      WRITE(UNIT=ILUOUT,FMT=*) 'RAIN WATER, CLOUD ICE (MIXING RATIO AND CONCENTRATION)'
      WRITE(UNIT=ILUOUT,FMT=*) 'SNOW-AGGREGATES AND GRAUPELN.'
      WRITE(UNIT=ILUOUT,FMT=*) 'LUSERV,LUSERC,LUSERR,LUSERI,LUSECI,LUSERS,LUSERG ARE SET TO TRUE'
      WRITE(UNIT=ILUOUT,FMT=*) 'AND LUSERH TO FALSE'
!
      LUSERV=.TRUE. ; LUSERC=.TRUE. ; LUSERR=.TRUE.
      LUSERI=.TRUE. ; LUSECI=.TRUE.
      LUSERS=.TRUE. ; LUSERG=.TRUE. 
      LUSERH=.FALSE.
    END IF    
!
    IF (CSUBG_AUCV == 'SIGM' .AND. .NOT. LSUBG_COND)  THEN
      WRITE(UNIT=ILUOUT,FMT=9002) KMI
      WRITE(UNIT=ILUOUT,FMT=*) 'YOU WANT TO USE SUBGRID AUTOCONVERSION SCHEME'
      WRITE(UNIT=ILUOUT,FMT=*) ' WITHOUT THE SUBGRID CONDENSATION SCHEME.'
      WRITE(UNIT=ILUOUT,FMT=*) 'THIS IS NOT ALLOWED: CSUBG_AUCV is SET to NONE' 
      CSUBG_AUCV='NONE' 
    END IF
!
    IF (CSUBG_AUCV == 'CLFR' .AND. CSCONV /= 'EDKF')  THEN
      WRITE(UNIT=ILUOUT,FMT=9002) KMI
      WRITE(UNIT=ILUOUT,FMT=*) 'YOU WANT TO USE SUBGRID AUTOCONVERSION SCHEME'
      WRITE(UNIT=ILUOUT,FMT=*) 'WITH THE CONVECTIVE CLOUD FRACTION WITHOUT EDKF'
      WRITE(UNIT=ILUOUT,FMT=*) 'THIS IS NOT ALLOWED: CSUBG_AUCV is SET to NONE' 
      CSUBG_AUCV='NONE' 
    END IF
!
  CASE ( 'ICE4' )
    IF (.NOT. ( LUSERV .AND. LUSERC .AND. LUSERR .AND. LUSERI .AND. LUSECI &
                       .AND. LUSERS .AND. LUSERG .AND. LUSERH)             &
                .AND. CPROGRAM=='MESONH' )  THEN
      !
      WRITE(UNIT=ILUOUT,FMT=9002) KMI
      WRITE(UNIT=ILUOUT,FMT=*) 'YOU WANT TO USE THE ice4 SIMPLE MIXED PHASE'
      WRITE(UNIT=ILUOUT,FMT=*) 'MICROPHYSICAL SCHEME. YOU WILL ONLY HAVE VAPOR, CLOUD WATER,'
      WRITE(UNIT=ILUOUT,FMT=*) 'RAIN WATER, CLOUD ICE (MIXING RATIO AND CONCENTRATION)'
      WRITE(UNIT=ILUOUT,FMT=*) 'SNOW-AGGREGATES, GRAUPELN AND HAILSTONES.'
      WRITE(UNIT=ILUOUT,FMT=*) 'LUSERV,LUSERC,LUSERR,LUSERI,LUSECI,LUSERS,LUSERG'
      WRITE(UNIT=ILUOUT,FMT=*) 'AND LUSERH ARE SET TO TRUE'
!
      LUSERV=.TRUE. ; LUSERC=.TRUE. ; LUSERR=.TRUE.
      LUSERI=.TRUE. ; LUSECI=.TRUE.
      LUSERS=.TRUE. ; LUSERG=.TRUE. ; LUSERH=.TRUE.
    END IF
!
    IF (CSUBG_AUCV /= 'NONE' .AND. .NOT. LSUBG_COND)  THEN
      WRITE(UNIT=ILUOUT,FMT=9002) KMI
      WRITE(UNIT=ILUOUT,FMT=*) 'YOU WANT TO USE SUBGRID AUTOCONVERSION SCHEME'
      WRITE(UNIT=ILUOUT,FMT=*) ' WITHOUT THE SUBGRID CONDENSATION SCHEME.'
      WRITE(UNIT=ILUOUT,FMT=*) 'THIS IS NOT ALLOWED: CSUBG_AUCV is SET to NONE' 
      CSUBG_AUCV='NONE' 
    END IF
!
  CASE ( 'C2R2','C3R5', 'KHKO' )
    IF (( HPARAM_CCN == 'XXX') .OR. (HINI_CCN  == 'XXX')) THEN
          WRITE(UNIT=ILUOUT,FMT='("YOU WANT TO USE A 2-MOMENT MICROPHYSICAL ",    &
         &" SCHEME BUT YOU DIDNT FILL CORRECTLY NAM_PARAM_C2R2", &
         &" YOU HAVE TO FILL HPARAM_CCN and HINI_CCN ")')
 !callabortstop
        CALL CLOSE_ll(HLUOUT,IOSTAT=IRESP)
        CALL ABORT
        STOP
    END IF
    IF (HCLOUD == 'NONE') THEN
      CGETCLOUD = 'SKIP'
    ELSE IF (HCLOUD == 'REVE' ) THEN
      CGETCLOUD = 'INI1'
    ELSE IF (HCLOUD == 'KESS' ) THEN
      CGETCLOUD = 'INI2'
    ELSE IF (HCLOUD == 'ICE3' ) THEN
      IF (CCLOUD == 'C3R5') THEN
        CGETCLOUD = 'INI2'
      ELSE
        WRITE(UNIT=ILUOUT,FMT=9003) KMI
        WRITE(UNIT=ILUOUT,FMT='("YOU WANT TO USE THE WARM MICROPHYSICAL ",    &
        &" SCHEME BUT YOU WERE USING THE ICE3 SCHEME PREVIOUSLY.",/,          &
        &" AS THIS IS A LITTLE BIT STUPID IT IS NOT AUTHORIZED !!!")')
 !callabortstop
        CALL CLOSE_ll(HLUOUT,IOSTAT=IRESP)
        CALL ABORT
        STOP
      END IF
    ELSE
      CGETCLOUD = 'READ' ! This is automatically done
    END IF
!
    IF ((CCLOUD == 'C2R2' ).OR. (CCLOUD == 'KHKO' )) THEN
      IF (.NOT. ( LUSERV .AND. LUSERC .AND. LUSERR .AND. (.NOT. LUSERI) .AND. &
                (.NOT. LUSERS) .AND. (.NOT. LUSERG) .AND. (.NOT. LUSERH)      &
                ) )  THEN
        WRITE(UNIT=ILUOUT,FMT=9002) KMI
        WRITE(UNIT=ILUOUT,FMT='("YOU WANT TO USE THE C2R2 MICROPHYSICAL ",    &
        &" SCHEME. YOU WILL ONLY HAVE VAPOR, CLOUD WATER AND RAIN ",/,        &
        &"LUSERV, LUSERC AND LUSERR ARE SET TO TRUE AND THE OTHERS TO FALSE ")')
!
        LUSERV=.TRUE. ; LUSERC=.TRUE. ; LUSERR=.TRUE.
        LUSERI=.FALSE.; LUSERS=.FALSE.
        LUSERG=.FALSE.; LUSERH=.FALSE.
      END IF
    ELSE IF (CCLOUD == 'C3R5') THEN
      IF (.NOT. ( LUSERV .AND. LUSERC .AND. LUSERR .AND. LUSERI .AND. &
                  LUSERS .AND. LUSERG .AND. (.NOT. LUSERH)            &
                ) )  THEN
        WRITE(UNIT=ILUOUT,FMT=9002) KMI
        WRITE(UNIT=ILUOUT,FMT='("YOU WANT TO USE THE C3R5 MICROPHYS. SCHEME.",&
        &" YOU WILL HAVE VAPOR, CLOUD WATER/ICE, RAIN, SNOW AND GRAUPEL ",/,  &
        &"LUSERV, LUSERC, LUSERR, LUSERI, LUSERS, LUSERG ARE SET TO TRUE")' )
!
        LUSERV=.TRUE. ; LUSERC=.TRUE. ; LUSERR=.TRUE.
        LUSERI=.TRUE. ; LUSECI=.TRUE.
        LUSERS=.TRUE. ; LUSERG=.TRUE. 
        LUSERH=.FALSE.
      END IF
    END IF
!
    IF (LSUBG_COND)  THEN
      WRITE(UNIT=ILUOUT,FMT=9003) KMI
      WRITE(UNIT=ILUOUT,FMT=*) 'YOU WANT TO USE BOTH THE SIMPLE MIXED PHASE'
      WRITE(UNIT=ILUOUT,FMT=*) 'MICROPHYS. SCHEME AND THE SUBGRID COND. SCHEME.'
      WRITE(UNIT=ILUOUT,FMT=*) 'THIS IS NOT YET AVAILABLE.'
      WRITE(UNIT=ILUOUT,FMT=*) 'SET LSUBG_COND TO FALSE OR CCLOUD TO "REVE", "KESS"' 
 !callabortstop
      CALL CLOSE_ll(HLUOUT,IOSTAT=IRESP)
      CALL ABORT
      STOP
    END IF
!
    IF ( CEFRADL /= 'C2R2') THEN
      WRITE(UNIT=ILUOUT,FMT=9001) KMI
      WRITE(UNIT=ILUOUT,FMT=*) ' YOU DID NOT CHOOSE CEFRADL=C2R2 FOR RADIATION'
      WRITE(UNIT=ILUOUT,FMT=*) ' IT IS ADVISED TO USE CEFRADL=C2R2 '                       
      WRITE(UNIT=ILUOUT,FMT=*) ' WITH A 2-MOMENT MICROPHYSICAL SCHEME'                     
    END IF
!
    IF ( CCLOUD == 'C3R5' .AND. CEFRADI /= 'C3R5') THEN
      WRITE(UNIT=ILUOUT,FMT=9001) KMI
      WRITE(UNIT=ILUOUT,FMT=*) ' YOU DID NOT CHOOSE CEFRADI=C3R5 FOR RADIATION'
      WRITE(UNIT=ILUOUT,FMT=*) ' IT IS ADVISED TO USE CEFRADI=C3R5 '                       
      WRITE(UNIT=ILUOUT,FMT=*) ' WITH A 2-MOMENT MICROPHYSICAL SCHEME'                     
    END IF
!
    IF (LSUBG_COND)  THEN
      WRITE(UNIT=ILUOUT,FMT=9003) KMI
      WRITE(UNIT=ILUOUT,FMT=*) 'YOU WANT TO USE BOTH THE SIMPLE MIXED PHASE'
      WRITE(UNIT=ILUOUT,FMT=*) 'MICROPHYS. SCHEME AND THE SUBGRID COND. SCHEME.'
      WRITE(UNIT=ILUOUT,FMT=*) 'THIS IS NOT YET AVAILABLE.'
      WRITE(UNIT=ILUOUT,FMT=*) 'SET LSUBG_COND TO FALSE OR CCLOUD TO "REVE", "KESS" '
 !callabortstop
      CALL CLOSE_ll(HLUOUT,IOSTAT=IRESP)
      CALL ABORT
      STOP
    END IF 
!
    IF ( XALPHAC /= 3.0 .OR. XNUC /= 2.0) THEN
      WRITE(UNIT=ILUOUT,FMT=9001) KMI
      WRITE(UNIT=ILUOUT,FMT=*) 'IT IS ADVISED TO USE XALPHAC=3. and XNUC=2.'
      WRITE(UNIT=ILUOUT,FMT=*) 'FOR STRATOCUMULUS WITH KHKO SCHEME. '
    END IF
!
    IF ( CEFRADL /= 'C2R2') THEN
      WRITE(UNIT=ILUOUT,FMT=9001) KMI
      WRITE(UNIT=ILUOUT,FMT=*) ' YOU DID NOT CHOOSE CEFRADL=C2R2 FOR RADIATION'
      WRITE(UNIT=ILUOUT,FMT=*) ' IT IS ADVISED TO USE CEFRADL=C2R2 '                       
      WRITE(UNIT=ILUOUT,FMT=*) ' WITH A 2-MOMENT MICROPHYSICAL SCHEME'                     
    END IF
!
END SELECT
!
LUSERV_G(KMI) = LUSERV
LUSERC_G(KMI) = LUSERC
LUSERR_G(KMI) = LUSERR
LUSERI_G(KMI) = LUSERI
LUSERS_G(KMI) = LUSERS
LUSERG_G(KMI) = LUSERG
LUSERH_G(KMI) = LUSERH
LUSETKE(KMI) = (CTURB /= 'NONE')
!
!-------------------------------------------------------------------------------
!
!*       2.3     Chemical and NSV_* variables initializations
!
CALL UPDATE_NAM_PARAMN
CALL UPDATE_NAM_CH_MNHCN
CALL UPDATE_NAM_DYNN
!
IF (LORILAM .AND. .NOT. LUSECHEM) THEN
  WRITE(UNIT=ILUOUT,FMT=9002) KMI
  WRITE(ILUOUT,FMT=*) 'YOU CANNOT USE ORILAM AEROSOL SCHEME WITHOUT  '
  WRITE(ILUOUT,FMT=*) 'CHEMICAL GASEOUS CHEMISTRY                    '
  WRITE(ILUOUT,FMT=*) 'THEREFORE LUSECHEM IS SET TO TRUE    '
  LUSECHEM=.TRUE.
END IF
!
IF (LUSECHAQ.AND.(.NOT.LUSECHEM))  THEN
  WRITE(UNIT=ILUOUT,FMT=9003) KMI
  WRITE(UNIT=ILUOUT,FMT=*) 'YOU WANT TO USE AQUEOUS PHASE CHEMISTRY'
  WRITE(UNIT=ILUOUT,FMT=*) 'BUT THE CHEMISTRY IS NOT ACTIVATED'
  WRITE(UNIT=ILUOUT,FMT=*) 'SET LUSECHEM TO TRUE IF YOU WANT REALLY USE CHEMISTRY' 
  WRITE(UNIT=ILUOUT,FMT=*) 'OR SET LUSECHAQ TO FALSE IF YOU DO NOT WANT USE IT' 
 !callabortstop
  CALL CLOSE_ll(HLUOUT,IOSTAT=IRESP)
  CALL ABORT
  STOP
END IF
IF (LUSECHAQ.AND.(.NOT.LUSERC).AND.CPROGRAM=='MESONH')  THEN
  WRITE(UNIT=ILUOUT,FMT=9003) KMI
  WRITE(UNIT=ILUOUT,FMT=*) 'YOU WANT TO USE AQUEOUS PHASE CHEMISTRY'
  WRITE(UNIT=ILUOUT,FMT=*) 'BUT CLOUD MICROPHYSICS IS NOT ACTIVATED'
  WRITE(UNIT=ILUOUT,FMT=*) 'LUSECHAQ IS SET TO FALSE' 
  LUSECHAQ = .FALSE.
END IF
IF (LUSECHAQ.AND.CCLOUD(1:3) == 'ICE'.AND. .NOT. LUSECHIC) THEN
  WRITE(UNIT=ILUOUT,FMT=9002) KMI
  WRITE(UNIT=ILUOUT,FMT=*) 'YOU WANT TO USE AQUEOUS PHASE CHEMISTRY'
  WRITE(UNIT=ILUOUT,FMT=*) 'WITH MIXED PHASE CLOUD MICROPHYSICS'
  WRITE(UNIT=ILUOUT,FMT=*) 'SET LUSECHIC TO TRUE IF YOU WANT TO ACTIVATE'
  WRITE(UNIT=ILUOUT,FMT=*) 'ICE PHASE CHEMICAL SPECIES'
  IF (LCH_RET_ICE) THEN
    WRITE(UNIT=ILUOUT,FMT=*) 'LCH_RET_ICE TRUE MEANS ALL SOLUBLE'
    WRITE(UNIT=ILUOUT,FMT=*) 'GASES ARE RETAINED IN ICE PHASE'
    WRITE(UNIT=ILUOUT,FMT=*) 'WHEN SUPERCOOLED WATER FREEZES'
  ELSE
    WRITE(UNIT=ILUOUT,FMT=*) 'LCH_RET_ICE FALSE MEANS ALL SOLUBLE'
    WRITE(UNIT=ILUOUT,FMT=*) 'GASES GO BACK TO THE GAS PHASE WHEN'
    WRITE(UNIT=ILUOUT,FMT=*) 'SUPERCOOLED WATER FREEZES'
  ENDIF
ENDIF
IF (LUSECHIC.AND. .NOT. CCLOUD(1:3) == 'ICE') THEN
  WRITE(UNIT=ILUOUT,FMT=9003) KMI
  WRITE(UNIT=ILUOUT,FMT=*) 'YOU WANT TO USE ICE PHASE CHEMISTRY'
  WRITE(UNIT=ILUOUT,FMT=*) 'BUT MIXED PHASE CLOUD MICROPHYSICS IS NOT ACTIVATED'
  WRITE(UNIT=ILUOUT,FMT=*) 'LUSECHIC IS SET TO FALSE'  
  LUSECHIC= .FALSE.
ENDIF
IF (LCH_PH.AND. (.NOT. LUSECHAQ)) THEN
  WRITE(UNIT=ILUOUT,FMT=9003) KMI
  WRITE(UNIT=ILUOUT,FMT=*) 'DIAGNOSTIC PH COMPUTATION IS ACTIVATED'
  WRITE(UNIT=ILUOUT,FMT=*) 'BUT AQUEOUS PHASE CHEMISTRY IS NOT ACTIVATED'
  WRITE(UNIT=ILUOUT,FMT=*) 'SET LUSECHAQ TO TRUE IF YOU WANT TO ACTIVATE IT'
  WRITE(UNIT=ILUOUT,FMT=*) 'LCH_PH IS SET TO FALSE'
  LCH_PH= .FALSE.
ENDIF
IF (LUSECHIC.AND.(.NOT.LUSECHAQ))  THEN
  WRITE(UNIT=ILUOUT,FMT=9003) KMI
  WRITE(UNIT=ILUOUT,FMT=*) 'YOU WANT TO USE ICE PHASE CHEMISTRY'
  WRITE(UNIT=ILUOUT,FMT=*) 'BUT THE AQUEOUS PHASE CHEMISTRY IS NOT ACTIVATED'
  WRITE(UNIT=ILUOUT,FMT=*) 'SET LUSECHAQ TO TRUE IF YOU WANT REALLY USE CLOUD CHEMISTRY'
  WRITE(UNIT=ILUOUT,FMT=*) 'OR SET LUSECHIC TO FALSE IF YOU DO NOT WANT USE IT'
!callabortstop
  CALL CLOSE_ll(HLUOUT,IOSTAT=IRESP)
  CALL ABORT
  STOP
END IF
IF ((LUSECHIC).AND.(LCH_RET_ICE)) THEN
  WRITE(UNIT=ILUOUT,FMT=9003) KMI
  WRITE(UNIT=ILUOUT,FMT=*) 'YOU WANT TO USE RETENTION OF SOLUBLE GASES IN ICE'
  WRITE(UNIT=ILUOUT,FMT=*) 'BUT THE ICE PHASE CHEMISTRY IS ACTIVATED'
  WRITE(UNIT=ILUOUT,FMT=*) 'FLAG LCH_RET_ICE IS ONLY USES WHEN LUSECHIC IS SET'
  WRITE(UNIT=ILUOUT,FMT=*) 'TO FALSE IE NO CHEMICAL SPECIES IN ICE' 
ENDIF
!
IF (LUSECHEM) THEN
  CALL CH_INIT_SCHEME_n(KMI,LUSECHAQ,LUSECHIC,LCH_PH,ILUOUT,NVERB)
  IF (LORILAM) CALL CH_AER_INIT_SOA(ILUOUT, NVERB)
END IF
!

CALL UPDATE_NAM_CONFN
CALL INI_NSV(KMI)
!
! From this point, all NSV* variables contain valid values for model KMI
! 
DO JSV = 1,NSV
 LUSESV(JSV,KMI) = .TRUE.
END DO
!
IF ( CAOP=='EXPL' .AND. .NOT.LDUST .AND. .NOT.LORILAM .AND. .NOT.LSALT) THEN
      WRITE(UNIT=ILUOUT,FMT=9001) KMI
      WRITE(UNIT=ILUOUT,FMT=*) ' YOU WANT TO USE EXPLICIT AEROSOL OPTICAL '       
      WRITE(UNIT=ILUOUT,FMT=*) 'PROPERTIES BUT YOU DONT HAVE DUST OR '            
      WRITE(UNIT=ILUOUT,FMT=*) 'AEROSOL OR SALT THEREFORE CAOP=CLIM'            
      CAOP='CLIM'
END IF      
!-------------------------------------------------------------------------------
!
!*       3.    CHECK COHERENCE BETWEEN EXSEG VARIABLES AND FMFILE ATTRIBUTES
!              -------------------------------------------------------------
!
!
!*       3.1  Turbulence variable 
!
IF ((CTURB /= 'NONE').AND.(HTURB == 'NONE')) THEN
  CGETTKET ='INIT'
  WRITE(UNIT=ILUOUT,FMT=9001) KMI
  WRITE(UNIT=ILUOUT,FMT=*)'YOU WANT TO USE TURBULENCE KINETIC ENERGY TKE'
  WRITE(UNIT=ILUOUT,FMT=*)'WHEREAS IT  IS NOT IN INITIAL FMFILE'
  WRITE(UNIT=ILUOUT,FMT=*)'TKE WILL BE INITIALIZED TO ZERO'
ELSE 
  IF (CTURB /= 'NONE') THEN 
    CGETTKET ='READ'
    IF ((CCONF=='START') .AND. CPROGRAM /= 'DIAG') CGETTKET='INIT' 
  ELSE
   CGETTKET ='SKIP'
  END IF
END IF
!
!
IF ((CTOM == 'TM06').AND.(HTOM /= 'TM06')) THEN
  CGETBL_DEPTH ='INIT'
  WRITE(UNIT=ILUOUT,FMT=9001) KMI
  WRITE(UNIT=ILUOUT,FMT=*)'YOU WANT TO USE BL DEPTH FOR THIRD ORDER MOMENTS'
  WRITE(UNIT=ILUOUT,FMT=*)'WHEREAS IT IS NOT IN INITIAL FMFILE'
  WRITE(UNIT=ILUOUT,FMT=*)'IT WILL BE INITIALIZED TO ZERO'
ELSE 
  IF (CTOM == 'TM06') THEN 
    CGETBL_DEPTH ='READ'
  ELSE 
    CGETBL_DEPTH ='SKIP'
  END IF
END IF
!
IF (LRMC01 .AND. .NOT. ORMC01) THEN
  CGETSBL_DEPTH ='INIT'
  WRITE(UNIT=ILUOUT,FMT=9001) KMI
  WRITE(UNIT=ILUOUT,FMT=*)'YOU WANT TO USE SBL DEPTH FOR RMC01'
  WRITE(UNIT=ILUOUT,FMT=*)'WHEREAS IT IS NOT IN INITIAL FMFILE'
  WRITE(UNIT=ILUOUT,FMT=*)'IT WILL BE INITIALIZED TO ZERO'
ELSE 
  IF (LRMC01) THEN 
    CGETSBL_DEPTH ='READ'
  ELSE 
    CGETSBL_DEPTH ='SKIP'
  END IF
END IF
!
!
!*       3.2  Moist  variables 
!
IF (LUSERV.AND. (.NOT.OUSERV)) THEN
  WRITE(UNIT=ILUOUT,FMT=9001) KMI
  WRITE(UNIT=ILUOUT,FMT='("YOU WANT TO USE VAPOR VARIABLE Rv WHEREAS IT  ", &
                  & "IS NOT IN INITIAL FMFILE",/,                           &
                  & "Rv WILL BE INITIALIZED TO ZERO")')
  CGETRVT='INIT'
ELSE                                                                
  IF (LUSERV) THEN
    CGETRVT='READ'
  ELSE
    CGETRVT='SKIP'
  END IF
END IF
!
IF (LUSERC.AND. (.NOT.OUSERC)) THEN
  WRITE(UNIT=ILUOUT,FMT=9001) KMI
  WRITE(UNIT=ILUOUT,FMT='("YOU WANT TO USE CLOUD VARIABLE Rc WHEREAS IT ",  &
                 &   " IS NOT IN INITIAL FMFILE",/,                        &
                 &   "Rc WILL BE INITIALIZED TO ZERO")')
  CGETRCT='INIT'
ELSE
  IF (LUSERC) THEN
    CGETRCT='READ'
!   IF(CCONF=='START') CGETRCT='INIT' 
  ELSE
    CGETRCT='SKIP'
  END IF
END IF
!
IF (LUSERR.AND. (.NOT.OUSERR)) THEN
  WRITE(UNIT=ILUOUT,FMT=9001) KMI
  WRITE(UNIT=ILUOUT,FMT='("YOU WANT TO USE RAIN VARIABLE Rr WHEREAS IT ", &
                  &  "IS NOT IN INITIAL FMFILE",/,                     &
                  &  " Rr WILL BE INITIALIZED TO ZERO")')
 
  CGETRRT='INIT'
ELSE
  IF (LUSERR) THEN
    CGETRRT='READ'
!   IF( (CCONF=='START').AND. CPROGRAM /= 'DIAG') CGETRRT='INIT' 
  ELSE
    CGETRRT='SKIP'
  END IF
END IF
!
IF (LUSERI.AND. (.NOT.OUSERI)) THEN
  WRITE(UNIT=ILUOUT,FMT=9001) KMI
  WRITE(UNIT=ILUOUT,FMT='("YOU WANT TO USE ICE VARIABLE Ri WHEREAS IT ", &
               &    "IS NOT IN INITIAL FMFILE",/,                      &
               &     " Ri WILL BE INITIALIZED TO ZERO")')
  CGETRIT='INIT'
ELSE
  IF (LUSERI) THEN
    CGETRIT='READ'
!   IF(CCONF=='START') CGETRIT='INIT' 
  ELSE
    CGETRIT='SKIP'
  END IF
END IF
!
IF (LUSECI.AND. (.NOT.OUSECI)) THEN
  WRITE(UNIT=ILUOUT,FMT=9001) KMI
  WRITE(UNIT=ILUOUT,FMT='("YOU WANT TO USE ICE CONC. VARIABLE Ci WHEREAS IT ",&
               &          "IS NOT IN INITIAL FMFILE",/,                       &
               &          "   Ci WILL BE INITIALIZED TO ZERO")')
  CGETCIT='INIT'
ELSE
  IF (LUSECI) THEN
    CGETCIT='READ'
  ELSE
    CGETCIT='SKIP'
  END IF
END IF
!
IF (LUSERS.AND. (.NOT.OUSERS)) THEN
  WRITE(UNIT=ILUOUT,FMT=9001) KMI
  WRITE(UNIT=ILUOUT,FMT='("YOU WANT TO USE SNOW VARIABLE Rs WHEREAS IT ",&
                  &  "IS NOT IN INITIAL FMFILE",/,                       &
                  &  " Rs WILL BE INITIALIZED TO ZERO")')
  CGETRST='INIT'
ELSE
  IF (LUSERS) THEN
    CGETRST='READ'
!   IF ( (CCONF=='START').AND. CPROGRAM /= 'DIAG') CGETRST='INIT' 
  ELSE
    CGETRST='SKIP'
  END IF
END IF
!
IF (LUSERG.AND. (.NOT.OUSERG)) THEN
  WRITE(UNIT=ILUOUT,FMT=9001) KMI
  WRITE(UNIT=ILUOUT,FMT='("YOU WANT TO USE GRAUPEL VARIABLE Rg WHEREAS ",&
                   & " IT IS NOTIN INITIAL FMFILE",/,                    &
                   & "Rg WILL BE INITIALIZED TO ZERO")')
  CGETRGT='INIT'
ELSE
  IF (LUSERG) THEN
    CGETRGT='READ'
!   IF ( (CCONF=='START') .AND. CPROGRAM /= 'DIAG') CGETRGT='INIT' 
  ELSE
    CGETRGT='SKIP'
  END IF
END IF
!
IF (LUSERH.AND. (.NOT.OUSERH)) THEN
  WRITE(UNIT=ILUOUT,FMT=9001) KMI
  WRITE(UNIT=ILUOUT,FMT='("YOU WANT TO USE HAIL VARIABLE Rh WHEREAS",&
                  &  "IT IS NOT IN INITIAL FMFILE",/,                &
                  & " Rh WILL BE INITIALIZED TO ZERO")')
   CGETRHT='INIT'
ELSE
  IF (LUSERH) THEN
    CGETRHT='READ'
!   IF ( (CCONF=='START') .AND. CPROGRAM /= 'DIAG') CGETRHT='INIT' 
  ELSE
    CGETRHT='SKIP'
  END IF
END IF
!
IF (LUSERC.AND. (.NOT.OUSERC)) THEN
  WRITE(UNIT=ILUOUT,FMT=9001) KMI
  WRITE(UNIT=ILUOUT,FMT=*) 'THE CLOUD FRACTION WILL BE INITIALIZED ACCORDING'
  WRITE(UNIT=ILUOUT,FMT=*) 'TO CLOUD MIXING RATIO VALUE OR SET TO 0'
  CGETCLDFR = 'INIT'
ELSE
  IF ( LUSERC ) THEN
    CGETCLDFR = 'READ'
!   IF ( (CCONF=='START') .AND. CPROGRAM /= 'DIAG') CGETCLDFR='INIT' 
  ELSE
    CGETCLDFR = 'SKIP'
  END IF
END IF

!
!*       3.3  Moist turbulence
!
IF ( LUSERC .AND. CTURB /= 'NONE' ) THEN
  IF ( .NOT. (OUSERC .AND. HTURB /= 'NONE') ) THEN
    WRITE(UNIT=ILUOUT,FMT=9001) KMI
    WRITE(UNIT=ILUOUT,FMT='("YOU WANT TO USE MOIST TURBULENCE WHEREAS IT ",/, &
                 &   " WAS NOT THE CASE FOR THE INITIAL FMFILE GENERATION",/, &
                 &    "SRC AND SIGS ARE INITIALIZED TO 0")')
    CGETSRCT ='INIT'
    CGETSIGS ='INIT'
  ELSE
    CGETSRCT ='READ'
    IF ( (CCONF=='START') .AND. CPROGRAM /= 'DIAG') CGETSRCT ='INIT'
    CGETSIGS ='READ'
  END IF
ELSE
  CGETSRCT ='SKIP'
  CGETSIGS ='SKIP'
END IF
!
IF(NMODEL_CLOUD==KMI .AND. CTURBLEN_CLOUD/='NONE') THEN
  IF (CTURB=='NONE' .OR. .NOT.LUSERC) THEN
    WRITE(UNIT=ILUOUT,FMT=9001) KMI
    WRITE(UNIT=ILUOUT,FMT='("YOU WANT TO COMPUTE A MIXING LENGTH FOR CLOUD=", &
                 &   A4,/, &
                 &   ", WHEREAS YOU DO NOT SPECIFY A TURBULENCE SCHEME OR ",  &
                 &   "USE OF RC,",/," CTURBLEN_CLOUD IS SET TO NONE")')       &
                 CTURBLEN_CLOUD
    CTURBLEN_CLOUD='NONE'
  END IF
  IF( XCEI_MIN > XCEI_MAX ) THEN
    WRITE(UNIT=ILUOUT,FMT=9003) KMI
    WRITE(UNIT=ILUOUT,FMT='("PROBLEM OF CEI LIMITS FOR CLOUD MIXING  ",/, &
                 &   "LENGTH COMPUTATION: XCEI_MIN=",E9.3,", XCEI_MAX=",E9.3)')&
                 XCEI_MIN,XCEI_MAX
 !callabortstop
    CALL CLOSE_ll(HLUOUT,IOSTAT=IRESP)
    CALL ABORT
    STOP
  END IF
END IF
!
IF ( LSIGMAS ) THEN
  WRITE(UNIT=ILUOUT,FMT=9001) KMI
  WRITE(UNIT=ILUOUT,FMT='("YOU WANT TO USE SIGMA_S FROM TURBULENCE SCHEME",/, &
                 &   " IN ICE SUBGRID CONDENSATION, SO YOUR SIGMA_S"/, &
                 &   " MIGHT BE SMALL ABOVE PBL DEPENDING ON LENGTH SCALE")')
END IF
!
IF (LSUBG_COND .AND. CTURB=='NONE' ) THEN
  WRITE(UNIT=ILUOUT,FMT=9002) KMI
  WRITE(UNIT=ILUOUT,FMT=*) 'YOU WANT TO USE SUBGRID CONDENSATION'
  WRITE(UNIT=ILUOUT,FMT=*) ' WITHOUT TURBULENCE '                           
  WRITE(UNIT=ILUOUT,FMT=*) 'THIS IS NOT ALLOWED: LSUBG_COND is SET to FALSE'
  LSUBG_COND=.FALSE.
END IF
!
IF (L1D .AND. CTURB/='NONE' .AND. CTURBDIM == '3DIM') THEN
  WRITE(UNIT=ILUOUT,FMT=9002) KMI
  WRITE(UNIT=ILUOUT,FMT=*) 'YOU WANT TO USE 3D TURBULENCE IN 1D CONFIGURATION '
  WRITE(UNIT=ILUOUT,FMT=*) 'THIS IS NOT POSSIBLE: CTURBDIM IS SET TO 1DIM'
  CTURBDIM = '1DIM'
END IF
!
!*       3.4  Additional scalar variables 
!
IF (NSV_USER == KSV_USER) THEN
  DO  JS = 1,KSV_USER             ! to read all the variables in initial file 
    CGETSVT(JS)='READ'            ! and to initialize them 
    IF(CCONF=='START')CGETSVT(JS)='INIT'       ! with  these values  
  END DO
ELSEIF (NSV_USER > KSV_USER) THEN
 IF (KSV_USER == 0) THEN
    CGETSVT(1:NSV_USER)='INIT'
 ELSE
  WRITE(UNIT=ILUOUT,FMT=9001) KMI
  WRITE(UNIT=ILUOUT,FMT='("YOU WANT TO USE MORE ADDITIONAL SCALAR  " ,&
  &" VARIABLES THAN THERE ARE IN INITIAL FMFILE",/,                  &
  & "THE SUPPLEMENTARY VARIABLES HAVE BEEN INITIALIZED TO ZERO ")') 
  DO  JS = 1,KSV_USER             ! to read all the variables in initial file 
    CGETSVT(JS)='READ'            ! and to initialize them
    IF(CCONF=='START')CGETSVT(JS)='INIT'        ! with  these values
  END DO
  DO JS = KSV_USER+1, NSV_USER    ! to initialize to zero supplementary
    CGETSVT(JS)='INIT'            ! initial file)
  END DO
 END IF
ELSE
  WRITE(UNIT=ILUOUT,FMT=9000) KMI
  WRITE(UNIT=ILUOUT,FMT='("YOU WANT TO USE LESS ADDITIONAL SCALAR  " ,&
  &" VARIABLES THAN THERE ARE IN INITIAL FMFILE")')
  DO  JS = 1,NSV_USER             ! to read the first NSV_USER variables in initial file 
    CGETSVT(JS)='READ'            ! and to initialize with these values
    IF(CCONF=='START') CGETSVT(JS)='INIT'  
  END DO 
  DO  JS = NSV_USER + 1, KSV_USER ! to skip the last (KSV_USER-NSV_USER) variables
    CGETSVT(JS)='SKIP' 
  END DO
END IF
!
! C2R2 and KHKO SV case
!
IF (CCLOUD == 'C2R2' .OR. CCLOUD == 'C3R5' .OR. CCLOUD == 'KHKO') THEN 
  IF (HCLOUD == 'C2R2' .OR. HCLOUD == 'C3R5' .OR. HCLOUD == 'KHKO') THEN
    CGETSVT(NSV_C2R2BEG:NSV_C2R2END)='READ'
    IF(CCONF=='START') CGETSVT(NSV_C2R2BEG:NSV_C2R2END)='INIT'
  ELSE
    WRITE(UNIT=ILUOUT,FMT=9001) KMI
    WRITE(UNIT=ILUOUT,FMT='("THERE IS NO SCALAR VARIABLES FOR C2R2 &
         & (or KHKO) SCHEME IN INITIAL FMFILE",/,&
         & "THE C2R2 (or KHKO) VARIABLES HAVE BEEN INITIALIZED TO ZERO ")') 
    CGETSVT(NSV_C2R2BEG:NSV_C2R2END)='INIT'
  END IF
END IF
!
! C3R5 SV case
!
IF (CCLOUD == 'C3R5') THEN 
  IF (HCLOUD == 'C3R5') THEN
    CGETSVT(NSV_C1R3BEG:NSV_C1R3END)='READ'
    IF(CCONF=='START') CGETSVT(NSV_C1R3BEG:NSV_C1R3END)='INIT'
  ELSE
    WRITE(UNIT=ILUOUT,FMT=9001) KMI
    WRITE(UNIT=ILUOUT,FMT='("THERE IS NO SCALAR VARIABLES FOR C3R5 &
         &SCHEME IN INITIAL FMFILE",/,&
         & "THE C1R3 VARIABLES HAVE BEEN INITIALIZED TO ZERO ")') 
    CGETSVT(NSV_C1R3BEG:NSV_C1R3END)='INIT'
  END IF
END IF
!
! Electrical SV case
!
IF (CELEC /= 'NONE') THEN 
  IF (HELEC /= 'NONE') THEN
    CGETSVT(NSV_ELECBEG:NSV_ELECEND)='READ'
    IF(CCONF=='START') CGETSVT(NSV_ELECBEG:NSV_ELECEND)='INIT'
  ELSE
    WRITE(UNIT=ILUOUT,FMT=9001) KMI
    WRITE(UNIT=ILUOUT,FMT='("THERE IS NO SCALAR VARIABLES FOR ELECTRICAL &
         &SCHEME IN INITIAL FMFILE",/,&
         & "THE ELECTRICAL VARIABLES HAVE BEEN INITIALIZED TO ZERO ")') 
    CGETSVT(NSV_ELECBEG:NSV_ELECEND)='INIT'
  END IF
END IF
!
! Chemical SV case (including aqueous chemical species)
!
IF (LUSECHEM) THEN
  IF (OUSECHEM) THEN
    CGETSVT(NSV_CHEMBEG:NSV_CHEMEND)='READ'
    IF(CCONF=='START' .AND. LCH_INIT_FIELD ) CGETSVT(NSV_CHEMBEG:NSV_CHEMEND)='INIT'
  ELSE
    WRITE(UNIT=ILUOUT,FMT=9001) KMI
    WRITE(UNIT=ILUOUT,FMT='("THERE IS NO SCALAR VARIABLES FOR CHEMICAL &
         &SCHEME IN INITIAL FMFILE",/,&
         & "THE CHEMICAL VARIABLES HAVE BEEN INITIALIZED TO ZERO ")') 
    CGETSVT(NSV_CHEMBEG:NSV_CHEMEND)='INIT'
  END IF
END IF
! add ice phase chemical species
IF (LUSECHIC) THEN
  IF (OUSECHIC) THEN
    CGETSVT(NSV_CHICBEG:NSV_CHICEND)='READ'
    IF(CCONF=='START') CGETSVT(NSV_CHICBEG:NSV_CHICEND)='INIT'
  ELSE
    WRITE(UNIT=ILUOUT,FMT=9001) KMI
    WRITE(UNIT=ILUOUT,FMT='("THERE IS NO SCALAR VARIABLES FOR CHEMICAL &
         &SPECIES IN ICE PHASE IN INITIAL FMFILE",/,&
         & "THE ICE PHASE CHEMICAL VARIABLES HAVE BEEN INITIALIZED TO ZERO ")')
    CGETSVT(NSV_CHICBEG:NSV_CHICEND)='INIT'
  END IF
END IF
! pH values = diagnostics
IF (LCH_PH .AND. .NOT. OCH_PH) THEN
  CGETPHC ='INIT'  !will be initialized to XCH_PHINIT
  IF (LUSERR) THEN
    CGETPHR = 'INIT' !idem
  ELSE 
    CGETPHR = 'SKIP'
  ENDIF
ELSE
  IF (LCH_PH) THEN
    CGETPHC ='READ'
    IF (LUSERR) THEN
      CGETPHR = 'READ'
    ELSE
      CGETPHR = 'SKIP'
    ENDIF
  ELSE
    CGETPHC ='SKIP'
    CGETPHR ='SKIP'
  END IF
END IF
!
! Dust case
!
IF (LDUST) THEN
  IF (ODUST) THEN
    CGETSVT(NSV_DSTBEG:NSV_DSTEND)='READ'
    IF(CCONF=='START') CGETSVT(NSV_DSTBEG:NSV_DSTEND)='INIT'
  ELSE
    WRITE(UNIT=ILUOUT,FMT=9001) KMI
    WRITE(UNIT=ILUOUT,FMT='("THERE IS NO SCALAR VARIABLES FOR DUST &
         &SCHEME IN INITIAL FMFILE",/,&
         & "THE DUST VARIABLES HAVE BEEN INITIALIZED TO ZERO ")') 
    CGETSVT(NSV_DSTBEG:NSV_DSTEND)='INIT'
  END IF
  IF (LDEPOS_DST(KMI)) THEN

  IF((CCLOUD /= 'ICE3').AND.(CCLOUD /= 'ICE4').AND.(CCLOUD /= 'KESS')&
  .AND.(CCLOUD /= 'KHKO').AND.(CCLOUD /= 'C2R2'))  THEN
    WRITE(UNIT=ILUOUT,FMT=9003) KMI
    WRITE(UNIT=ILUOUT,FMT='("ERROR: WET DEPOSITION OF DUST IS ONLY CODED FOR THE",/,&
         & "MICROPHYSICAL SCHEME as ICE3, ICE4, KESS, KHKO and C2R2")') 
 !callabortstop
    CALL CLOSE_ll(HLUOUT,IOSTAT=IRESP)
    CALL ABORT
    STOP
  END IF  

   IF (ODEPOS_DST(KMI) ) THEN
    CGETSVT(NSV_DSTDEPBEG:NSV_DSTDEPEND)='READ'
    IF(CCONF=='START') CGETSVT(NSV_DSTDEPBEG:NSV_DSTDEPEND)='INIT'    
   ELSE
    WRITE(UNIT=ILUOUT,FMT=9001) KMI
    WRITE(UNIT=ILUOUT,FMT='("THERE IS NO SCALAR VARIABLES FOR RAIN and CLOUD DUST &
         &  SCHEME IN INITIAL FMFILE",/,&
         & "THE MOIST DUST VARIABLES HAVE BEEN INITIALIZED TO ZERO ")') 
    CGETSVT(NSV_DSTDEPBEG:NSV_DSTDEPEND)='INIT'    
   END IF
  END IF  

  IF(NMODE_DST.GT.3 .OR. NMODE_DST.LT.1) THEN
    WRITE(UNIT=ILUOUT,FMT=9003) KMI
    WRITE(UNIT=ILUOUT,FMT='("DUST MODES MUST BE BETWEEN 1 and 3 ")') 
 !callabortstop
    CALL CLOSE_ll(HLUOUT,IOSTAT=IRESP)
    CALL ABORT
    STOP
  END IF     
  IF(.NOT.ALLOCATED(CDUSTNAMES)) THEN
    IMOMENTS = (NSV_DSTEND - NSV_DSTBEG +1 )/NMODE_DST
    ALLOCATE(CDUSTNAMES(IMOMENTS*NMODE_DST))
    !Loop on all dust modes
    IF (IMOMENTS == 1) THEN
    DO JMODE=1,NMODE_DST
      IMODEIDX=JPDUSTORDER(JMODE)
      JSV_NAME = (IMODEIDX - 1)*3 + 2
      CDUSTNAMES(JMODE) = YPDUST_INI(JSV_NAME)
    END DO
    ELSE
    DO JMODE=1,NMODE_DST  
      !Find which mode we are dealing with
      IMODEIDX=JPDUSTORDER(JMODE)
      DO JMOM=1,IMOMENTS
        !Find which number this is of the list of scalars
        JSV = (JMODE-1)*IMOMENTS + JMOM
        !Find what name this corresponds to, always 3 moments assumed in YPDUST_INI
        JSV_NAME = (IMODEIDX - 1)*3 + JMOM
        !Get the right CDUSTNAMES which should follow the list of scalars transported in XSVM/XSVT
        CDUSTNAMES(JSV) = YPDUST_INI(JSV_NAME)
      ENDDO ! Loop on moments
    ENDDO    ! Loop on dust modes
    END IF 
  END IF 
  ! Initialization of deposition scheme
  IF (LDEPOS_DST(KMI)) THEN
    IF(.NOT.ALLOCATED(CDEDSTNAMES)) THEN
      ALLOCATE(CDEDSTNAMES(NMODE_DST*2))
      DO JMODE=1,NMODE_DST  
        IMODEIDX=JPDUSTORDER(JMODE)
        CDEDSTNAMES(JMODE) = YPDEDST_INI(IMODEIDX)
        CDEDSTNAMES(NMODE_DST+JMODE) = YPDEDST_INI(NMODE_DST+IMODEIDX)
      ENDDO
    ENDIF    
  ENDIF

END IF 
!
! Sea Salt case
!
IF (LSALT) THEN
  IF (OSALT) THEN
    CGETSVT(NSV_SLTBEG:NSV_SLTEND)='READ'
    IF(CCONF=='START') CGETSVT(NSV_SLTBEG:NSV_SLTEND)='INIT'
  ELSE
    WRITE(UNIT=ILUOUT,FMT=9001) KMI
    WRITE(UNIT=ILUOUT,FMT='("THERE IS NO SCALAR VARIABLES FOR SALT &
         &SCHEME IN INITIAL FMFILE",/,&
         & "THE SALT VARIABLES HAVE BEEN INITIALIZED TO ZERO ")') 
    CGETSVT(NSV_SLTBEG:NSV_SLTEND)='INIT'
  END IF
  IF (LDEPOS_SLT(KMI)) THEN

  IF((CCLOUD /= 'ICE3').AND.(CCLOUD /= 'ICE4').AND.(CCLOUD /= 'KESS')&
  .AND.(CCLOUD /= 'KHKO').AND.(CCLOUD /= 'C2R2'))  THEN
    WRITE(UNIT=ILUOUT,FMT=9003) KMI
    WRITE(UNIT=ILUOUT,FMT='("ERROR: WET DEPOSITION OF SEA SALT AEROSOLS IS ONLY CODED FOR THE",/,&
         & "MICROPHYSICAL SCHEME as ICE3, ICE4, KESS, KHKO and C2R2")') 
 !callabortstop
    CALL CLOSE_ll(HLUOUT,IOSTAT=IRESP)
    CALL ABORT
    STOP
  END IF  

   IF (ODEPOS_SLT(KMI) ) THEN
    CGETSVT(NSV_SLTDEPBEG:NSV_SLTDEPEND)='READ'
    IF(CCONF=='START') CGETSVT(NSV_SLTDEPBEG:NSV_SLTDEPEND)='INIT'    
   ELSE
    WRITE(UNIT=ILUOUT,FMT=9001) KMI
    WRITE(UNIT=ILUOUT,FMT='("THERE IS NO SCALAR VARIABLES FOR RAIN and CLOUD SEA SALT &
         &  SCHEME IN INITIAL FMFILE",/,&
         & "THE MOIST SEA SALT VARIABLES HAVE BEEN INITIALIZED TO ZERO ")') 
    CGETSVT(NSV_SLTDEPBEG:NSV_SLTDEPEND)='INIT'    
   END IF
  END IF
  IF(NMODE_SLT.GT.3 .OR. NMODE_SLT.LT.1) THEN
    WRITE(UNIT=ILUOUT,FMT=9003) KMI
    WRITE(UNIT=ILUOUT,FMT='("SALT MODES MUST BE BETWEEN 1 and 3 ")') 
 !callabortstop
    CALL CLOSE_ll(HLUOUT,IOSTAT=IRESP)
    CALL ABORT
    STOP
  END IF     
  IF(.NOT.ALLOCATED(CSALTNAMES)) THEN
    IMOMENTS = (NSV_SLTEND - NSV_SLTBEG +1 )/NMODE_SLT
    ALLOCATE(CSALTNAMES(IMOMENTS*NMODE_SLT))
    !Loop on all dust modes
    IF (IMOMENTS == 1) THEN
    DO JMODE=1,NMODE_SLT
      IMODEIDX=JPSALTORDER(JMODE)
      JSV_NAME = (IMODEIDX - 1)*3 + 2
      CSALTNAMES(JMODE) = YPSALT_INI(JSV_NAME)
    END DO
    ELSE
    DO JMODE=1,NMODE_SLT  
      !Find which mode we are dealing with
      IMODEIDX=JPSALTORDER(JMODE)
      DO JMOM=1,IMOMENTS
        !Find which number this is of the list of scalars
        JSV = (JMODE-1)*IMOMENTS + JMOM
        !Find what name this corresponds to, always 3 moments assumed in YPSALT_INI
        JSV_NAME = (IMODEIDX - 1)*3 + JMOM
        !Get the right CSALTNAMES which should follow the list of scalars transported in XSVM/XSVT
        CSALTNAMES(JSV) = YPSALT_INI(JSV_NAME)
      ENDDO ! Loop on moments
    ENDDO    ! Loop on dust modes
    END IF
  END IF 
  ! Initialization of deposition scheme
  IF (LDEPOS_SLT(KMI)) THEN
    IF(.NOT.ALLOCATED(CDESLTNAMES)) THEN
      ALLOCATE(CDESLTNAMES(NMODE_SLT*2))
      DO JMODE=1,NMODE_SLT  
        IMODEIDX=JPDUSTORDER(JMODE)
        CDESLTNAMES(JMODE) = YPDESLT_INI(IMODEIDX)
        CDESLTNAMES(NMODE_SLT+JMODE) = YPDESLT_INI(NMODE_SLT+IMODEIDX)
      ENDDO
    ENDIF    
  ENDIF
END IF 
!
! Orilam SV case
!
IF (LORILAM) THEN
  IF (OORILAM) THEN
    CGETSVT(NSV_AERBEG:NSV_AEREND)='READ'
    IF(CCONF=='START') CGETSVT(NSV_AERBEG:NSV_AEREND)='INIT'
  ELSE
    WRITE(UNIT=ILUOUT,FMT=9001) KMI
    WRITE(UNIT=ILUOUT,FMT='("THERE IS NO SCALAR VARIABLES FOR AEROSOL &
         &SCHEME IN INITIAL FMFILE",/,&
         & "THE AEROSOLS VARIABLES HAVE BEEN INITIALIZED TO ZERO ")') 
    CGETSVT(NSV_AERBEG:NSV_AEREND)='INIT'
  END IF
  IF (LDEPOS_AER(KMI)) THEN

  IF((CCLOUD /= 'ICE3').AND.(CCLOUD /= 'ICE4').AND.(CCLOUD /= 'KESS')&
  .AND.(CCLOUD /= 'KHKO').AND.(CCLOUD /= 'C2R2'))  THEN
    WRITE(UNIT=ILUOUT,FMT=9003) KMI
    WRITE(UNIT=ILUOUT,FMT='("ERROR: WET DEPOSITION OF ORILAM AEROSOLS IS ONLY CODED FOR THE",/,&
         & "MICROPHYSICAL SCHEME as ICE3, ICE4, KESS, KHKO and C2R2")') 
 !callabortstop
    CALL CLOSE_ll(HLUOUT,IOSTAT=IRESP)
    CALL ABORT
    STOP
  END IF  

   IF (ODEPOS_AER(KMI) ) THEN
    CGETSVT(NSV_AERDEPBEG:NSV_AERDEPEND)='READ'
    IF(CCONF=='START') CGETSVT(NSV_AERDEPBEG:NSV_AERDEPEND)='INIT'    
   ELSE
    WRITE(UNIT=ILUOUT,FMT=9001) KMI
    WRITE(UNIT=ILUOUT,FMT='("THERE IS NO SCALAR VARIABLES FOR RAIN and IN CLOUD  &
         &  AEROSOL SCHEME IN INITIAL FMFILE",/,&
         & "THE MOIST AEROSOL VARIABLES HAVE BEEN INITIALIZED TO ZERO ")') 
    CGETSVT(NSV_AERDEPBEG:NSV_AERDEPEND)='INIT'    
   END IF
  END IF
! Initialization of deposition scheme
  IF (LDEPOS_AER(KMI)) THEN
    IF(.NOT.ALLOCATED(CDEAERNAMES)) THEN
      ALLOCATE(CDEAERNAMES(JPMODE*2))
        CDEAERNAMES(:) = YPDEAER_INI(:)
    ENDIF    
  ENDIF
END IF
!
! Lagrangian variables
!
IF (LINIT_LG .AND. .NOT.(LLG)) THEN
      WRITE(UNIT=ILUOUT,FMT=9001) KMI
      WRITE(UNIT=ILUOUT,FMT='("IT IS INCOHERENT TO HAVE LINIT_LG=.T. AND LLG=.F.",/,&
      & "IF YOU WANT LAGRANGIAN TRACERS CHANGE LLG TO .T. ")')
ENDIF
IF (LLG) THEN
  IF (OLG .AND. .NOT.(LINIT_LG .AND. CPROGRAM=='MESONH')) THEN
    CGETSVT(NSV_LGBEG:NSV_LGEND)='READ'
    IF(CCONF=='START') CGETSVT(NSV_LGBEG:NSV_LGEND)='INIT'
  ELSE
    IF(.NOT.(LINIT_LG) .AND. CPROGRAM=='MESONH') THEN
      WRITE(UNIT=ILUOUT,FMT=9001) KMI
      WRITE(UNIT=ILUOUT,FMT='("THERE IS NO LAGRANGIAN VARIABLES IN INITIAL FMFILE",/,&
                       & "THE LAGRANGIAN VARIABLES HAVE BEEN REINITIALIZED")')
      LINIT_LG=.TRUE.
    ENDIF
    CGETSVT(NSV_LGBEG:NSV_LGEND)='INIT'
  END IF
END IF
!
!
! LINOx SV case
!
IF (.NOT.LUSECHEM .AND. LCH_CONV_LINOX) THEN
  IF (.NOT.OUSECHEM .AND. OCH_CONV_LINOX) THEN
    CGETSVT(NSV_LNOXBEG:NSV_LNOXEND)='READ'
  ELSE
    WRITE(UNIT=ILUOUT,FMT=9002) KMI
    WRITE(UNIT=ILUOUT,FMT='("THERE IS NO SCALAR VARIABLES FOR LINOX &
         &IN INITIAL FMFILE",/,&
         & "THE LINOX VARIABLES HAVE BEEN INITIALIZED TO ZERO ")') 
    CGETSVT(NSV_LNOXBEG:NSV_LNOXEND)='INIT'
  END IF
END IF
!
! Passive pollutant case
!
IF (LPASPOL) THEN
  IF (OPASPOL) THEN
    CGETSVT(NSV_PPBEG:NSV_PPEND)='READ'
    IF(CCONF=='START') CGETSVT(NSV_PPBEG:NSV_PPEND)='INIT'    
  ELSE
    WRITE(UNIT=ILUOUT,FMT=9001) KMI
    WRITE(UNIT=ILUOUT,FMT='("THERE IS NO PASSIVE SCALAR VARIABLES IN INITIAL FMFILE",/,&
                       & "THE VARIABLES HAVE BEEN INITIALIZED TO ZERO")')
    CGETSVT(NSV_PPBEG:NSV_PPEND)='INIT'
  END IF
END IF
!
#ifdef MNH_FOREFIRE
! ForeFire
!
IF (LFOREFIRE) THEN
  IF (OFOREFIRE) THEN
!!$    CGETSVM(NSV_FFBEG:NSV_FFEND)='READ'
    CGETSVT(NSV_FFBEG:NSV_FFEND)='READ'
    IF(HSTORAGE_TYPE=='TT') THEN
      CGETSVT(NSV_FFBEG:NSV_FFEND)='INIT'
!!$      CGETSVM(NSV_FFBEG:NSV_FFEND)='INIT'
    END IF
  ELSE
    WRITE(UNIT=ILUOUT,FMT=9001) KMI
    WRITE(UNIT=ILUOUT,FMT='("THERE IS NO FOREFIRE SCALAR VARIABLES IN INITIAL FMFILE",/,&
                       & "THE VARIABLES HAVE BEEN INITIALIZED TO ZERO")')
!!$    CGETSVM(NSV_FFBEG:NSV_FFEND)='INIT'
    CGETSVT(NSV_FFBEG:NSV_FFEND)='INIT'
  END IF
END IF
#endif
!
! Conditional sampling case
!
IF (LCONDSAMP) THEN
  IF (OCONDSAMP) THEN
    CGETSVT(NSV_CSBEG:NSV_CSEND)='READ'
    IF(CCONF=='START') CGETSVT(NSV_CSBEG:NSV_CSEND)='INIT'       
  ELSE
    WRITE(UNIT=ILUOUT,FMT=9001) KMI
    WRITE(UNIT=ILUOUT,FMT='("THERE IS NO PASSIVE SCALAR VARIABLES IN INITIAL FMFILE",/,&
                       & "THE VARIABLES HAVE BEEN INITIALIZED TO ZERO")')
    CGETSVT(NSV_CSBEG:NSV_CSEND)='INIT'
  END IF
END IF
!
!
!*       3.5  Check coherence between the radiation control parameters
!
IF( CRAD == 'ECMW' .AND. CPROGRAM=='MESONH' ) THEN
  IF(CLW == 'RRTM' .AND. COPILW == 'SMSH') THEN
    WRITE(UNIT=ILUOUT,FMT=9003) KMI
    WRITE(UNIT=ILUOUT,FMT=*) 'the SMSH parametrisation of LW optical properties for cloud ice'
    WRITE(UNIT=ILUOUT,FMT=*) '(COPILW) can not be used with RRTM radiation scheme'
 !callabortstop
    CALL CLOSE_ll(HLUOUT,IOSTAT=IRESP)
    CALL ABORT
    STOP
  ENDIF
  IF(CLW == 'MORC' .AND. COPWLW == 'LILI') THEN
    WRITE(UNIT=ILUOUT,FMT=9003) KMI
    WRITE(UNIT=ILUOUT,FMT=*) 'the LILI parametrisation of LW optical properties for cloud water'
    WRITE(UNIT=ILUOUT,FMT=*) '(COPWLW) can not be used with MORC radiation scheme'
 !callabortstop
    CALL CLOSE_ll(HLUOUT,IOSTAT=IRESP)
    CALL ABORT
    STOP
  ENDIF
  IF( .NOT. LSUBG_COND) THEN
    WRITE(UNIT=ILUOUT,FMT=9000) KMI
    WRITE(UNIT=ILUOUT,FMT=*) 'YOU DO NOT WANT TO USE SUBGRID CONDENSATION'             
    WRITE(UNIT=ILUOUT,FMT=*) 'THE OVERLAP OPTION IS NOVLP=5 IN ini_radconf.f90'
  ELSE IF (CLW == 'MORC') THEN
    WRITE(UNIT=ILUOUT,FMT=9000) KMI
    WRITE(UNIT=ILUOUT,FMT=*) 'YOU WANT TO USE MORCRETTE LW SCHEME'                   
    WRITE(UNIT=ILUOUT,FMT=*) 'THE OVERLAP OPTION IS NOVLP=5 IN ini_radconf.f90'
  ELSE
    WRITE(UNIT=ILUOUT,FMT=9000) KMI
    WRITE(UNIT=ILUOUT,FMT=*) 'THE OVERLAP OPTION IS NOVLP=6 IN ini_radconf.f90'
  ENDIF
!
  IF( LCLEAR_SKY .AND. XDTRAD_CLONLY /= XDTRAD) THEN
    ! Check the validity of the LCLEAR_SKY approximation
    WRITE(UNIT=ILUOUT,FMT=9003) KMI
    WRITE(UNIT=ILUOUT,FMT=*) 'YOU WANT TO USE BOTH THE CLEAR-SKY APPROXIMATION'
    WRITE(UNIT=ILUOUT,FMT=*) '(i.e. AVERAGE THE WHOLE CLOUDFREE VERTICALS BUT KEEP'
    WRITE(UNIT=ILUOUT,FMT=*) 'ALL THE CLOUDY VERTICALS) AND'
    WRITE(UNIT=ILUOUT,FMT=*) 'THE CLOUD-ONLY APPROXIMATION (i.e. YOU CALL MORE OFTEN THE'
    WRITE(UNIT=ILUOUT,FMT=*) 'RADIATIONS FOR THE CLOUDY VERTICALS THAN FOR CLOUDFREE ONES).'
    WRITE(UNIT=ILUOUT,FMT=*) 'THIS IS NOT POSSIBLE, SO CHOOSE BETWEEN :'
    WRITE(UNIT=ILUOUT,FMT=*) 'XDTRAD_CLONLY = XDTRAD and LCLEAR_SKY = FALSE'
!
 !callabortstop
    CALL CLOSE_ll(HLUOUT,IOSTAT=IRESP)
    CALL ABORT
    STOP
  END IF
!
  IF( XDTRAD_CLONLY > XDTRAD ) THEN
    WRITE(UNIT=ILUOUT,FMT=9003) KMI
    WRITE(UNIT=ILUOUT,FMT='("BAD USE OF THE CLOUD-ONLY APPROXIMATION   " ,&
    &" XDTRAD SHOULD BE LARGER THAN XDTRAD_CLONLY                      ")')
!
 !callabortstop
    CALL CLOSE_ll(HLUOUT,IOSTAT=IRESP)
    CALL ABORT
    STOP
  END IF
!
  IF(( XDTRAD < XTSTEP ).OR. ( XDTRAD_CLONLY < XTSTEP )) THEN
    WRITE(UNIT=ILUOUT,FMT=9003) KMI
    WRITE(UNIT=ILUOUT,FMT='("THE RADIATION CALL XDTRAD OR XDTRAD_CLONLY " ,&
    &" IS MORE FREQUENT THAN THE TIME STEP SO ADJUST XDTRAD OR XDTRAD_CLONLY ")')
!
 !callabortstop
    CALL CLOSE_ll(HLUOUT,IOSTAT=IRESP)
    CALL ABORT
    STOP
  END IF
END IF
!