read_field.f90

!     ######spl
      MODULE MODI_READ_FIELD
!     ######################
!
INTERFACE 
!
      SUBROUTINE READ_FIELD(HINIFILE,HLUOUT,KIU,KJU,KKU,PTSTEP_OLD,PTSTEP,   &
            HGETTKEM,HGETRVM,HGETRCM,HGETRRM,HGETRIM,HGETRSM,                &
            HGETRGM,HGETRHM,HGETSVM,HGETSRCM,                                &
            HGETTKET,HGETRVT,HGETRCT,HGETRRT,HGETRIT,HGETCIT,                &
            HGETRST,HGETRGT,HGETRHT,HGETSVT,HGETSRCT,HGETSIGS,HGETCLDFR,     &
            HGETBL_DEPTH,HGETSBL_DEPTH,HGETPHC,HGETPHR,                      &
            KSIZELBX_ll,KSIZELBXU_ll,KSIZELBY_ll,KSIZELBYV_ll,               &
            KSIZELBXTKE_ll,KSIZELBYTKE_ll,                                   &
            KSIZELBXR_ll,KSIZELBYR_ll,KSIZELBXSV_ll,KSIZELBYSV_ll,           &
            PUM,PVM,PWM,PTHM,PPABSM,PTKEM,PRM,PSVM,PSRCM,                    &
            PUT,PVT,PWT,PTHT,PPABST,PTKET,PRT,PSVT,PCIT,PDRYMASST,           &
            PSIGS,PSRCT,PCLDFR,PBL_DEPTH,PSBL_DEPTH,PWTHVMF,PPHC,PPHR,       &
            PLSUM,PLSVM,PLSWM,PLSTHM,PLSRVM,                                 &
            PLBXUM,PLBXVM,PLBXWM,PLBXTHM,PLBXTKEM,PLBXRM,PLBXSVM,            &
            PLBYUM,PLBYVM,PLBYWM,PLBYTHM,PLBYTKEM,PLBYRM,PLBYSVM,            &
            KFRC,TPDTFRC,PUFRC,PVFRC,PWFRC,PTHFRC,PRVFRC,                    &
            PTENDTHFRC,PTENDRVFRC,PGXTHFRC,PGYTHFRC,PPGROUNDFRC,PATC,        &
            KADVFRC,TPDTADVFRC,PDTHFRC,PDRVFRC,                              &
            KRELFRC,TPDTRELFRC, PTHREL, PRVREL,                              &
            PVTH_FLUX_M,PWTH_FLUX_M,PVU_FLUX_M )

!
USE MODD_TIME ! for type DATE_TIME
!
!
CHARACTER (LEN=*),         INTENT(IN)  :: HINIFILE       
                             ! name of the initial file
CHARACTER (LEN=*),         INTENT(IN)  :: HLUOUT        
                             ! name for output-listing of nested models
INTEGER,                   INTENT(IN)  :: KIU, KJU, KKU   
                             ! array sizes in x, y and z  directions
REAL,                      INTENT(IN)  :: PTSTEP_OLD   
                             ! OLD Time STEP (DESFM)
REAL,                      INTENT(IN)  :: PTSTEP       
                             ! current Time STEP   
! 
CHARACTER (LEN=*),         INTENT(IN)  :: HGETTKEM,                          &
                                          HGETRVM,HGETRCM,HGETRRM,           &
                                          HGETRIM,HGETRSM,HGETRGM,HGETRHM,   &
                                          HGETSRCM
CHARACTER (LEN=*), DIMENSION(:),INTENT(IN)  :: HGETSVM
!
CHARACTER (LEN=*),         INTENT(IN)  :: HGETTKET,                          &
                                          HGETRVT,HGETRCT,HGETRRT,           &
                                          HGETRIT,HGETRST,HGETRGT,HGETRHT,   & 
                                          HGETCIT,HGETSRCT,                  &
                                          HGETSIGS,HGETCLDFR,HGETBL_DEPTH,   &
                                          HGETSBL_DEPTH,HGETPHC,HGETPHR
CHARACTER (LEN=*), DIMENSION(:),INTENT(IN)  :: HGETSVT
!
! GET indicators to know wether a given  variable should or not be read in the
! FM file at time t-deltat and t
!
! sizes of the West-east total LB area
INTEGER, INTENT(IN) :: KSIZELBX_ll,KSIZELBXU_ll      ! for T,V,W and u 
INTEGER, INTENT(IN) :: KSIZELBXTKE_ll                ! for TKE 
INTEGER, INTENT(IN) :: KSIZELBXR_ll,KSIZELBXSV_ll    ! for Rx and SV    
! sizes of the North-south total LB area
INTEGER, INTENT(IN) :: KSIZELBY_ll,KSIZELBYV_ll      ! for T,U,W  and v
INTEGER, INTENT(IN):: KSIZELBYTKE_ll                ! for TKE
INTEGER, INTENT(IN) :: KSIZELBYR_ll,KSIZELBYSV_ll    ! for Rx and SV 
REAL, DIMENSION(:,:,:),    INTENT(OUT) :: PUM,PVM,PWM     ! U,V,W at t-dt
REAL, DIMENSION(:,:,:),    INTENT(OUT) :: PTHM,PTKEM      ! theta, tke and
                                                          ! eps at t-dt
REAL, DIMENSION(:,:,:),    INTENT(OUT) :: PPABSM          ! pressure at t-dt
REAL, DIMENSION(:,:,:,:),  INTENT(OUT) :: PRM,PSVM        ! moist and scalar
                                                          ! variables at t-dt
REAL, DIMENSION(:,:,:),    INTENT(OUT) :: PSRCM           ! turbulent flux
                                                          !  <s'Rc'> at t-dt
REAL, DIMENSION(:,:),      INTENT(OUT) :: PBL_DEPTH       ! BL depth
REAL, DIMENSION(:,:),      INTENT(OUT) :: PSBL_DEPTH      ! SBL depth
REAL, DIMENSION(:,:,:),    INTENT(OUT) :: PWTHVMF         ! MassFlux buoyancy flux
!
REAL, DIMENSION(:,:,:),    INTENT(OUT) :: PUT,PVT,PWT     ! U,V,W at t
REAL, DIMENSION(:,:,:),    INTENT(OUT) :: PTHT,PTKET      ! theta, tke and
                                                          ! eps at t
REAL, DIMENSION(:,:,:),    INTENT(OUT) :: PPABST          ! pressure at t
REAL, DIMENSION(:,:,:,:),  INTENT(OUT) :: PRT,PSVT        ! moist and scalar
                                                          ! variables at t
REAL, DIMENSION(:,:,:),    INTENT(OUT) :: PSRCT           ! turbulent flux
                                                          !  <s'Rc'> at t 
REAL, DIMENSION(:,:,:),    INTENT(OUT) :: PCIT            ! ice conc. at t
REAL,                      INTENT(OUT) :: PDRYMASST       ! Md(t)
REAL, DIMENSION(:,:,:),    INTENT(OUT) :: PSIGS           ! =sqrt(<s's'>) for the
                                                          ! Subgrid Condensation
REAL, DIMENSION(:,:,:),    INTENT(OUT) :: PCLDFR          ! cloud fraction  
REAL, DIMENSION(:,:,:),    INTENT(OUT) :: PPHC            ! pH value in cloud water  
REAL, DIMENSION(:,:,:),    INTENT(OUT) :: PPHR            ! pH value in rainwater  
! Larger Scale fields
REAL, DIMENSION(:,:,:),          INTENT(OUT) :: PLSUM,PLSVM,PLSWM    ! Wind
REAL, DIMENSION(:,:,:),          INTENT(OUT) :: PLSTHM,  PLSRVM      ! Mass
! LB fields
REAL, DIMENSION(:,:,:),          INTENT(OUT) :: PLBXUM,PLBXVM,PLBXWM ! Wind
REAL, DIMENSION(:,:,:),          INTENT(OUT) :: PLBXTHM              ! Mass
REAL, DIMENSION(:,:,:),          INTENT(OUT) :: PLBYUM,PLBYVM,PLBYWM ! Wind
REAL, DIMENSION(:,:,:),          INTENT(OUT) :: PLBYTHM              ! Mass
REAL, DIMENSION(:,:,:),          INTENT(OUT) :: PLBXTKEM          ! TKE
REAL, DIMENSION(:,:,:),          INTENT(OUT) :: PLBYTKEM
REAL, DIMENSION(:,:,:,:),        INTENT(OUT) :: PLBXRM  ,PLBXSVM  ! Moisture and SV
REAL, DIMENSION(:,:,:,:),        INTENT(OUT) :: PLBYRM  ,PLBYSVM  ! in x and y-dir.
! Forcing fields
INTEGER,              INTENT(IN)  :: KFRC              ! number of forcing
TYPE (DATE_TIME), DIMENSION(:), INTENT(OUT) :: TPDTFRC ! date of forcing profs.
REAL, DIMENSION(:,:), INTENT(OUT) :: PUFRC,PVFRC,PWFRC ! forcing variables
REAL, DIMENSION(:,:), INTENT(OUT) :: PTHFRC,PRVFRC
REAL, DIMENSION(:,:), INTENT(OUT) :: PTENDTHFRC,PTENDRVFRC,PGXTHFRC,PGYTHFRC
REAL, DIMENSION(:),   INTENT(OUT) :: PPGROUNDFRC
REAL, DIMENSION(:,:,:,:), INTENT(OUT) :: PATC
INTEGER,              INTENT(IN)  :: KADVFRC              ! number of forcing
TYPE (DATE_TIME), DIMENSION(:), INTENT(OUT) :: TPDTADVFRC ! date of forcing profs.
REAL, DIMENSION(:,:,:,:),   INTENT(OUT) :: PDTHFRC, PDRVFRC
INTEGER,              INTENT(IN)  :: KRELFRC              ! number of forcing
TYPE (DATE_TIME), DIMENSION(:), INTENT(OUT) :: TPDTRELFRC ! date of forcing profs.
REAL, DIMENSION(:,:,:,:),   INTENT(OUT) :: PTHREL, PRVREL
REAL, DIMENSION(:,:,:),     INTENT(OUT) :: PVTH_FLUX_M,PWTH_FLUX_M,PVU_FLUX_M ! Eddy fluxes
!
!
END SUBROUTINE READ_FIELD
!
END INTERFACE
!
END MODULE MODI_READ_FIELD
!     ######spl
      SUBROUTINE READ_FIELD(HINIFILE,HLUOUT,KIU,KJU,KKU,PTSTEP_OLD,PTSTEP,   &
            HGETTKEM,HGETRVM,HGETRCM,HGETRRM,HGETRIM,HGETRSM,                &
            HGETRGM,HGETRHM,HGETSVM,HGETSRCM,                                &
            HGETTKET,HGETRVT,HGETRCT,HGETRRT,HGETRIT,HGETCIT,                &
            HGETRST,HGETRGT,HGETRHT,HGETSVT,HGETSRCT,HGETSIGS,HGETCLDFR,     &
            HGETBL_DEPTH,HGETSBL_DEPTH,HGETPHC,HGETPHR,                      &
            KSIZELBX_ll,KSIZELBXU_ll,KSIZELBY_ll,KSIZELBYV_ll,               &
            KSIZELBXTKE_ll,KSIZELBYTKE_ll,                                   &
            KSIZELBXR_ll,KSIZELBYR_ll,KSIZELBXSV_ll,KSIZELBYSV_ll,           &
             PUM,PVM,PWM,PTHM,PPABSM,PTKEM,PRM,PSVM,PSRCM,                   &
            PUT,PVT,PWT,PTHT,PPABST,PTKET,PRT,PSVT,PCIT,PDRYMASST,           &
            PSIGS,PSRCT,PCLDFR,PBL_DEPTH,PSBL_DEPTH,PWTHVMF,PPHC,PPHR,       &
            PLSUM,PLSVM,PLSWM,PLSTHM,PLSRVM,                                 &
            PLBXUM,PLBXVM,PLBXWM,PLBXTHM,PLBXTKEM,PLBXRM,PLBXSVM,            &
            PLBYUM,PLBYVM,PLBYWM,PLBYTHM,PLBYTKEM,PLBYRM,PLBYSVM,            &
            KFRC,TPDTFRC,PUFRC,PVFRC,PWFRC,PTHFRC,PRVFRC,                    &
            PTENDTHFRC,PTENDRVFRC,PGXTHFRC,PGYTHFRC,PPGROUNDFRC,PATC,        &
            KADVFRC,TPDTADVFRC,PDTHFRC,PDRVFRC,                              &
            KRELFRC,TPDTRELFRC, PTHREL, PRVREL,                              &
            PVTH_FLUX_M,PWTH_FLUX_M,PVU_FLUX_M )
!     ########################################################################
!
!!****  *READ_FIELD* - routine to read prognostic and surface fields
!!
!!    PURPOSE
!!    -------
!       The purpose of this routine is to initialize  prognostic and 
!     surface fields by reading their  value in initial file or by setting 
!     them to a fixed value.
!
!!**  METHOD
!!    ------
!!      According to the get indicators, the prognostics fields are :
!!          - initialized by reading their value in the LFIFM file 
!!    if the corresponding indicators are equal to 'READ'  
!!          - initialized to zero if the corresponding indicators 
!!    are equal to 'INIT'
!!          -  not initialized if their corresponding indicators 
!!    are equal to 'SKIP'
!!
!!      In case of time step change, all fields at t-dt are (linearly)
!!    interpolated to get a consistant initial state before the segment 
!!    integration  
!!
!!    EXTERNAL
!!    --------
!!      FMREAD   : to read data in LFIFM file
!!      INI_LS   : to initialize larger scale fields
!!      INI_LB   : to initialize "2D" surfacic LB fields 
!!       
!!    IMPLICIT ARGUMENTS
!!    ------------------ 
!!      Module MODD_CONF   : NVERB,CCONF,CPROGRAM
!!
!!      Module MODD_CTURB :  XTKEMIN
!!
!!    REFERENCE
!!    ---------
!!      Book2 of the documentation (routine READ_FIELD)
!!      
!!
!!    AUTHOR
!!    ------
!!  	V. Ducrocq       * Meteo France *
!!
!!    MODIFICATIONS
!!    -------------
!!      Original        15/06/94 
!!      modification    22/11/94  add the pressure function (J.Stein)
!!      modification    22/11/94  add the LS fields         (J.Stein)
!!      modification    06/01/95  add Md(t)                 (J.P.Lafore)
!!                      26/03/95  add EPS var               (J. Cuxart)
!!                      30/06/95  add var related to the Subgrid condensation
!!                                                                   (J.Stein)
!!                      18/08/95  time step change case     (J.P.Lafore)
!!                      01/03/96  add the cloud fraction    (J. Stein)
!!     modification     13/12/95  add fmread of the forcing variables 
!!                                                          (M.Georgelin)
!!     modification     13/02/96  external control of the forcing (J.-P. Pinty)
!!                      11/04/96  add the ice concentration (J.-P. Pinty)
!!                      27/01/97  read ISVR 3D fields of SV (J.-P. Pinty)
!!                      26/02/97  "surfacic" LS fieds  introduction (J.P.Lafore)
!!          (V MASSON)  03/03/97  positivity control for time step change 
!!                      10/04/97  proper treatment of minima for LS-fields (J.P.Lafore)
!!           J. Stein   22/06/97  use the absolute pressure
!!           J. Stein   22/10/97  cleaning + add the LB fields for u,v,w,theta,Rv
!!          P. Bechtold 22/01/98  add SST and surface pressure forcing
!!          V. Ducrocq  14/08/98  //,  remove KIINF,KJINF,KISUP,KJSUP,
!!                                     and introduce INI_LS and INI_LB
!!          J. Stein    22/01/99  add the reading of STORAGE_TYPE to improve
!!                                the START case when the file contains 2
!!                                instants MT
!!          D. Gazen    22/01/01  use MODD_NSV to handle NSV floating indices
!!                                for the current model
!!          V. Masson   01/2004   removes surface (externalization)
!!       J.-P. Pinty    06/05/04  treat NSV_* for C1R3 and ELEC
!!                      05/06     Remove EPS
!!          M. Leriche  04/10     add pH in cloud water and rainwater
!!          M. Leriche  07/10     treat NSV_* for ice phase chemical species
!!          M.Tomasini, 
!!          P. Peyrille   06/12   2D west african monsoon : add reading of ADV forcing and addy fluxes 
!!          C.Lac       03/13     add prognostic supersaturation for C2R2/KHKO
!!-------------------------------------------------------------------------------
!
!*       0.    DECLARATIONS
!              ------------
USE MODE_FM
USE MODE_IO_ll, ONLY : UPCASE
!
USE MODD_CONF
USE MODD_TIME ! for type DATE_TIME
USE MODD_CST
USE MODD_CTURB
USE MODD_NSV
USE MODD_DUST
USE MODD_SALT
USE MODD_PASPOL
USE MODD_CH_AEROSOL
USE MODD_CH_MNHC_n, ONLY : XCH_PHINIT
!
USE MODD_RAIN_C2R2_DESCR, ONLY: C2R2NAMES
USE MODD_ICE_C1R3_DESCR,  ONLY: C1R3NAMES
USE MODD_CH_M9_n,         ONLY: CNAMES, CICNAMES
USE MODD_LG,              ONLY: CLGNAMES
USE MODD_ELEC_DESCR,      ONLY: CELECNAMES
USE MODD_PARAM_C2R2,      ONLY: LSUPSAT
!
USE MODE_FMREAD
USE MODI_INI_LS
USE MODI_INI_LB
!
USE MODD_LATZ_EDFLX
USE MODD_2D_FRC
!
IMPLICIT NONE
!
!*       0.1   declarations of arguments
!
!
!
CHARACTER (LEN=*),         INTENT(IN)  :: HINIFILE       
                             ! name of the initial file
CHARACTER (LEN=*),         INTENT(IN)  :: HLUOUT        
                             ! name for output-listing of nested models
INTEGER,                   INTENT(IN)  :: KIU, KJU, KKU   
                             ! array sizes in x, y and z  directions
REAL,                      INTENT(IN)  :: PTSTEP_OLD   
                             ! OLD Time STEP (DESFM)
REAL,                      INTENT(IN)  :: PTSTEP       
                             ! current Time STEP   
! 
CHARACTER (LEN=*),         INTENT(IN)  :: HGETTKEM,                          &
                                          HGETRVM,HGETRCM,HGETRRM,           &
                                          HGETRIM,HGETRSM,HGETRGM,HGETRHM,   &
                                          HGETSRCM
CHARACTER (LEN=*), DIMENSION(:),INTENT(IN)  :: HGETSVM
!
CHARACTER (LEN=*),         INTENT(IN)  :: HGETTKET,                          &
                                          HGETRVT,HGETRCT,HGETRRT,           &
                                          HGETRIT,HGETRST,HGETRGT,HGETRHT,   & 
                                          HGETCIT,HGETSRCT,                  &
                                          HGETSIGS,HGETCLDFR,HGETBL_DEPTH,   &
                                          HGETSBL_DEPTH,HGETPHC,HGETPHR
CHARACTER (LEN=*), DIMENSION(:),INTENT(IN)  :: HGETSVT
!
! GET indicators to know wether a given  variable should or not be read in the
! FM file at time t-deltat and t
!
! sizes of the West-east total LB area
INTEGER, INTENT(IN) :: KSIZELBX_ll,KSIZELBXU_ll      ! for T,V,W and u 
INTEGER, INTENT(IN) :: KSIZELBXTKE_ll                ! for TKE 
INTEGER, INTENT(IN) :: KSIZELBXR_ll,KSIZELBXSV_ll    ! for Rx and SV    
! sizes of the North-south total LB area
INTEGER, INTENT(IN) :: KSIZELBY_ll,KSIZELBYV_ll      ! for T,U,W  and v
INTEGER, INTENT(IN):: KSIZELBYTKE_ll                ! for TKE
INTEGER, INTENT(IN) :: KSIZELBYR_ll,KSIZELBYSV_ll    ! for Rx and SV 
!
REAL, DIMENSION(:,:,:),    INTENT(OUT) :: PUM,PVM,PWM     ! U,V,W at t-dt
REAL, DIMENSION(:,:,:),    INTENT(OUT) :: PTHM,PTKEM      ! theta, tke and
                                                          ! eps at t-dt
REAL, DIMENSION(:,:,:),    INTENT(OUT) :: PPABSM          ! pressure at t-dt
REAL, DIMENSION(:,:,:,:),  INTENT(OUT) :: PRM,PSVM        ! moist and scalar
                                                          ! variables at t-dt
REAL, DIMENSION(:,:,:),    INTENT(OUT) :: PSRCM           ! turbulent flux
                                                          !  <s'Rc'> at t-dt
REAL, DIMENSION(:,:),      INTENT(OUT) :: PBL_DEPTH       ! BL depth
REAL, DIMENSION(:,:),      INTENT(OUT) :: PSBL_DEPTH      ! SBL depth
REAL, DIMENSION(:,:,:),    INTENT(OUT) :: PWTHVMF         ! MassFlux buoyancy flux
!
REAL, DIMENSION(:,:,:),    INTENT(OUT) :: PUT,PVT,PWT     ! U,V,W at t
REAL, DIMENSION(:,:,:),    INTENT(OUT) :: PTHT,PTKET      ! theta, tke and
                                                          ! eps at t
REAL, DIMENSION(:,:,:),    INTENT(OUT) :: PPABST          ! pressure at t
REAL, DIMENSION(:,:,:,:),  INTENT(OUT) :: PRT,PSVT        ! moist and scalar
                                                          ! variables at t
REAL, DIMENSION(:,:,:),    INTENT(OUT) :: PSRCT           ! turbulent flux
                                                          !  <s'Rc'> at t 
REAL, DIMENSION(:,:,:),    INTENT(OUT) :: PCIT            ! ice conc. at t
REAL,                      INTENT(OUT) :: PDRYMASST       ! Md(t)
REAL, DIMENSION(:,:,:),    INTENT(OUT) :: PSIGS           ! =sqrt(<s's'>) for the
                                                          ! Subgrid Condensation
REAL, DIMENSION(:,:,:),    INTENT(OUT) :: PCLDFR          ! cloud fraction  
REAL, DIMENSION(:,:,:),    INTENT(OUT) :: PPHC            ! pH value in cloud water  
REAL, DIMENSION(:,:,:),    INTENT(OUT) :: PPHR            ! pH value in rainwater  
!
!
! Larger Scale fields
REAL, DIMENSION(:,:,:),          INTENT(OUT) :: PLSUM,PLSVM,PLSWM    ! Wind
REAL, DIMENSION(:,:,:),          INTENT(OUT) :: PLSTHM,  PLSRVM      ! Mass
REAL, DIMENSION(:,:,:),          INTENT(OUT) :: PLBXUM,PLBXVM,PLBXWM ! Wind
REAL, DIMENSION(:,:,:),          INTENT(OUT) :: PLBXTHM              ! Mass
REAL, DIMENSION(:,:,:),          INTENT(OUT) :: PLBYUM,PLBYVM,PLBYWM ! Wind
REAL, DIMENSION(:,:,:),          INTENT(OUT) :: PLBYTHM              ! Mass
REAL, DIMENSION(:,:,:),          INTENT(OUT) :: PLBXTKEM          ! TKE
REAL, DIMENSION(:,:,:),          INTENT(OUT) :: PLBYTKEM
REAL, DIMENSION(:,:,:,:),        INTENT(OUT) :: PLBXRM  ,PLBXSVM  ! Moisture and SV
REAL, DIMENSION(:,:,:,:),        INTENT(OUT) :: PLBYRM  ,PLBYSVM  ! in x and y-dir.
!
!       
! Forcing fields
INTEGER,              INTENT(IN)  :: KFRC              ! number of forcing
TYPE (DATE_TIME), DIMENSION(:), INTENT(OUT) :: TPDTFRC ! date of forcing profs.
REAL, DIMENSION(:,:), INTENT(OUT) :: PUFRC,PVFRC,PWFRC ! forcing variables
REAL, DIMENSION(:,:), INTENT(OUT) :: PTHFRC,PRVFRC
REAL, DIMENSION(:,:), INTENT(OUT) :: PTENDTHFRC,PTENDRVFRC,PGXTHFRC,PGYTHFRC
REAL, DIMENSION(:),   INTENT(OUT) :: PPGROUNDFRC
REAL, DIMENSION(:,:,:,:), INTENT(OUT) :: PATC
!
REAL, DIMENSION(:,:,:),     INTENT(OUT) :: PVTH_FLUX_M,PWTH_FLUX_M,PVU_FLUX_M ! Eddy fluxes
INTEGER,              INTENT(IN)  :: KADVFRC                 ! number of forcing
TYPE (DATE_TIME), DIMENSION(:), INTENT(OUT) :: TPDTADVFRC    ! date of forcing profs.
REAL, DIMENSION(:,:,:,:),   INTENT(OUT) :: PDTHFRC, PDRVFRC  ! advective forcing
INTEGER,              INTENT(IN)  :: KRELFRC                 ! number of forcing
TYPE (DATE_TIME), DIMENSION(:), INTENT(OUT) :: TPDTRELFRC    ! date of forcing profs.
REAL, DIMENSION(:,:,:,:),   INTENT(OUT) :: PTHREL, PRVREL    ! relaxation forcing
!
!*       0.2   declarations of local variables
!
REAL, DIMENSION(KIU,KJU,KKU) :: Z3D               ! 3D array used to read  data
                                                  ! in initial file 
REAL, DIMENSION(KIU,KJU,KKU) :: ZWORK             ! to compute supersaturation 
INTEGER             :: IGRID,ILENCH,IRESP         !   File 
CHARACTER (LEN=16)  :: YRECFM                     ! management
CHARACTER (LEN=100) :: YCOMMENT                   ! variables 
CHARACTER (LEN=2)   :: YDIR                       !
INTEGER             :: ILUOUT                     ! Unit number for prints
INTEGER             :: JSV                        ! Loop index for additional
                                                  ! scalar variables
INTEGER             :: ISV                        ! total number of  scalar variables
INTEGER             :: IRR                        !  counter for moist variables
INTEGER             :: JKLOOP,JRR                 ! Loop indexes
INTEGER             :: IIUP,IJUP                  ! size  of working 
                                                  ! window arrays
REAL                :: Z1,Z2                      ! coeff. for the temporal 
                                                  ! interpolation
INTEGER             :: JT                  ! loop index
REAL, DIMENSION(KKU)        :: Z1D    ! forcing working arrays
INTEGER, DIMENSION(3)       :: ITDATE ! date array
CHARACTER(LEN=3)            :: YFRC   ! To mark the different forcing dates
LOGICAL :: GLSOURCE ! switch for the source term (for ini_ls and ini_lb)
CHARACTER (LEN=2)      :: YSTORAGE_TYPE
! ---------------------------------------------------------------------
! Modif PP ADV FRC
REAL, DIMENSION(KIU)        :: X1D    ! forcing working arrays
REAL, DIMENSION(KIU,KJU,KKU):: XDTH3D,XDRV3D
!
!-------------------------------------------------------------------------------
!
!*       1.    INITIALIZATION
!              ---------------
!
GLSOURCE=.FALSE.
Z3D = 0.0 
ZWORK = 0.0
!
YRECFM='STORAGE_TYPE' 
YDIR='--'
CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,YSTORAGE_TYPE,IGRID,ILENCH,YCOMMENT,IRESP)
IF (IRESP /= 0) YSTORAGE_TYPE='TT'
!
!-------------------------------------------------------------------------------
!
!*       2.    READ PROGNOSTIC VARIABLES
!              -------------------------
!
!*       2.1  Time t-dt:
!
YRECFM = 'UM'
YDIR='XY'
CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,PUM,IGRID,ILENCH,YCOMMENT,IRESP)
!
YRECFM = 'VM'
YDIR='XY'
CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,PVM,IGRID,ILENCH,YCOMMENT,IRESP)
!
YRECFM = 'WM'
YDIR='XY'
CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,PWM,IGRID,ILENCH,YCOMMENT,IRESP)
!
YRECFM = 'THM'
YDIR='XY'
CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,PTHM,IGRID,ILENCH,YCOMMENT,IRESP)
!
YRECFM = 'PABSM'
YDIR='XY'
CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,PPABSM,IGRID,ILENCH,YCOMMENT,IRESP)
!
SELECT CASE(HGETTKEM)                   
  CASE('READ') 
    YRECFM = 'TKEM'
    YDIR='XY'
    CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,PTKEM,IGRID,ILENCH,YCOMMENT,IRESP)
  CASE('INIT')
    PTKEM(:,:,:)=XTKEMIN
END SELECT 
!
IRR=0
!
SELECT CASE(HGETRVM)             ! vapor
  CASE('READ')
    IRR=IRR+1 
    YRECFM='RVM'
    YDIR='XY'
    CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,Z3D,IGRID,ILENCH,  &
                YCOMMENT,IRESP)
    PRM(:,:,:,IRR)=Z3D(:,:,:)
  CASE('INIT')
    IRR=IRR+1 
    PRM(:,:,:,IRR)=0.
END SELECT 
!
SELECT CASE(HGETRCM)             ! cloud 
  CASE('READ') 
    IRR=IRR+1 
    YRECFM='RCM'
    YDIR='XY'
    CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,Z3D,IGRID,ILENCH,  &
                YCOMMENT,IRESP)
    PRM(:,:,:,IRR)=Z3D(:,:,:)
  CASE('INIT')
    IRR=IRR+1 
    PRM(:,:,:,IRR) = 0.
END SELECT
!
SELECT CASE(HGETRRM)             ! rain 
  CASE('READ') 
    IRR=IRR+1 
    YRECFM='RRM'
    YDIR='XY'
    CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,Z3D,IGRID,ILENCH,  &
                YCOMMENT,IRESP)
    PRM(:,:,:,IRR)=Z3D(:,:,:)
  CASE('INIT')
    IRR=IRR+1 
    PRM(:,:,:,IRR) = 0.
END SELECT
!
SELECT CASE(HGETRIM)             ! cloud ice
  CASE('READ') 
    IRR=IRR+1 
    YRECFM='RIM'
    YDIR='XY'
    CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,Z3D,IGRID,ILENCH,  &
                YCOMMENT,IRESP)
    PRM(:,:,:,IRR)=Z3D(:,:,:)
  CASE('INIT')
    IRR=IRR+1 
    PRM(:,:,:,IRR)=0.
END SELECT
!
SELECT CASE(HGETRSM)             ! snow
  CASE('READ')
    IRR=IRR+1 
    YRECFM='RSM'
    YDIR='XY'
    CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,Z3D,IGRID,ILENCH,  &
                YCOMMENT,IRESP)
    PRM(:,:,:,IRR)=Z3D(:,:,:)
  CASE('INIT')
    IRR=IRR+1 
    PRM(:,:,:,IRR)=0.
END SELECT
!
SELECT CASE(HGETRGM)             ! graupel
  CASE('READ') 
    IRR=IRR+1 
    YRECFM='RGM'
    YDIR='XY'
    CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,Z3D,IGRID,ILENCH,  &
                YCOMMENT,IRESP)
    PRM(:,:,:,IRR)=Z3D(:,:,:)
  CASE('INIT')
    IRR=IRR+1 
    PRM(:,:,:,IRR)=0.
END SELECT
!
SELECT CASE(HGETRHM)             ! hail
  CASE('READ') 
    IRR=IRR+1 
    YRECFM='RHM'
    YDIR='XY'
    CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,Z3D,IGRID,ILENCH,  &
                YCOMMENT,IRESP)
    PRM(:,:,:,IRR)=Z3D(:,:,:)
  CASE('INIT')
    IRR=IRR+1 
    PRM(:,:,:,IRR)=0.
END SELECT
!
!             Scalar Variables Reading : Users, C2R2, C1R3, ELEC, Chemical SV
!
YDIR='XY'
ISV= SIZE(PSVM,4)
!
DO JSV = 1, NSV_USER              ! initialize according to the get indicators
  SELECT CASE(HGETSVM(JSV))
    CASE ('READ')
      WRITE(YRECFM,'(A3,I3.3)')'SVM',JSV
      CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,Z3D,IGRID,ILENCH,  &
                YCOMMENT,IRESP)
      PSVM(:,:,:,JSV) = Z3D(:,:,:)
    CASE ('INIT')
      PSVM(:,:,:,JSV) = 0. 
  END SELECT
END DO
!
DO JSV = NSV_C2R2BEG,NSV_C2R2END
  SELECT CASE(HGETSVM(JSV))
  CASE ('READ')
    YRECFM=TRIM(C2R2NAMES(JSV-NSV_C2R2BEG+1))//'M'
    CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,Z3D,IGRID,ILENCH,  &
         YCOMMENT,IRESP)
    PSVM(:,:,:,JSV) = Z3D(:,:,:)
  CASE ('INIT')
    PSVM(:,:,:,JSV) = 0.
    IF (LSUPSAT .AND. (HGETRVM == 'READ') ) THEN
      ZWORK(:,:,:) = (PPABSM(:,:,:)/XP00 )**(XRD/XCPD)
      ZWORK(:,:,:) = PTHM(:,:,:)*ZWORK(:,:,:)
      ZWORK(:,:,:) = EXP(XALPW-XBETAW/ZWORK(:,:,:)-XGAMW*ALOG(ZWORK(:,:,:)))
      !rvsat
      ZWORK(:,:,:) = (XMV / XMD)*ZWORK(:,:,:)/(PPABSM(:,:,:)-ZWORK(:,:,:))
      ZWORK(:,:,:) = PRM(:,:,:,1)/ZWORK(:,:,:) 
      PSVM(:,:,:,NSV_C2R2END ) = ZWORK(:,:,:)
    END IF
  END SELECT
END DO
!
DO JSV = NSV_C1R3BEG,NSV_C1R3END
  SELECT CASE(HGETSVM(JSV))
  CASE ('READ')
    YRECFM=TRIM(C1R3NAMES(JSV-NSV_C1R3BEG+1))//'M'
    CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,Z3D,IGRID,ILENCH,  &
         YCOMMENT,IRESP)
    PSVM(:,:,:,JSV) = Z3D(:,:,:)
  CASE ('INIT')
    PSVM(:,:,:,JSV) = 0.
  END SELECT
END DO
!
DO JSV = NSV_ELECBEG,NSV_ELECEND
  SELECT CASE(HGETSVM(JSV))
  CASE ('READ')
    YRECFM=TRIM(CELECNAMES(JSV-NSV_ELECBEG+1))//'M'
    CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,Z3D,IGRID,ILENCH,  &
         YCOMMENT,IRESP)
    PSVM(:,:,:,JSV) = Z3D(:,:,:)
  CASE ('INIT')
    PSVM(:,:,:,JSV) = 0.
  END SELECT
END DO
!
DO JSV = NSV_CHEMBEG,NSV_CHEMEND
  SELECT CASE(HGETSVM(JSV))
  CASE ('READ')
    CNAMES(JSV-NSV_CHEMBEG+1) = UPCASE(CNAMES(JSV-NSV_CHEMBEG+1))
    YRECFM=TRIM(CNAMES(JSV-NSV_CHEMBEG+1))//'M'
    CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,Z3D,IGRID,ILENCH,  &
         YCOMMENT,IRESP)
    PSVM(:,:,:,JSV) = Z3D(:,:,:)
  CASE ('INIT')
    PSVM(:,:,:,JSV) = 0.
  END SELECT    
END DO
!
DO JSV = NSV_CHICBEG,NSV_CHICEND
  SELECT CASE(HGETSVM(JSV))
  CASE ('READ')
    CICNAMES(JSV-NSV_CHICBEG+1) = UPCASE(CICNAMES(JSV-NSV_CHICBEG+1))
    YRECFM=TRIM(CICNAMES(JSV-NSV_CHICBEG+1))//'M'
    CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,Z3D,IGRID,ILENCH,  &
         YCOMMENT,IRESP)
    PSVM(:,:,:,JSV) = Z3D(:,:,:)
  CASE ('INIT')
    PSVM(:,:,:,JSV) = 0.
  END SELECT    
END DO
!
DO JSV = NSV_SLTBEG,NSV_SLTEND
  SELECT CASE(HGETSVM(JSV))
  CASE ('READ')
    YRECFM=TRIM(CSALTNAMES(JSV-NSV_SLTBEG+1))//'M'
    CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,Z3D,IGRID,ILENCH,  &
         YCOMMENT,IRESP)
    PSVM(:,:,:,JSV) = Z3D(:,:,:)
  CASE ('INIT')
    PSVM(:,:,:,JSV) = 0.
  END SELECT    
END DO
!
DO JSV = NSV_SLTDEPBEG,NSV_SLTDEPEND
  SELECT CASE(HGETSVM(JSV))
  CASE ('READ')
    YRECFM=TRIM(CDESLTNAMES(JSV-NSV_SLTDEPBEG+1))//'M'
    CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,Z3D,IGRID,ILENCH,  &
         YCOMMENT,IRESP)
    PSVM(:,:,:,JSV) = Z3D(:,:,:)
  CASE ('INIT')
    PSVM(:,:,:,JSV) = 0.
  END SELECT    
END DO
!
DO JSV = NSV_DSTBEG,NSV_DSTEND
  SELECT CASE(HGETSVM(JSV))
  CASE ('READ')
    YRECFM=TRIM(CDUSTNAMES(JSV-NSV_DSTBEG+1))//'M'
    CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,Z3D,IGRID,ILENCH,  &
         YCOMMENT,IRESP)
    PSVM(:,:,:,JSV) = Z3D(:,:,:)
  CASE ('INIT')
    PSVM(:,:,:,JSV) = 0.
  END SELECT    
END DO
!
DO JSV = NSV_DSTDEPBEG,NSV_DSTDEPEND
  SELECT CASE(HGETSVM(JSV))
  CASE ('READ')
    YRECFM=TRIM(CDEDSTNAMES(JSV-NSV_DSTDEPBEG+1))//'M'
    CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,Z3D,IGRID,ILENCH,  &
         YCOMMENT,IRESP)
    PSVM(:,:,:,JSV) = Z3D(:,:,:)  
    CASE ('INIT')
    PSVM(:,:,:,JSV) = 0.
END SELECT
END DO

DO JSV = NSV_AERBEG,NSV_AEREND
  SELECT CASE(HGETSVM(JSV))
  CASE ('READ')
    YRECFM=TRIM(CAERONAMES(JSV-NSV_AERBEG+1))//'M'
    CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,Z3D,IGRID,ILENCH,  &
         YCOMMENT,IRESP)
    PSVM(:,:,:,JSV) = Z3D(:,:,:)
  CASE ('INIT')
    PSVM(:,:,:,JSV) = 0.
  END SELECT    
END DO
!
DO JSV = NSV_AERDEPBEG,NSV_AERDEPEND
  SELECT CASE(HGETSVM(JSV))
  CASE ('READ')
    YRECFM=TRIM(CDEAERNAMES(JSV-NSV_AERDEPBEG+1))//'M'
    CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,Z3D,IGRID,ILENCH,  &
         YCOMMENT,IRESP)
    PSVM(:,:,:,JSV) = Z3D(:,:,:)  
    CASE ('INIT')
    PSVM(:,:,:,JSV) = 0.
END SELECT
END DO
!
DO JSV = NSV_LGBEG,NSV_LGEND
  SELECT CASE(HGETSVM(JSV))
  CASE ('READ')
    YRECFM=TRIM(CLGNAMES(JSV-NSV_LGBEG+1))//'M'
    CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,Z3D,IGRID,ILENCH,  &
         YCOMMENT,IRESP)
    PSVM(:,:,:,JSV) = Z3D(:,:,:)
  CASE ('INIT')
    PSVM(:,:,:,JSV) = 0.
  END SELECT
END DO
!
DO JSV = NSV_PPBEG,NSV_PPEND
  SELECT CASE(HGETSVM(JSV))
  CASE ('READ')
    WRITE(YRECFM,'(A3,I3.3)')'SVM',JSV
    CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,Z3D,IGRID,ILENCH,  &
         YCOMMENT,IRESP)
    IF ( IRESP ==0 ) THEN
       PSVM(:,:,:,JSV) = Z3D(:,:,:)
    ELSE
       PSVM(:,:,:,JSV) = 0.
    END IF
  CASE ('INIT')
    PSVM(:,:,:,JSV) = 0.
  END SELECT
END DO
!
DO JSV = NSV_CSBEG,NSV_CSEND
  SELECT CASE(HGETSVM(JSV))
  CASE ('READ')
    WRITE(YRECFM,'(A3,I3.3)')'SVM',JSV
    CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,Z3D,IGRID,ILENCH,  &
         YCOMMENT,IRESP)
    IF ( IRESP ==0 ) THEN
       PSVM(:,:,:,JSV) = Z3D(:,:,:)
    ELSE
       PSVM(:,:,:,JSV) = 0.
    END IF
  CASE ('INIT')
    PSVM(:,:,:,JSV) = 0.
  END SELECT
END DO
!
DO JSV = NSV_LNOXBEG,NSV_LNOXEND
  SELECT CASE(HGETSVM(JSV))
  CASE ('READ')
    YRECFM='LINOXM'
    CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,Z3D,IGRID,ILENCH,  &
         YCOMMENT,IRESP)
    PSVM(:,:,:,JSV) = Z3D(:,:,:)
  CASE ('INIT')
    PSVM(:,:,:,JSV) = 0.
  END SELECT
END DO
!
!*       2.2  LS fields at time t-dt:
!
!*       2.2a  3D LS fields  
!
!
CALL INI_LS(HINIFILE,HLUOUT,HGETRVM,GLSOURCE,PLSUM,PLSVM,PLSWM,PLSTHM,PLSRVM)
!
!
!*       2.2b  2D "surfacic" LB fields   
!
!
CALL INI_LB(HINIFILE,HLUOUT,GLSOURCE,ISV,                             &   
     KSIZELBX_ll,KSIZELBXU_ll,KSIZELBY_ll,KSIZELBYV_ll,               &
     KSIZELBXTKE_ll,KSIZELBYTKE_ll,                                   &
     KSIZELBXR_ll,KSIZELBYR_ll,KSIZELBXSV_ll,KSIZELBYSV_ll,           &
     HGETTKEM,HGETRVM,HGETRCM,HGETRRM,HGETRIM,HGETRSM,                &
     HGETRGM,HGETRHM,HGETSVM,                                         &
     PLBXUM,PLBXVM,PLBXWM,PLBXTHM,PLBXTKEM,PLBXRM,PLBXSVM,            &
     PLBYUM,PLBYVM,PLBYWM,PLBYTHM,PLBYTKEM,PLBYRM,PLBYSVM             ) 
!
!*       2.3  Time t:
!
YRECFM = 'UT'
YDIR='XY'
IF (YSTORAGE_TYPE=='TT') THEN
  PUT(:,:,:)   =PUM(:,:,:)
ELSE
  CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,PUT,IGRID,ILENCH,YCOMMENT,IRESP)
ENDIF
!
YRECFM = 'VT'
YDIR='XY'
IF (YSTORAGE_TYPE=='TT') THEN
  PVT(:,:,:)   =PVM(:,:,:)
ELSE
  CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,PVT,IGRID,ILENCH,YCOMMENT,IRESP)
ENDIF
!
YRECFM = 'WT'
YDIR='XY'
IF (YSTORAGE_TYPE=='TT') THEN
  PWT(:,:,:)   =PWM(:,:,:)
ELSE
  CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,PWT,IGRID,ILENCH,YCOMMENT,IRESP)
ENDIF
!
YRECFM = 'THT'
YDIR='XY'
IF (YSTORAGE_TYPE=='TT') THEN
  PTHT(:,:,:)   =PTHM(:,:,:)
ELSE
  CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,PTHT,IGRID,ILENCH,YCOMMENT,IRESP)
ENDIF
!
YRECFM = 'PABST'
YDIR='XY'
IF (YSTORAGE_TYPE=='TT') THEN
  PPABST(:,:,:)=PPABSM(:,:,:)
ELSE
  CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,PPABST,IGRID,ILENCH,YCOMMENT,IRESP)
ENDIF
!
SELECT CASE(HGETTKET) 
  CASE('READ')
    YRECFM = 'TKET'
    YDIR='XY'
    CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,PTKET,IGRID,ILENCH,YCOMMENT,IRESP)
  CASE('INIT') 
    PTKET(:,:,:)=XTKEMIN
    IF (YSTORAGE_TYPE=='TT') PTKET(:,:,:)=PTKEM(:,:,:)
END SELECT
!
IRR=0
SELECT CASE(HGETRVT)             ! vapor 
  CASE('READ')
    IRR=IRR+1 
    YRECFM='RVT' 
    YDIR='XY'
    CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,Z3D,IGRID,ILENCH,  &
                YCOMMENT,IRESP)
    PRT(:,:,:,IRR)=Z3D(:,:,:)
  CASE('INIT')
    IRR=IRR+1 
    PRT(:,:,:,IRR)=0. 
    IF (YSTORAGE_TYPE=='TT')  PRT(:,:,:,IRR)=PRM(:,:,:,IRR)
END SELECT
!
SELECT CASE(HGETRCT)             ! cloud
  CASE('READ')
    IRR=IRR+1 
    YRECFM='RCT'
    YDIR='XY'
    CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,Z3D,IGRID,ILENCH,  &
                YCOMMENT,IRESP)
    PRT(:,:,:,IRR)=Z3D(:,:,:)
  CASE('INIT')
    IRR=IRR+1 
    PRT(:,:,:,IRR)=0.
    IF (YSTORAGE_TYPE=='TT')  PRT(:,:,:,IRR)=PRM(:,:,:,IRR)
END SELECT
!
SELECT CASE(HGETRRT)             ! rain
  CASE('READ')
    IRR=IRR+1 
    YRECFM='RRT'
    YDIR='XY'
    CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,Z3D,IGRID,ILENCH,  &
                YCOMMENT,IRESP)
    PRT(:,:,:,IRR)=Z3D(:,:,:)
  CASE('INIT')
    IRR=IRR+1 
    PRT(:,:,:,IRR)=0.
    IF (YSTORAGE_TYPE=='TT')  PRT(:,:,:,IRR)=PRM(:,:,:,IRR)
END SELECT
!
SELECT CASE(HGETRIT)             ! cloud ice
  CASE('READ')
    IRR=IRR+1 
    YRECFM='RIT'
    YDIR='XY'
    CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,Z3D,IGRID,ILENCH,  &
                YCOMMENT,IRESP)
    PRT(:,:,:,IRR)=Z3D(:,:,:)
  CASE('INIT')
    IRR=IRR+1 
    PRT(:,:,:,IRR)=0.
    IF (YSTORAGE_TYPE=='TT')  PRT(:,:,:,IRR)=PRM(:,:,:,IRR)
END SELECT
!
SELECT CASE(HGETRST)             ! snow
  CASE('READ') 
    IRR=IRR+1 
    YRECFM='RST'
    YDIR='XY'
    CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,Z3D,IGRID,ILENCH,  &
                YCOMMENT,IRESP)
    PRT(:,:,:,IRR)=Z3D(:,:,:)
  CASE('INIT')
    IRR=IRR+1 
    PRT(:,:,:,IRR)=0.
    IF (YSTORAGE_TYPE=='TT')  PRT(:,:,:,IRR)=PRM(:,:,:,IRR)
END SELECT
!
SELECT CASE(HGETRGT)             ! graupel
  CASE('READ') 
    IRR=IRR+1 
    YRECFM='RGT'
    YDIR='XY'
    CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,Z3D,IGRID,ILENCH,  &
                YCOMMENT,IRESP)
    PRT(:,:,:,IRR)=Z3D(:,:,:)
  CASE('INIT')
    IRR=IRR+1 
    PRT(:,:,:,IRR)=0.
    IF (YSTORAGE_TYPE=='TT')  PRT(:,:,:,IRR)=PRM(:,:,:,IRR)
END SELECT
!
SELECT CASE(HGETRHT)             ! hail 
  CASE('READ')
    IRR=IRR+1 
    YRECFM='RHT'
    YDIR='XY'
    CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,Z3D,IGRID,ILENCH,  &
                YCOMMENT,IRESP)
    PRT(:,:,:,IRR)=Z3D(:,:,:)
  CASE('INIT')
    IRR=IRR+1 
    PRT(:,:,:,IRR)=0.
    IF (YSTORAGE_TYPE=='TT')  PRT(:,:,:,IRR)=PRM(:,:,:,IRR)
END SELECT
!
SELECT CASE(HGETCIT)             ! ice concentration
  CASE('READ')
    YRECFM='CIT'
    YDIR='XY'
    IF (SIZE(PCIT) /= 0 )   &
    CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,PCIT,IGRID,ILENCH,  &
                YCOMMENT,IRESP)
  CASE('INIT')
    PCIT(:,:,:)=0.
END SELECT
!
!             Scalar Variables : Users, C2R2, C1R3, ELEC, Chemical
!
YDIR='XY'
DO JSV = 1, NSV_USER  ! initialize according to the get indicators
  SELECT CASE(HGETSVT(JSV))
    CASE ('READ')
      WRITE(YRECFM,'(A3,I3.3)')'SVT',JSV
      CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,Z3D,IGRID,ILENCH,  &
                YCOMMENT,IRESP)
      PSVT(:,:,:,JSV) = Z3D(:,:,:)
    CASE ('INIT')
      PSVT(:,:,:,JSV) = 0. 
      IF (YSTORAGE_TYPE=='TT')  PSVT(:,:,:,JSV)=PSVM(:,:,:,JSV)
  END SELECT
END DO
!
DO JSV = NSV_C2R2BEG,NSV_C2R2END
  SELECT CASE(HGETSVT(JSV))
  CASE ('READ')
    YRECFM=TRIM(C2R2NAMES(JSV-NSV_C2R2BEG+1))//'T'
    CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,Z3D,IGRID,ILENCH,  &
         YCOMMENT,IRESP)
    PSVT(:,:,:,JSV) = Z3D(:,:,:)
  CASE ('INIT')
    PSVT(:,:,:,JSV) = 0. 
    IF (YSTORAGE_TYPE=='TT')  PSVT(:,:,:,JSV)=PSVM(:,:,:,JSV)
  END SELECT
END DO
!
DO JSV = NSV_C1R3BEG,NSV_C1R3END
  SELECT CASE(HGETSVT(JSV))
  CASE ('READ')
    YRECFM=TRIM(C1R3NAMES(JSV-NSV_C1R3BEG+1))//'T'
    CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,Z3D,IGRID,ILENCH,  &
         YCOMMENT,IRESP)
    PSVT(:,:,:,JSV) = Z3D(:,:,:)
  CASE ('INIT')
    PSVT(:,:,:,JSV) = 0. 
    IF (YSTORAGE_TYPE=='TT')  PSVT(:,:,:,JSV)=PSVM(:,:,:,JSV)
  END SELECT
END DO
!
DO JSV = NSV_ELECBEG,NSV_ELECEND
  SELECT CASE(HGETSVT(JSV))
  CASE ('READ')
    YRECFM=TRIM(CELECNAMES(JSV-NSV_ELECBEG+1))//'T'
    CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,Z3D,IGRID,ILENCH,  &
         YCOMMENT,IRESP)
    PSVT(:,:,:,JSV) = Z3D(:,:,:)
  CASE ('INIT')
    PSVT(:,:,:,JSV) = 0. 
    IF (YSTORAGE_TYPE=='TT')  PSVT(:,:,:,JSV)=PSVM(:,:,:,JSV)
  END SELECT
END DO
!
DO JSV = NSV_CHEMBEG,NSV_CHEMEND
  SELECT CASE(HGETSVT(JSV))
  CASE ('READ')
    CNAMES(JSV-NSV_CHEMBEG+1) = UPCASE(CNAMES(JSV-NSV_CHEMBEG+1))
    YRECFM=TRIM(CNAMES(JSV-NSV_CHEMBEG+1))//'T'
    CALL FMREAD(HINIFILE,YRECFM,HLUOUT,YDIR,Z3D,IGRID,ILENCH,  &
         YCOMMENT,IRESP)
    PSVT(:,:,:,JSV) = Z3D(:,:,:)
  CASE ('INIT')