iom.F90

      REAL(sp),     DIMENSION(:), INTENT(in) ::   pfield1d
#if defined key_xios
      CALL xios_send_field( cdname, RESHAPE( (/pfield1d/), (/1,1,SIZE(pfield1d)/) ) )
#else
      IF( .FALSE. )   WRITE(numout,*) cdname, pfield1d   ! useless test to avoid compilation warnings
#endif
   END SUBROUTINE iom_p1d_sp

   SUBROUTINE iom_p1d_dp( cdname, pfield1d )
      CHARACTER(LEN=*)          , INTENT(in) ::   cdname
      REAL(dp),     DIMENSION(:), INTENT(in) ::   pfield1d
#if defined key_xios
      CALL xios_send_field( cdname, RESHAPE( (/pfield1d/), (/1,1,SIZE(pfield1d)/) ) )
#else
      IF( .FALSE. )   WRITE(numout,*) cdname, pfield1d   ! useless test to avoid compilation warnings
#endif
   END SUBROUTINE iom_p1d_dp

   SUBROUTINE iom_p2d_sp( cdname, pfield2d )
      CHARACTER(LEN=*)            , INTENT(in) ::   cdname
      REAL(sp),     DIMENSION(:,:), INTENT(in) ::   pfield2d
      IF( iom_use(cdname) ) THEN
#if defined key_xios
         IF( is_tile(pfield2d) == 1 ) THEN
            CALL xios_send_field( cdname, pfield2d, ntile - 1 )
         ELSE IF( .NOT. l_istiled .OR. ntile == nijtile ) THEN
            CALL xios_send_field( cdname, pfield2d )
         ENDIF
#else
         WRITE(numout,*) pfield2d   ! iom_use(cdname) = .F. -> useless test to avoid compilation warnings
#endif
      ENDIF
   END SUBROUTINE iom_p2d_sp

   SUBROUTINE iom_p2d_dp( cdname, pfield2d )
      CHARACTER(LEN=*)            , INTENT(in) ::   cdname
      REAL(dp),     DIMENSION(:,:), INTENT(in) ::   pfield2d
      IF( iom_use(cdname) ) THEN
#if defined key_xios
         IF( is_tile(pfield2d) == 1 ) THEN
            CALL xios_send_field( cdname, pfield2d, ntile - 1 )
         ELSE IF( .NOT. l_istiled .OR. ntile == nijtile ) THEN
            CALL xios_send_field( cdname, pfield2d )
         ENDIF
#else
         WRITE(numout,*) pfield2d   ! iom_use(cdname) = .F. -> useless test to avoid compilation warnings
#endif
      ENDIF
   END SUBROUTINE iom_p2d_dp

   SUBROUTINE iom_p3d_sp( cdname, pfield3d )
      CHARACTER(LEN=*)                , INTENT(in) ::   cdname
      REAL(sp),       DIMENSION(:,:,:), INTENT(in) ::   pfield3d
      IF( iom_use(cdname) ) THEN
#if defined key_xios
         IF( is_tile(pfield3d) == 1 ) THEN
            CALL xios_send_field( cdname, pfield3d, ntile - 1 )
         ELSE IF( .NOT. l_istiled .OR. ntile == nijtile ) THEN
            CALL xios_send_field( cdname, pfield3d )
         ENDIF
#else
         WRITE(numout,*) pfield3d   ! iom_use(cdname) = .F. -> useless test to avoid compilation warnings
#endif
      ENDIF
   END SUBROUTINE iom_p3d_sp

   SUBROUTINE iom_p3d_dp( cdname, pfield3d )
      CHARACTER(LEN=*)                , INTENT(in) ::   cdname
      REAL(dp),       DIMENSION(:,:,:), INTENT(in) ::   pfield3d
      IF( iom_use(cdname) ) THEN
#if defined key_xios
         IF( is_tile(pfield3d) == 1 ) THEN
            CALL xios_send_field( cdname, pfield3d, ntile - 1 )
         ELSE IF( .NOT. l_istiled .OR. ntile == nijtile ) THEN
            CALL xios_send_field( cdname, pfield3d )
         ENDIF
#else
         WRITE(numout,*) pfield3d   ! iom_use(cdname) = .F. -> useless test to avoid compilation warnings
#endif
      ENDIF
   END SUBROUTINE iom_p3d_dp

   SUBROUTINE iom_p4d_sp( cdname, pfield4d )
      CHARACTER(LEN=*)                , INTENT(in) ::   cdname
      REAL(sp),       DIMENSION(:,:,:,:), INTENT(in) ::   pfield4d
      IF( iom_use(cdname) ) THEN
#if defined key_xios
         IF( is_tile(pfield4d) == 1 ) THEN
            CALL xios_send_field( cdname, pfield4d, ntile - 1 )
         ELSE IF( .NOT. l_istiled .OR. ntile == nijtile ) THEN
            CALL xios_send_field( cdname, pfield4d )
         ENDIF
#else
         WRITE(numout,*) pfield4d   ! iom_use(cdname) = .F. -> useless test to avoid compilation warnings
#endif
      ENDIF
   END SUBROUTINE iom_p4d_sp

   SUBROUTINE iom_p4d_dp( cdname, pfield4d )
      CHARACTER(LEN=*)                , INTENT(in) ::   cdname
      REAL(dp),       DIMENSION(:,:,:,:), INTENT(in) ::   pfield4d
      IF( iom_use(cdname) ) THEN
#if defined key_xios
         IF( is_tile(pfield4d) == 1 ) THEN
            CALL xios_send_field( cdname, pfield4d, ntile - 1 )
         ELSE IF( .NOT. l_istiled .OR. ntile == nijtile ) THEN
            CALL xios_send_field( cdname, pfield4d )
         ENDIF
#else
         WRITE(numout,*) pfield4d   ! iom_use(cdname) = .F. -> useless test to avoid compilation warnings
#endif
      ENDIF
   END SUBROUTINE iom_p4d_dp

#if defined key_xios
   !!----------------------------------------------------------------------
   !!   'key_xios'                                         XIOS interface
   !!----------------------------------------------------------------------

   SUBROUTINE iom_set_domain_attr( cdid, ni_glo, nj_glo, ibegin, jbegin, ni, nj,                                               &
      &                                    data_dim, data_ibegin, data_ni, data_jbegin, data_nj, lonvalue, latvalue, mask,     &
      &                                  ntiles, tile_ibegin, tile_jbegin, tile_ni, tile_nj,                                   &
      &                                  tile_data_ibegin, tile_data_jbegin, tile_data_ni, tile_data_nj,                       &
      &                                    nvertex, bounds_lon, bounds_lat, area )
      !!----------------------------------------------------------------------
      !!----------------------------------------------------------------------
      CHARACTER(LEN=*)                  , INTENT(in) ::   cdid
      INTEGER                 , OPTIONAL, INTENT(in) ::   ni_glo, nj_glo, ibegin, jbegin, ni, nj
      INTEGER,  DIMENSION(:)  , OPTIONAL, INTENT(in) ::   tile_ibegin, tile_jbegin, tile_ni, tile_nj
      INTEGER,  DIMENSION(:)  , OPTIONAL, INTENT(in) ::   tile_data_ibegin, tile_data_jbegin, tile_data_ni, tile_data_nj
      INTEGER                 , OPTIONAL, INTENT(in) ::   data_dim, data_ibegin, data_ni, data_jbegin, data_nj
      INTEGER                 , OPTIONAL, INTENT(in) ::   nvertex, ntiles
      REAL(dp), DIMENSION(:)  , OPTIONAL, INTENT(in) ::   lonvalue, latvalue
      REAL(dp), DIMENSION(:,:), OPTIONAL, INTENT(in) ::   bounds_lon, bounds_lat, area
      LOGICAL , DIMENSION(:)  , OPTIONAL, INTENT(in) ::   mask
      !!----------------------------------------------------------------------
      !
      IF( xios_is_valid_domain     (cdid) ) THEN
         CALL xios_set_domain_attr     ( cdid, ni_glo=ni_glo, nj_glo=nj_glo, ibegin=ibegin, jbegin=jbegin, ni=ni, nj=nj,   &
            &    data_dim=data_dim, data_ibegin=data_ibegin, data_ni=data_ni, data_jbegin=data_jbegin, data_nj=data_nj ,   &
            &    ntiles=ntiles, tile_ibegin=tile_ibegin, tile_jbegin=tile_jbegin, tile_ni=tile_ni, tile_nj=tile_nj,        &
            &    tile_data_ibegin=tile_data_ibegin, tile_data_jbegin=tile_data_jbegin,                                     &
            &    tile_data_ni=tile_data_ni, tile_data_nj=tile_data_nj,                                                     &
            &    lonvalue_1D=lonvalue, latvalue_1D=latvalue, mask_1D=mask, nvertex=nvertex, bounds_lon_1D=bounds_lon,      &
            &    bounds_lat_1D=bounds_lat, area=area, type='curvilinear')
      ENDIF
      IF( xios_is_valid_domaingroup(cdid) ) THEN
         CALL xios_set_domaingroup_attr( cdid, ni_glo=ni_glo, nj_glo=nj_glo, ibegin=ibegin, jbegin=jbegin, ni=ni, nj=nj,   &
            &    data_dim=data_dim, data_ibegin=data_ibegin, data_ni=data_ni, data_jbegin=data_jbegin, data_nj=data_nj ,   &
            &    ntiles=ntiles, tile_ibegin=tile_ibegin, tile_jbegin=tile_jbegin, tile_ni=tile_ni, tile_nj=tile_nj,        &
            &    tile_data_ibegin=tile_data_ibegin, tile_data_jbegin=tile_data_jbegin,                                     &
            &    tile_data_ni=tile_data_ni, tile_data_nj=tile_data_nj,                                                     &
            &    lonvalue_1D=lonvalue, latvalue_1D=latvalue, mask_1D=mask, nvertex=nvertex, bounds_lon_1D=bounds_lon,      &
            &    bounds_lat_1D=bounds_lat, area=area, type='curvilinear' )
      ENDIF
      !
      CALL xios_solve_inheritance()
      !
   END SUBROUTINE iom_set_domain_attr


   SUBROUTINE iom_set_zoom_domain_attr( cdid, ibegin, jbegin, ni, nj )
      !!----------------------------------------------------------------------
      !!----------------------------------------------------------------------
      CHARACTER(LEN=*), INTENT(in) ::   cdid
      INTEGER         , INTENT(in) ::   ibegin, jbegin, ni, nj
      !
      TYPE(xios_gridgroup) :: gridgroup_hdl
      TYPE(xios_grid)      :: grid_hdl
      TYPE(xios_domain)    :: domain_hdl
      TYPE(xios_axis)      :: axis_hdl
      CHARACTER(LEN=64)    :: cldomrefid   ! domain_ref name
      CHARACTER(len=1)     :: cl1          ! last character of this name
      !!----------------------------------------------------------------------
      !
      IF( xios_is_valid_zoom_domain(cdid) ) THEN
         ! define the zoom_domain attributs
         CALL xios_set_zoom_domain_attr( cdid, ibegin=ibegin, jbegin=jbegin, ni=ni, nj=nj )
         ! define a new 2D grid with this new domain
         CALL xios_get_handle("grid_definition", gridgroup_hdl )
         CALL xios_add_child(gridgroup_hdl, grid_hdl, TRIM(cdid)//'_2D' )   ! add a new 2D grid to grid_definition
         CALL xios_add_child(grid_hdl, domain_hdl, TRIM(cdid) )             ! add its domain
         ! define a new 3D grid with this new domain
         CALL xios_add_child(gridgroup_hdl, grid_hdl, TRIM(cdid)//'_3D' )   ! add a new 3D grid to grid_definition
         CALL xios_add_child(grid_hdl, domain_hdl, TRIM(cdid) )             ! add its domain
         ! vertical axis
         cl1 = cdid(LEN_TRIM(cdid):)                                        ! last letter of cdid
         cl1 = CHAR(ICHAR(cl1)+32)                                          ! from upper to lower case
         CALL xios_add_child(grid_hdl, axis_hdl, 'depth'//cl1)              ! add its axis
      ENDIF
      !
   END SUBROUTINE iom_set_zoom_domain_attr


   SUBROUTINE iom_set_axis_attr( cdid, paxis, bounds )
      !!----------------------------------------------------------------------
      !!----------------------------------------------------------------------
      CHARACTER(LEN=*)      , INTENT(in) ::   cdid
      REAL(wp), DIMENSION(:)  , OPTIONAL, INTENT(in) ::   paxis
      REAL(wp), DIMENSION(:,:), OPTIONAL, INTENT(in) ::   bounds
      !!----------------------------------------------------------------------
      IF( PRESENT(paxis) ) THEN
         IF( xios_is_valid_axis     (cdid) )   CALL xios_set_axis_attr     ( cdid, n_glo=SIZE(paxis), value=real(paxis, dp) )
         IF( xios_is_valid_axisgroup(cdid) )   CALL xios_set_axisgroup_attr( cdid, n_glo=SIZE(paxis), value=real(paxis, dp) )
      ENDIF
      IF( PRESENT(bounds) ) THEN
         IF( xios_is_valid_axis     (cdid) )   CALL xios_set_axis_attr     ( cdid, bounds=real(bounds, dp) )
         IF( xios_is_valid_axisgroup(cdid) )   CALL xios_set_axisgroup_attr( cdid, bounds=real(bounds, dp) )
      ELSE
         IF( xios_is_valid_axis     (cdid) )   CALL xios_set_axis_attr     ( cdid)
         IF( xios_is_valid_axisgroup(cdid) )   CALL xios_set_axisgroup_attr( cdid)
      END IF
      CALL xios_solve_inheritance()
   END SUBROUTINE iom_set_axis_attr


   SUBROUTINE iom_set_field_attr( cdid, freq_op, freq_offset )
      !!----------------------------------------------------------------------
      !!----------------------------------------------------------------------
      CHARACTER(LEN=*)             , INTENT(in) ::   cdid
      TYPE(xios_duration), OPTIONAL, INTENT(in) ::   freq_op
      TYPE(xios_duration), OPTIONAL, INTENT(in) ::   freq_offset
      !!----------------------------------------------------------------------
      IF( xios_is_valid_field     (cdid) )   CALL xios_set_field_attr     ( cdid, freq_op=freq_op, freq_offset=freq_offset )
      IF( xios_is_valid_fieldgroup(cdid) )   CALL xios_set_fieldgroup_attr( cdid, freq_op=freq_op, freq_offset=freq_offset )
      CALL xios_solve_inheritance()
   END SUBROUTINE iom_set_field_attr


   SUBROUTINE iom_set_file_attr( cdid, name, name_suffix )
      !!----------------------------------------------------------------------
      !!----------------------------------------------------------------------
      CHARACTER(LEN=*)          , INTENT(in) ::   cdid
      CHARACTER(LEN=*),OPTIONAL , INTENT(in) ::   name, name_suffix
      !!----------------------------------------------------------------------
      IF( xios_is_valid_file     (cdid) )   CALL xios_set_file_attr     ( cdid, name=name, name_suffix=name_suffix )
      IF( xios_is_valid_filegroup(cdid) )   CALL xios_set_filegroup_attr( cdid, name=name, name_suffix=name_suffix )
      CALL xios_solve_inheritance()
   END SUBROUTINE iom_set_file_attr


   SUBROUTINE iom_get_file_attr( cdid, name, name_suffix, output_freq )
      !!----------------------------------------------------------------------
      !!----------------------------------------------------------------------
      CHARACTER(LEN=*)          , INTENT(in ) ::   cdid
      CHARACTER(LEN=*),OPTIONAL , INTENT(out) ::   name, name_suffix
      TYPE(xios_duration), OPTIONAL , INTENT(out) :: output_freq
      LOGICAL                                 ::   llexist1,llexist2,llexist3
      !---------------------------------------------------------------------
      IF( PRESENT( name        ) )   name = ''          ! default values
      IF( PRESENT( name_suffix ) )   name_suffix = ''
      IF( PRESENT( output_freq ) )   output_freq = xios_duration(0,0,0,0,0,0)
      IF( xios_is_valid_file     (cdid) ) THEN
         CALL xios_solve_inheritance()
         CALL xios_is_defined_file_attr     ( cdid, name = llexist1, name_suffix = llexist2, output_freq = llexist3)
         IF(llexist1)   CALL xios_get_file_attr     ( cdid, name = name )
         IF(llexist2)   CALL xios_get_file_attr     ( cdid, name_suffix = name_suffix )
         IF(llexist3)   CALL xios_get_file_attr     ( cdid, output_freq = output_freq )
      ENDIF
      IF( xios_is_valid_filegroup(cdid) ) THEN
         CALL xios_solve_inheritance()
         CALL xios_is_defined_filegroup_attr( cdid, name = llexist1, name_suffix = llexist2, output_freq = llexist3)
         IF(llexist1)   CALL xios_get_filegroup_attr( cdid, name = name )
         IF(llexist2)   CALL xios_get_filegroup_attr( cdid, name_suffix = name_suffix )
         IF(llexist3)   CALL xios_get_filegroup_attr( cdid, output_freq = output_freq )
      ENDIF
   END SUBROUTINE iom_get_file_attr


   SUBROUTINE iom_set_grid_attr( cdid, mask )
      !!----------------------------------------------------------------------
      !!----------------------------------------------------------------------
      CHARACTER(LEN=*)                   , INTENT(in) ::   cdid
      LOGICAL, DIMENSION(:,:,:), OPTIONAL, INTENT(in) ::   mask
      !!----------------------------------------------------------------------
      IF( xios_is_valid_grid     (cdid) )   CALL xios_set_grid_attr     ( cdid, mask_3D=mask )
      IF( xios_is_valid_gridgroup(cdid) )   CALL xios_set_gridgroup_attr( cdid, mask_3D=mask )
      CALL xios_solve_inheritance()
   END SUBROUTINE iom_set_grid_attr

   SUBROUTINE iom_setkt( kt, cdname )
      !!----------------------------------------------------------------------
      !!----------------------------------------------------------------------
      INTEGER         , INTENT(in) ::   kt
      CHARACTER(LEN=*), INTENT(in) ::   cdname
      !!----------------------------------------------------------------------
      CALL iom_swap( cdname )   ! swap to cdname context
      CALL xios_update_calendar(kt)
      IF( cdname /= TRIM(cxios_context) )   CALL iom_swap( cxios_context )   ! return back to nemo context
   END SUBROUTINE iom_setkt

   SUBROUTINE iom_context_finalize( cdname )
      !!----------------------------------------------------------------------
      !!----------------------------------------------------------------------
      CHARACTER(LEN=*), INTENT(in) :: cdname
      CHARACTER(LEN=120)           :: clname
      !!----------------------------------------------------------------------
      clname = cdname
      IF( TRIM(Agrif_CFixed()) .NE. '0' ) clname = TRIM(Agrif_CFixed())//"_"//clname
      IF( xios_is_valid_context(clname) ) THEN
         CALL iom_swap( cdname )   ! swap to cdname context
         CALL xios_context_finalize() ! finalize the context
         IF( cdname /= cxios_context ) CALL iom_swap( cxios_context )   ! return back to nemo context
      ENDIF
      !
   END SUBROUTINE iom_context_finalize


   SUBROUTINE set_grid( cdgrd, plon, plat, ldxios, ldrxios )
      !!----------------------------------------------------------------------
      !!                     ***  ROUTINE set_grid  ***
      !!
      !! ** Purpose :   define horizontal grids
      !!----------------------------------------------------------------------
      CHARACTER(LEN=1)            , INTENT(in) ::   cdgrd
      REAL(wp), DIMENSION(jpi,jpj), INTENT(in) ::   plon
      REAL(wp), DIMENSION(jpi,jpj), INTENT(in) ::   plat
      !
      REAL(wp), DIMENSION(A2D(0),jpk) ::   zmask
      INTEGER :: jn
      INTEGER, DIMENSION(nijtile) :: ini, inj, idb
      LOGICAL, INTENT(IN) :: ldxios, ldrxios
      !!----------------------------------------------------------------------
      !
      CALL iom_set_domain_attr("grid_"//cdgrd, ni_glo=Ni0glo,nj_glo=Nj0glo,ibegin=mig0(Nis0)-1,jbegin=mjg0(Njs0)-1,ni=Ni_0,nj=Nj_0)
      CALL iom_set_domain_attr("grid_"//cdgrd, data_dim=2, data_ibegin = -nn_hls, data_ni=jpi, data_jbegin = -nn_hls, data_nj=jpj)

      CALL iom_set_domain_attr("grid_"//cdgrd//"_inner", ni_glo = Ni0glo, nj_glo = Nj0glo,   &
         &                     ibegin = mig0(Nis0) - 1, jbegin = mjg0(Njs0) - 1, ni = Ni_0, nj = Nj_0)
      CALL iom_set_domain_attr("grid_"//cdgrd//"_inner", data_dim=2, data_ibegin = 0, data_ni=Ni_0, data_jbegin = 0, data_nj=Nj_0)

      IF( ln_tile ) THEN
         DO jn = 1, nijtile
            ini(jn) = ntei_a(jn) - ntsi_a(jn) + 1     ! Tile size in i and j
            inj(jn) = ntej_a(jn) - ntsj_a(jn) + 1
            idb(jn) = -nn_hls                         ! Tile data offset (halo size)
         END DO

         ! Tile_[ij]begin are defined with respect to the processor data domain, so data_[ij]begin is added
         CALL iom_set_domain_attr("grid_"//cdgrd, ntiles=nijtile,                                     &
            & tile_ibegin=ntsi_a(1:nijtile) + idb(:) - 1, tile_jbegin=ntsj_a(1:nijtile) + idb(:) - 1, &
            & tile_ni=ini(:), tile_nj=inj(:),                                                         &
            & tile_data_ibegin=idb(:), tile_data_jbegin=idb(:),                                       &
            & tile_data_ni=ini(:) - 2 * idb(:), tile_data_nj=inj(:) - 2 * idb(:))
         CALL iom_set_domain_attr("grid_"//cdgrd//"_inner", ntiles=nijtile,                           &
            & tile_ibegin=ntsi_a(1:nijtile) + idb(:) - 1, tile_jbegin=ntsj_a(1:nijtile) + idb(:) - 1, &
            & tile_ni=ini(:), tile_nj=inj(:),                                                         &
            & tile_data_ibegin=idb(:), tile_data_jbegin=idb(:),                                       &
            & tile_data_ni=ini(:) - 2 * idb(:), tile_data_nj=inj(:) - 2 * idb(:))
      ENDIF

!don't define lon and lat for restart reading context.
      IF ( .NOT.ldrxios ) &
         CALL iom_set_domain_attr("grid_"//cdgrd, lonvalue = real(RESHAPE(plon(Nis0:Nie0, Njs0:Nje0),(/ Ni_0*Nj_0 /)),dp),   &
         &                                        latvalue = real(RESHAPE(plat(Nis0:Nie0, Njs0:Nje0),(/ Ni_0*Nj_0 /)),dp ))
      !
      IF ( ln_mskland .AND. (.NOT.ldxios) ) THEN
         ! mask land points, keep values on coast line -> specific mask for U, V and W points
         SELECT CASE ( cdgrd )
         CASE('T')   ;   zmask(:,:,:) = tmask(Nis0  :Nie0  , Njs0:Nje0,:)
         CASE('U')   ;   zmask(:,:,:) = tmask(Nis0  :Nie0  , Njs0:Nje0,:) + tmask(Nis0+1:Nie0+1, Njs0  :Nje0  ,:)
         CASE('V')   ;   zmask(:,:,:) = tmask(Nis0  :Nie0  , Njs0:Nje0,:) + tmask(Nis0  :Nie0  , Njs0+1:Nje0+1,:)
         CASE('F')   ;   zmask(:,:,:) = tmask(Nis0  :Nie0  , Njs0:Nje0,:) + tmask(Nis0  :Nie0  , Njs0+1:Nje0+1,:)   &
            &                         + tmask(Nis0+1:Nie0+1, Njs0:Nje0,:) + tmask(Nis0+1:Nie0+1, Njs0+1:Nje0+1,:)
         CASE('W')   ;   zmask(:,:,2:jpk) = tmask(Nis0:Nie0, Njs0:Nje0,1:jpkm1) + tmask(Nis0:Nie0, Njs0:Nje0,2:jpk)
                         zmask(:,:,1    ) = tmask(Nis0:Nie0, Njs0:Nje0,1)
         END SELECT
         !
         CALL iom_set_domain_attr( "grid_"//cdgrd             , mask=RESHAPE(zmask(:,:,1),(/Ni_0*Nj_0    /)) /= 0. )
         CALL iom_set_grid_attr  ( "grid_"//cdgrd//"_3D"      , mask=RESHAPE(zmask(:,:,:),(/Ni_0,Nj_0,jpk/)) /= 0. )
         CALL iom_set_domain_attr( "grid_"//cdgrd//"_inner"   , mask=RESHAPE(zmask(:,:,1),(/Ni_0*Nj_0    /)) /= 0. )
         CALL iom_set_grid_attr  ( "grid_"//cdgrd//"_3D_inner", mask=RESHAPE(zmask(:,:,:),(/Ni_0,Nj_0,jpk/)) /= 0. )
      ENDIF
      !
   END SUBROUTINE set_grid

   SUBROUTINE set_grid_bounds( cdgrd, plon_cnr, plat_cnr, plon_pnt, plat_pnt )
      !!----------------------------------------------------------------------
      !!                   ***  ROUTINE set_grid_bounds  ***
      !!
      !! ** Purpose :   define horizontal grid corners
      !!
      !!----------------------------------------------------------------------
      CHARACTER(LEN=1)                      , INTENT(in) :: cdgrd
      REAL(wp), DIMENSION(jpi,jpj)          , INTENT(in) :: plon_cnr, plat_cnr  ! Lat/lon coord. of a contiguous vertex of cell (i,j)
      REAL(wp), DIMENSION(jpi,jpj), OPTIONAL, INTENT(in) :: plon_pnt, plat_pnt  ! Lat/lon coord. of the point of cell (i,j)
      !
      INTEGER :: ji, jj, jn
      INTEGER :: icnr, jcnr                             ! Offset such that the vertex coordinate (i+icnr,j+jcnr)
      !                                                 ! represents the
      !                                                 bottom-left corner of
      !                                                 cell (i,j)
      REAL(wp), ALLOCATABLE, DIMENSION(:,:,:,:) :: z_bnds      ! Lat/lon coordinates of the vertices of cell (i,j)
      REAL(wp), ALLOCATABLE, DIMENSION(:,:)     :: z_fld       ! Working array to determine where to rotate cells
      REAL(wp), ALLOCATABLE, DIMENSION(:,:)     :: z_rot       ! Lat/lon working array for rotation of cells
      !!----------------------------------------------------------------------
      !
      ALLOCATE( z_bnds(4,jpi,jpj,2), z_fld(jpi,jpj), z_rot(4,2)  )
      !
      ! Offset of coordinate representing bottom-left corner
      SELECT CASE ( TRIM(cdgrd) )
      CASE ('T', 'W')   ;   icnr = -1   ;   jcnr = -1
      CASE ('U')        ;   icnr =  0   ;   jcnr = -1
      CASE ('V')        ;   icnr = -1   ;   jcnr =  0
      CASE ('F')        ;   icnr =  0   ;   jcnr =  0
      END SELECT
      !
      z_fld(:,:) = 1._wp
      CALL lbc_lnk( 'iom', z_fld, cdgrd, -1.0_wp )    ! Working array for location of northfold
      !
      ! Cell vertices that can be defined
      DO_2D( 0, 0, 0, 0 )
         z_bnds(1,ji,jj,1) = plat_cnr(ji+icnr,  jj+jcnr  ) ! Bottom-left
         z_bnds(2,ji,jj,1) = plat_cnr(ji+icnr+1,jj+jcnr  ) ! Bottom-right
         z_bnds(3,ji,jj,1) = plat_cnr(ji+icnr+1,jj+jcnr+1) ! Top-right
         z_bnds(4,ji,jj,1) = plat_cnr(ji+icnr,  jj+jcnr+1) ! Top-left
         z_bnds(1,ji,jj,2) = plon_cnr(ji+icnr,  jj+jcnr  ) ! Bottom-left
         z_bnds(2,ji,jj,2) = plon_cnr(ji+icnr+1,jj+jcnr  ) ! Bottom-right
         z_bnds(3,ji,jj,2) = plon_cnr(ji+icnr+1,jj+jcnr+1) ! Top-right
         z_bnds(4,ji,jj,2) = plon_cnr(ji+icnr,  jj+jcnr+1) ! Top-left
      END_2D
      !
      DO_2D( 0, 0, 0, 0 )
         IF( z_fld(ji,jj) == -1. ) THEN
            z_rot(1,:) = z_bnds(3,ji,jj,:) ; z_rot(2,:) = z_bnds(4,ji,jj,:)
            z_rot(3,:) = z_bnds(1,ji,jj,:) ; z_rot(4,:) = z_bnds(2,ji,jj,:)
            z_bnds(:,ji,jj,:) = z_rot(:,:)
         ENDIF
      END_2D
      !
      CALL iom_set_domain_attr("grid_"//cdgrd, bounds_lat = real(RESHAPE(z_bnds(:,Nis0:Nie0,Njs0:Nje0,1),(/ 4,Ni_0*Nj_0 /)), dp),           &
          &                                    bounds_lon = real(RESHAPE(z_bnds(:,Nis0:Nie0,Njs0:Nje0,2),(/ 4,Ni_0*Nj_0 /)), dp), nvertex=4 )
      !
      DEALLOCATE( z_bnds, z_fld, z_rot )
      !
   END SUBROUTINE set_grid_bounds

   SUBROUTINE set_grid_znl( plat )
      !!----------------------------------------------------------------------
      !!                     ***  ROUTINE set_grid_znl  ***
      !!
      !! ** Purpose :   define grids for zonal mean
      !!
      !!----------------------------------------------------------------------
      REAL(wp), DIMENSION(jpi,jpj), INTENT(in) ::   plat
      !
      INTEGER  :: ix, iy
      REAL(wp), DIMENSION(:), ALLOCATABLE  ::   zlon
      !!----------------------------------------------------------------------
      !
      ALLOCATE( zlon(Ni_0*Nj_0) )       ;       zlon(:) = 0._wp
      !
!      CALL dom_ngb( -168.53_wp, 65.03_wp, ix, iy, 'T' ) !  i-line that passes through Bering Strait: Reference latitude (used in plots)
      CALL dom_ngb( 180.0_wp, 90.0_wp, ix, iy, 'T' ) !  i-line that passes near the North Pole : Reference latitude (used in plots)
      CALL iom_set_domain_attr("gznl", ni_glo=Ni0glo, nj_glo=Nj0glo, ibegin=mig0(Nis0)-1, jbegin=mjg0(Njs0)-1, ni=Ni_0, nj=Nj_0)
      CALL iom_set_domain_attr("gznl", data_dim=2, data_ibegin = -nn_hls, data_ni = jpi, data_jbegin = -nn_hls, data_nj = jpj)
      CALL iom_set_domain_attr("gznl", lonvalue = real(zlon, dp),   &
         &                             latvalue = real(RESHAPE(plat(Nis0:Nie0, Njs0:Nje0),(/ Ni_0*Nj_0 /)),dp))
      CALL iom_set_zoom_domain_attr("ptr", ibegin=ix-1, jbegin=0, ni=1, nj=Nj0glo)
      !
      CALL iom_update_file_name('ptr')
      !
   END SUBROUTINE set_grid_znl


   SUBROUTINE set_scalar
      !!----------------------------------------------------------------------
      !!                     ***  ROUTINE set_scalar  ***
      !!
      !! ** Purpose :   define fake grids for scalar point
      !!
      !!----------------------------------------------------------------------
      REAL(dp), DIMENSION(1)   ::   zz = 1.
      !!----------------------------------------------------------------------
      !
      CALL iom_set_domain_attr('scalarpoint', ni_glo=jpnij, nj_glo=1, ibegin=narea-1, jbegin=0, ni=1, nj=1)
      CALL iom_set_domain_attr('scalarpoint', data_dim=2, data_ibegin = 1, data_ni = 1, data_jbegin = 1, data_nj = 1)
      !
      zz = REAL( narea, wp )
      CALL iom_set_domain_attr('scalarpoint', lonvalue=zz, latvalue=zz)
      !
   END SUBROUTINE set_scalar


   SUBROUTINE set_xmlatt
      !!----------------------------------------------------------------------
      !!                     ***  ROUTINE set_xmlatt  ***
      !!
      !! ** Purpose :   automatic definitions of some of the xml attributs...
      !!
      !!----------------------------------------------------------------------
      CHARACTER(len=1),DIMENSION( 3) ::   clgrd                    ! suffix name
      CHARACTER(len=256)             ::   clsuff                   ! suffix name
      CHARACTER(len=1)               ::   cl1                      ! 1 character
      CHARACTER(len=2)               ::   cl2                      ! 2 characters
      CHARACTER(len=3)               ::   cl3                      ! 3 characters
      INTEGER                        ::   ji, jg                   ! loop counters
      INTEGER                        ::   ix, iy                   ! i-,j- index
      REAL(wp)        ,DIMENSION(11) ::   zlontao                  ! longitudes of tao    moorings
      REAL(wp)        ,DIMENSION( 7) ::   zlattao                  ! latitudes  of tao    moorings
      REAL(wp)        ,DIMENSION( 4) ::   zlonrama                 ! longitudes of rama   moorings
      REAL(wp)        ,DIMENSION(11) ::   zlatrama                 ! latitudes  of rama   moorings
      REAL(wp)        ,DIMENSION( 3) ::   zlonpira                 ! longitudes of pirata moorings
      REAL(wp)        ,DIMENSION( 9) ::   zlatpira                 ! latitudes  of pirata moorings
      TYPE(xios_duration)            ::   f_op, f_of
      !!----------------------------------------------------------------------
      !
      ! frequency of the call of iom_put (attribut: freq_op)
      f_op%timestep = 1        ;  f_of%timestep =  0  ; CALL iom_set_field_attr('field_definition', freq_op=f_op, freq_offset=f_of)
      f_op%timestep = 2        ;  f_of%timestep =  0  ; CALL iom_set_field_attr('trendT_even'     , freq_op=f_op, freq_offset=f_of)
      f_op%timestep = 2        ;  f_of%timestep = -1  ; CALL iom_set_field_attr('trendT_odd'      , freq_op=f_op, freq_offset=f_of)
      f_op%timestep = nn_fsbc  ;  f_of%timestep =  0  ; CALL iom_set_field_attr('SBC'             , freq_op=f_op, freq_offset=f_of)
      f_op%timestep = nn_fsbc  ;  f_of%timestep =  0  ; CALL iom_set_field_attr('SBC_scalar'      , freq_op=f_op, freq_offset=f_of)
      f_op%timestep = nn_fsbc  ;  f_of%timestep =  0  ; CALL iom_set_field_attr('ABL'             , freq_op=f_op, freq_offset=f_of)

      ! output file names (attribut: name)
      DO ji = 1, 9
         WRITE(cl1,'(i1)') ji
         CALL iom_update_file_name('file'//cl1)
      END DO
      DO ji = 1, 99
         WRITE(cl2,'(i2.2)') ji
         CALL iom_update_file_name('file'//cl2)
      END DO
      DO ji = 1, 999
         WRITE(cl3,'(i3.3)') ji
         CALL iom_update_file_name('file'//cl3)
      END DO

      ! Zooms...
      clgrd = (/ 'T', 'U', 'W' /)
      DO jg = 1, SIZE(clgrd)                                                                   ! grid type
         cl1 = clgrd(jg)
         ! Equatorial section (attributs: jbegin, ni, name_suffix)
         CALL dom_ngb( 0.0_wp, 0.0_wp, ix, iy, cl1 )
         CALL iom_set_zoom_domain_attr('Eq'//cl1, ibegin=0, jbegin=iy-1, ni=Ni0glo, nj=1 )
         CALL iom_get_file_attr   ('Eq'//cl1, name_suffix = clsuff             )
         CALL iom_set_file_attr   ('Eq'//cl1, name_suffix = TRIM(clsuff)//'_Eq')
         CALL iom_update_file_name('Eq'//cl1)
      END DO
      ! TAO moorings (attributs: ibegin, jbegin, name_suffix)
      zlontao = (/ 137.0, 147.0, 156.0, 165.0, -180.0, -170.0, -155.0, -140.0, -125.0, -110.0, -95.0 /)
      zlattao = (/  -8.0,  -5.0,  -2.0,   0.0,    2.0,    5.0,    8.0 /)
      CALL set_mooring( zlontao, zlattao )
      ! RAMA moorings (attributs: ibegin, jbegin, name_suffix)
      zlonrama = (/  55.0,  67.0, 80.5, 90.0 /)
      zlatrama = (/ -16.0, -12.0, -8.0, -4.0, -1.5, 0.0, 1.5, 4.0, 8.0, 12.0, 15.0 /)
      CALL set_mooring( zlonrama, zlatrama )
      ! PIRATA moorings (attributs: ibegin, jbegin, name_suffix)
      zlonpira = (/ -38.0, -23.0, -10.0 /)
      zlatpira = (/ -19.0, -14.0,  -8.0, 0.0, 4.0, 8.0, 12.0, 15.0, 20.0 /)
      CALL set_mooring( zlonpira, zlatpira )
      !
   END SUBROUTINE set_xmlatt


   SUBROUTINE set_mooring( plon, plat )
      !!----------------------------------------------------------------------
      !!                     ***  ROUTINE set_mooring  ***
      !!
      !! ** Purpose :   automatic definitions of moorings xml attributs...
      !!
      !!----------------------------------------------------------------------
      REAL(wp), DIMENSION(:), INTENT(in) ::   plon, plat   ! longitudes/latitudes oft the mooring
      !
!!$      CHARACTER(len=1),DIMENSION(4) ::   clgrd = (/ 'T', 'U', 'V', 'W' /)   ! suffix name
      CHARACTER(len=1),DIMENSION(1) ::   clgrd = (/ 'T' /)        ! suffix name
      CHARACTER(len=256)            ::   clname                   ! file name
      CHARACTER(len=256)            ::   clsuff                   ! suffix name
      CHARACTER(len=1)              ::   cl1                      ! 1 character
      CHARACTER(len=6)              ::   clon,clat                ! name of longitude, latitude
      INTEGER                       ::   ji, jj, jg               ! loop counters
      INTEGER                       ::   ix, iy                   ! i-,j- index
      REAL(wp)                      ::   zlon, zlat
      !!----------------------------------------------------------------------
      DO jg = 1, SIZE(clgrd)
         cl1 = clgrd(jg)
         DO ji = 1, SIZE(plon)
            DO jj = 1, SIZE(plat)
               zlon = plon(ji)
               zlat = plat(jj)
               ! modifications for RAMA moorings
               IF( zlon ==  67. .AND. zlat ==  15. )   zlon =  65.
               IF( zlon ==  90. .AND. zlat <=  -4. )   zlon =  95.
               IF( zlon ==  95. .AND. zlat ==  -4. )   zlat =  -5.
               ! modifications for PIRATA moorings
               IF( zlon == -38. .AND. zlat == -19. )   zlon = -34.
               IF( zlon == -38. .AND. zlat == -14. )   zlon = -32.
               IF( zlon == -38. .AND. zlat ==  -8. )   zlon = -30.
               IF( zlon == -38. .AND. zlat ==   0. )   zlon = -35.
               IF( zlon == -23. .AND. zlat ==  20. )   zlat =  21.
               IF( zlon == -10. .AND. zlat == -14. )   zlat = -10.
               IF( zlon == -10. .AND. zlat ==  -8. )   zlat =  -6.
               IF( zlon == -10. .AND. zlat ==   4. ) THEN   ;   zlon = 0.   ;   zlat = 0.   ;   ENDIF
               CALL dom_ngb( zlon, zlat, ix, iy, cl1 )
               IF( zlon >= 0. ) THEN
                  IF( zlon == REAL(NINT(zlon), wp) ) THEN   ;   WRITE(clon, '(i3,  a)') NINT( zlon), 'e'
                  ELSE                                      ;   WRITE(clon, '(f5.1,a)')       zlon , 'e'
                  ENDIF
               ELSE
                  IF( zlon == REAL(NINT(zlon), wp) ) THEN   ;   WRITE(clon, '(i3,  a)') NINT(-zlon), 'w'
                  ELSE                                      ;   WRITE(clon, '(f5.1,a)')      -zlon , 'w'
                  ENDIF
               ENDIF
               IF( zlat >= 0. ) THEN
                  IF( zlat == REAL(NINT(zlat), wp) ) THEN   ;   WRITE(clat, '(i2,  a)') NINT( zlat), 'n'
                  ELSE                                      ;   WRITE(clat, '(f4.1,a)')       zlat , 'n'
                  ENDIF
               ELSE
                  IF( zlat == REAL(NINT(zlat), wp) ) THEN   ;   WRITE(clat, '(i2,  a)') NINT(-zlat), 's'
                  ELSE                                      ;   WRITE(clat, '(f4.1,a)')      -zlat , 's'
                  ENDIF
               ENDIF
               clname = TRIM(ADJUSTL(clat))//TRIM(ADJUSTL(clon))
               CALL iom_set_zoom_domain_attr(TRIM(clname)//cl1, ibegin= ix-1, jbegin= iy-1, ni=1, nj=1)

               CALL iom_get_file_attr   (TRIM(clname)//cl1, name_suffix = clsuff                         )
               CALL iom_set_file_attr   (TRIM(clname)//cl1, name_suffix = TRIM(clsuff)//'_'//TRIM(clname))
               CALL iom_update_file_name(TRIM(clname)//cl1)
            END DO
         END DO
      END DO

   END SUBROUTINE set_mooring


   SUBROUTINE iom_update_file_name( cdid )
      !!----------------------------------------------------------------------
      !!                     ***  ROUTINE iom_update_file_name  ***
      !!
      !! ** Purpose :
      !!
      !!----------------------------------------------------------------------
      CHARACTER(LEN=*)          , INTENT(in) ::   cdid
      !
      CHARACTER(LEN=256) ::   clname
      CHARACTER(LEN=20)  ::   clfreq
      CHARACTER(LEN=20)  ::   cldate
      INTEGER            ::   idx
      INTEGER            ::   jn
      INTEGER            ::   itrlen
      INTEGER            ::   iyear, imonth, iday, isec
      REAL(wp)           ::   zsec
      LOGICAL            ::   llexist
      TYPE(xios_duration)   ::   output_freq
      !!----------------------------------------------------------------------
      !
      DO jn = 1, 2
         !
         output_freq = xios_duration(0,0,0,0,0,0)
         IF( jn == 1 )   CALL iom_get_file_attr( cdid, name        = clname, output_freq = output_freq )
         IF( jn == 2 )   CALL iom_get_file_attr( cdid, name_suffix = clname )
         !
         IF ( TRIM(clname) /= '' ) THEN
            !
            idx = INDEX(clname,'@expname@') + INDEX(clname,'@EXPNAME@')
            DO WHILE ( idx /= 0 )
               clname = clname(1:idx-1)//TRIM(cexper)//clname(idx+9:LEN_TRIM(clname))
               idx = INDEX(clname,'@expname@') + INDEX(clname,'@EXPNAME@')
            END DO
            !
            idx = INDEX(clname,'@freq@') + INDEX(clname,'@FREQ@')
            DO WHILE ( idx /= 0 )
              IF ( output_freq%timestep /= 0) THEN
                  WRITE(clfreq,'(I18,A2)')INT(output_freq%timestep),'ts'
                  itrlen = LEN_TRIM(ADJUSTL(clfreq))
              ELSE IF ( output_freq%second /= 0 ) THEN
                  WRITE(clfreq,'(I19,A1)')INT(output_freq%second),'s'
                  itrlen = LEN_TRIM(ADJUSTL(clfreq))
              ELSE IF ( output_freq%minute /= 0 ) THEN
                  WRITE(clfreq,'(I18,A2)')INT(output_freq%minute),'mi'
                  itrlen = LEN_TRIM(ADJUSTL(clfreq))
              ELSE IF ( output_freq%hour /= 0 ) THEN
                  WRITE(clfreq,'(I19,A1)')INT(output_freq%hour),'h'
                  itrlen = LEN_TRIM(ADJUSTL(clfreq))
              ELSE IF ( output_freq%day /= 0 ) THEN
                  WRITE(clfreq,'(I19,A1)')INT(output_freq%day),'d'
                  itrlen = LEN_TRIM(ADJUSTL(clfreq))
              ELSE IF ( output_freq%month /= 0 ) THEN
                  WRITE(clfreq,'(I19,A1)')INT(output_freq%month),'m'
                  itrlen = LEN_TRIM(ADJUSTL(clfreq))
              ELSE IF ( output_freq%year /= 0 ) THEN
                  WRITE(clfreq,'(I19,A1)')INT(output_freq%year),'y'
                  itrlen = LEN_TRIM(ADJUSTL(clfreq))
              ELSE
                  CALL ctl_stop('error in the name of file id '//TRIM(cdid),   &
                     & ' attribute output_freq is undefined -> cannot replace @freq@ in '//TRIM(clname) )
              ENDIF
              clname = clname(1:idx-1)//TRIM(ADJUSTL(clfreq))//clname(idx+6:LEN_TRIM(clname))
              idx = INDEX(clname,'@freq@') + INDEX(clname,'@FREQ@')
            END DO
            !
            idx = INDEX(clname,'@startdate@') + INDEX(clname,'@STARTDATE@')
            DO WHILE ( idx /= 0 )
               cldate = iom_sdate( fjulday - rn_Dt / rday )
               clname = clname(1:idx-1)//TRIM(cldate)//clname(idx+11:LEN_TRIM(clname))
               idx = INDEX(clname,'@startdate@') + INDEX(clname,'@STARTDATE@')
            END DO
            !
            idx = INDEX(clname,'@startdatefull@') + INDEX(clname,'@STARTDATEFULL@')
            DO WHILE ( idx /= 0 )
               cldate = iom_sdate( fjulday - rn_Dt / rday, ldfull = .TRUE. )
               clname = clname(1:idx-1)//TRIM(cldate)//clname(idx+15:LEN_TRIM(clname))
               idx = INDEX(clname,'@startdatefull@') + INDEX(clname,'@STARTDATEFULL@')
            END DO
            !
            idx = INDEX(clname,'@enddate@') + INDEX(clname,'@ENDDATE@')
            DO WHILE ( idx /= 0 )
               cldate = iom_sdate( fjulday + rn_Dt / rday * REAL( nitend - nit000, wp ), ld24 = .TRUE. )
               clname = clname(1:idx-1)//TRIM(cldate)//clname(idx+9:LEN_TRIM(clname))
               idx = INDEX(clname,'@enddate@') + INDEX(clname,'@ENDDATE@')
            END DO
            !
            idx = INDEX(clname,'@enddatefull@') + INDEX(clname,'@ENDDATEFULL@')
            DO WHILE ( idx /= 0 )
               cldate = iom_sdate( fjulday + rn_Dt / rday * REAL( nitend - nit000, wp ), ld24 = .TRUE., ldfull = .TRUE. )
               clname = clname(1:idx-1)//TRIM(cldate)//clname(idx+13:LEN_TRIM(clname))
               idx = INDEX(clname,'@enddatefull@') + INDEX(clname,'@ENDDATEFULL@')
            END DO
            !
            IF( jn == 1 .AND. TRIM(Agrif_CFixed()) /= '0' )   clname = TRIM(Agrif_CFixed())//"_"//TRIM(clname)
            IF( jn == 1 )   CALL iom_set_file_attr( cdid, name        = clname )
            IF( jn == 2 )   CALL iom_set_file_attr( cdid, name_suffix = clname )
            !
         ENDIF
         !
      END DO
      !
   END SUBROUTINE iom_update_file_name


   FUNCTION iom_sdate( pjday, ld24, ldfull )
      !!----------------------------------------------------------------------
      !!                     ***  ROUTINE iom_sdate  ***
      !!
      !! ** Purpose :   send back the date corresponding to the given julian day
      !!----------------------------------------------------------------------
      REAL(wp), INTENT(in   )           ::   pjday    ! julian day
      LOGICAL , INTENT(in   ), OPTIONAL ::   ld24     ! true to force 24:00 instead of 00:00
      LOGICAL , INTENT(in   ), OPTIONAL ::   ldfull   ! true to get the compleate date: yyyymmdd_hh:mm:ss
      !
      CHARACTER(LEN=20) ::   iom_sdate
      CHARACTER(LEN=50) ::   clfmt                         !  format used to write the date
      INTEGER           ::   iyear, imonth, iday, ihour, iminute, isec
      REAL(wp)          ::   zsec
      LOGICAL           ::   ll24, llfull
      !!----------------------------------------------------------------------
      !
      IF( PRESENT(ld24) ) THEN   ;   ll24 = ld24
      ELSE                       ;   ll24 = .FALSE.
      ENDIF
      !
      IF( PRESENT(ldfull) ) THEN   ;   llfull = ldfull
      ELSE                         ;   llfull = .FALSE.
      ENDIF
      !
      CALL ju2ymds( pjday, iyear, imonth, iday, zsec )
      isec = NINT(zsec)
      !
      IF ( ll24 .AND. isec == 0 ) THEN   ! 00:00 of the next day -> move to 24:00 of the current day
         CALL ju2ymds( pjday - 1.0_wp, iyear, imonth, iday, zsec )
         isec = 86400
      ENDIF
      !
      IF( iyear < 10000 ) THEN   ;   clfmt = "i4.4,2i2.2"                ! format used to write the date
      ELSE                       ;   WRITE(clfmt, "('i',i1,',2i2.2')") INT(LOG10(REAL(iyear,wp))) + 1
      ENDIF
      !
!$AGRIF_DO_NOT_TREAT
      ! needed in the conv
      IF( llfull ) THEN
         clfmt = TRIM(clfmt)//",'_',i2.2,':',i2.2,':',i2.2"
         ihour   = isec / 3600
         isec    = MOD(isec, 3600)
         iminute = isec / 60
         isec    = MOD(isec, 60)
         WRITE(iom_sdate, '('//TRIM(clfmt)//')') iyear, imonth, iday, ihour, iminute, isec    ! date of the end of run
      ELSE
         WRITE(iom_sdate, '('//TRIM(clfmt)//')') iyear, imonth, iday                          ! date of the end of run
      ENDIF
!$AGRIF_END_DO_NOT_TREAT
      !
   END FUNCTION iom_sdate

#else
   !!----------------------------------------------------------------------
   !!   NOT 'key_xios'                               a few dummy routines
   !!----------------------------------------------------------------------
   SUBROUTINE iom_setkt( kt, cdname )
      INTEGER         , INTENT(in)::   kt
      CHARACTER(LEN=*), INTENT(in) ::   cdname
      IF( .FALSE. )   WRITE(numout,*) kt, cdname   ! useless test to avoid compilation warnings
   END SUBROUTINE iom_setkt

   SUBROUTINE iom_context_finalize( cdname )
      CHARACTER(LEN=*), INTENT(in) ::   cdname
      IF( .FALSE. )   WRITE(numout,*)  cdname   ! useless test to avoid compilation warnings
   END SUBROUTINE iom_context_finalize

   SUBROUTINE iom_update_file_name( cdid )
      CHARACTER(LEN=*), INTENT(in) ::   cdid
      IF( .FALSE. )   WRITE(numout,*)  cdid   ! useless test to avoid compilation warnings
   END SUBROUTINE iom_update_file_name

#endif

   LOGICAL FUNCTION iom_use( cdname )
      CHARACTER(LEN=*), INTENT(in) ::   cdname
#if defined key_xios
      iom_use = xios_field_is_active( cdname )
#else
      iom_use = .FALSE.
#endif
   END FUNCTION iom_use

   SUBROUTINE iom_miss_val( cdname, pmiss_val )
      CHARACTER(LEN=*), INTENT(in ) ::   cdname
      REAL(wp)        , INTENT(out) ::   pmiss_val
      REAL(dp)                      ::   ztmp_pmiss_val
#if defined key_xios
      ! get missing value
      CALL xios_get_field_attr( cdname, default_value = ztmp_pmiss_val )
      pmiss_val = ztmp_pmiss_val
#else
      IF( .FALSE. )   WRITE(numout,*) cdname, pmiss_val   ! useless test to avoid compilation warnings
      IF( .FALSE. )   pmiss_val = 0._wp                   ! useless assignment to avoid compilation warnings
#endif
   END SUBROUTINE iom_miss_val

   !!======================================================================
END MODULE iom