WRFHydro_NUOPC_Gluecode.F90

#define FILENAME "WRFHydro_NUOPC_Gluecode"
#define MODNAME "WRFHydro_NUOPC_Gluecode.F90"
#include "WRFHydro_NUOPC_Macros.h"

module wrfhydro_nuopc_gluecode
! !MODULE: wrfhydro_nuopc_gluecode
!
! !DESCRIPTION:
!   This module connects NUOPC initialize, advance,
!   and finalize to WRFHYDRO.
!
! !REVISION HISTORY:
!  13Oct15    Dan Rosen  Initial Specification
!
! !USES:
  use ESMF
  use NUOPC
  use WRFHydro_ESMF_Extensions
  use module_mpp_land, only: &
    HYDRO_COMM_WORLD, &
    global_nx, &
    global_ny, &
    decompose_data_real, &
    write_io_real, my_id, &
    mpp_land_bcast_real1, &
    IO_id, &
    mpp_land_bcast_real, &
    mpp_land_bcast_int1, &
    MPP_LAND_INIT
  use module_HYDRO_drv, only: &
    HYDRO_ini, &
    HYDRO_exe
  use module_HYDRO_io, only: &
    get_file_dimension
  use module_CPL_LAND, only: &
    CPL_LAND_INIT, &
    cpl_outdate
  use module_rt_data, only: &
    rt_domain
  use module_namelist, only: &
    nlst_rt, &
    read_rt_nlst
  use module_lsm_forcing, only: &
    read_ldasout
!  use module_gw_gw2d_data, only: &
!    gw2d
!  use module_domain, only: &
!    domain, &
!    domain_clock_get
!  use module_configure, only: &
!    grid_config_rec_type
!  use module_configure, only: &
!    config_flags
!  use module_configure, only: &
!    model_config_rec

  implicit none

  private

  public :: wrfhydro_nuopc_ini
  public :: wrfhydro_nuopc_run
  public :: wrfhydro_nuopc_fin
  public :: WRFHYDRO_GridCreate
  public :: WRFHYDRO_get_timestep
  public :: WRFHYDRO_set_timestep
  public :: WRFHYDRO_get_hgrid
  public :: WRFHYDRO_RunModeGet
  public :: WRFHYDRO_Unknown
  public :: WRFHYDRO_Offline
  public :: WRFHYDRO_Coupled
  public :: WRFHYDRO_Hybrid
  public :: WRFHYDRO_Field
  public :: WRFHYDRO_FieldList
  public :: WRFHYDRO_FieldDictionaryAdd
  public :: WRFHYDRO_FieldCreate

  INTEGER, PARAMETER :: WRFHYDRO_Unknown = -1
  INTEGER, PARAMETER :: WRFHYDRO_Offline =  0
  INTEGER, PARAMETER :: WRFHYDRO_Coupled =  1
  INTEGER, PARAMETER :: WRFHYDRO_Hybrid  =  2

  type WRFHYDRO_Field
    character(len=64)   :: stdname        = ' '
    character(len=10)   :: units          = ' '
    character(len=64)   :: transferOffer  = 'will provide'
    logical             :: adImport       = .FALSE.
    logical             :: realizedImport = .FALSE.
    logical             :: adExport       = .FALSE.
    logical             :: realizedExport = .FALSE.
    logical             :: assoc          = .FALSE. 
    real(ESMF_KIND_R8), dimension(:,:,:), pointer :: farrayPtr => null()
  endtype WRFHYDRO_Field

  type(WRFHYDRO_Field),dimension(46) :: WRFHYDRO_FieldList = (/ &
    WRFHYDRO_Field( & !(01)
      stdname='aerodynamic_roughness_length', units='m', &
      adImport=.FALSE.,adExport=.FALSE.), &
    WRFHYDRO_Field( & !(02)
      stdname='canopy_moisture_storage', units='kg m-2', &
      adImport=.FALSE.,adExport=.FALSE.), &
    WRFHYDRO_Field( & !(03)
      stdname='carbon_dioxide', units='mol?', &
      adImport=.FALSE.,adExport=.FALSE.), &
    WRFHYDRO_Field( & !(04)
      stdname='cosine_zenith_angle', units='?', &
      adImport=.FALSE.,adExport=.FALSE.), &
    WRFHYDRO_Field( & !(05)
      stdname='exchange_coefficient_heat', units='?', &
      adImport=.FALSE.,adExport=.FALSE.), &
    WRFHYDRO_Field( & !(06)
      stdname='exchange_coefficient_heat_height2m', units='?', &
      adImport=.FALSE.,adExport=.FALSE.), &
    WRFHYDRO_Field( & !(07)
      stdname='exchange_coefficient_moisture_height2m', units='?', &
      adImport=.FALSE.,adExport=.FALSE.), &
    WRFHYDRO_Field( & !(08)
      stdname='ice_mask', units='1', &
      adImport=.FALSE.,adExport=.FALSE.), &
    WRFHYDRO_Field( & !(09)
      stdname='inst_down_lw_flx', units='W m-2', &
      adImport=.FALSE.,adExport=.FALSE.), &
    WRFHYDRO_Field( & !(10)
      stdname='inst_down_sw_flx', units='W m-2', &
      adImport=.FALSE.,adExport=.FALSE.), &
    WRFHYDRO_Field( & !(11)
      stdname='inst_height_lowest', units='m', &
      adImport=.FALSE.,adExport=.FALSE.), &
    WRFHYDRO_Field( & !(12)
      stdname='inst_merid_wind_height_lowest', units='m s-1', &
      adImport=.FALSE.,adExport=.FALSE.), &
    WRFHYDRO_Field( & !(13)
      stdname='inst_pres_height_lowest', units='Pa', &
      adImport=.FALSE.,adExport=.FALSE.), &
    WRFHYDRO_Field( & !(14)
      stdname='inst_pres_height_surface', units='Pa', &
      adImport=.FALSE.,adExport=.FALSE.), &
    WRFHYDRO_Field( & !(15)
      stdname='inst_spec_humid_height_lowest', units='kg kg-1', &
      adImport=.FALSE.,adExport=.FALSE.), &
    WRFHYDRO_Field( & !(16)
      stdname='inst_temp_height_lowest', units='K', &
      adImport=.FALSE.,adExport=.FALSE.), &
    WRFHYDRO_Field( & !(17)
      stdname='inst_temp_height_surface', units='K', &
      adImport=.FALSE.,adExport=.FALSE.), &
    WRFHYDRO_Field( & !(18)
      stdname='inst_wind_speed_height_lowest', units='m s-1', &
      adImport=.FALSE.,adExport=.FALSE.), &
    WRFHYDRO_Field( & !(19)
      stdname='inst_zonal_wind_height_lowest', units='m s-1', &
      adImport=.FALSE.,adExport=.FALSE.), &
    WRFHYDRO_Field( & !(20)
      stdname='liquid_fraction_of_soil_moisture_layer_1', units='m3 m-3', &
      adImport=.TRUE.,adExport=.TRUE.), &
    WRFHYDRO_Field( & !(21)
      stdname='liquid_fraction_of_soil_moisture_layer_2', units='m3 m-3', &
      adImport=.TRUE.,adExport=.TRUE.), &
    WRFHYDRO_Field( & !(22)
      stdname='liquid_fraction_of_soil_moisture_layer_3', units='m3 m-3', &
      adImport=.TRUE.,adExport=.TRUE.), &
    WRFHYDRO_Field( & !(23)
      stdname='liquid_fraction_of_soil_moisture_layer_4', units='m3 m-3', &
      adImport=.TRUE.,adExport=.TRUE.), &
    WRFHYDRO_Field( & !(24)
      stdname='mean_cprec_rate', units='kg s-1 m-2', &
      adImport=.FALSE.,adExport=.TRUE.), &
    WRFHYDRO_Field( & !(25)
      stdname='mean_down_lw_flx', units='W m-2', &
      adImport=.FALSE.,adExport=.FALSE.), &
    WRFHYDRO_Field( & !(26)
      stdname='mean_down_sw_flx', units='W m-2', &
      adImport=.FALSE.,adExport=.FALSE.), &
    WRFHYDRO_Field( & !(27)
      stdname='mean_fprec_rate', units='kg s-1 m-2', &
      adImport=.FALSE.,adExport=.FALSE.), &
    WRFHYDRO_Field( & !(28)
      stdname='mean_prec_rate', units='kg s-1 m-2', &
      adImport=.FALSE.,adExport=.FALSE.), &
    WRFHYDRO_Field( & !(29)
      stdname='mean_surface_albedo', units='lm lm-1', &
      adImport=.FALSE.,adExport=.FALSE.), &
    WRFHYDRO_Field( & !(30)
      stdname='soil_moisture_fraction_layer_1', units='m3 m-3', &
      adImport=.TRUE.,adExport=.TRUE.), &
    WRFHYDRO_Field( & !(31)
      stdname='soil_moisture_fraction_layer_2', units='m3 m-3', &
      adImport=.TRUE.,adExport=.TRUE.), &
    WRFHYDRO_Field( & !(32)
      stdname='soil_moisture_fraction_layer_3', units='m3 m-3', &
      adImport=.TRUE.,adExport=.TRUE.), &
    WRFHYDRO_Field( & !(33)
      stdname='soil_moisture_fraction_layer_4', units='m3 m-3', &
      adImport=.TRUE.,adExport=.TRUE.), &
    WRFHYDRO_Field( & !(34)
      stdname='soil_porosity', units='1', &
      adImport=.FALSE.,adExport=.FALSE.), &
    WRFHYDRO_Field( & !(35)
      stdname='subsurface_runoff_amount', units='kg m-2', &
      adImport=.FALSE.,adExport=.FALSE.), &
    WRFHYDRO_Field( & !(36)
      stdname='surface_runoff_amount', units='kg m-2', &
      adImport=.FALSE.,adExport=.FALSE.), &
    WRFHYDRO_Field( & !(37)
      stdname='surface_snow_thickness', units='m', &
      adImport=.FALSE.,adExport=.TRUE.), & 
    WRFHYDRO_Field( & !(38)
      stdname='soil_temperature_layer_1', units='K', &
      adImport=.TRUE.,adExport=.FALSE.), &
    WRFHYDRO_Field( & !(39)
      stdname='soil_temperature_layer_2', units='K', &
      adImport=.TRUE.,adExport=.FALSE.), &
    WRFHYDRO_Field( & !(40)
      stdname='soil_temperature_layer_3', units='K', &
      adImport=.TRUE.,adExport=.FALSE.), &
    WRFHYDRO_Field( & !(41)
      stdname='soil_temperature_layer_4', units='K', &
      adImport=.TRUE.,adExport=.FALSE.), &
    WRFHYDRO_Field( & !(42)
      stdname='vegetation_type', units='1', &
      adImport=.FALSE.,adExport=.FALSE.), &
    WRFHYDRO_Field( & !(43)
      stdname='volume_fraction_of_total_water_in_soil', units='m3 m-3', &
      adImport=.FALSE.,adExport=.TRUE.), & 
    WRFHYDRO_Field( & !(44)
      stdname='surface_water_depth', units='mm', &
      adImport=.FALSE.,adExport=.TRUE.), &
    WRFHYDRO_Field( & !(45)
      stdname='time_step_infiltration_excess', units='mm', &
      adImport=.TRUE.,adExport=.FALSE.), &
    WRFHYDRO_Field( & !(46)
      stdname='soil_column_drainage', units='mm', &
      adImport=.TRUE.,adExport=.FALSE.)/)

  ! PARAMETERS
  character(len=ESMF_MAXSTR) :: indir = 'WRFHYDRO_FORCING'
  integer                    :: num_nests = UNINITIALIZED
  integer                    :: num_tiles
  integer                    :: nx_global
  integer                    :: ny_global
  integer                    :: x_start
  integer                    :: x_end
  integer                    :: y_start
  integer                    :: y_end
  integer                    :: nx_local
  integer                    :: ny_local
  integer                    :: sf_surface_physics = UNINITIALIZED

  ! added to consider the adaptive time step from driver.
  real                  :: dt0 = UNINITIALIZED
  real                  :: dtrt_ter0 = UNINITIALIZED
  real                  :: dtrt_ch0 = UNINITIALIZED
  integer               :: dt_factor0 = UNINITIALIZED
  integer               :: dt_factor = UNINITIALIZED
  ! added for check soil moisture and soiltype
  integer               :: checkSOIL_flag = UNINITIALIZED
  ! added to track the driver clock
  character(len=19)     :: startTimeStr = "0000-00-00_00:00:00"

  type(ESMF_DistGrid)   :: WRFHYDRO_DistGrid ! One DistGrid created with ConfigFile dimensions
  character(len=512)  :: logMsg

  !-----------------------------------------------------------------------------
  ! Model Glue Code
  !-----------------------------------------------------------------------------
contains

#undef METHOD
#define METHOD "wrfhydro_nuopc_ini"

  subroutine wrfhydro_nuopc_ini(did,vm,clock,forcingDir,rc)
    integer, intent(in)                     :: did
    type(ESMF_VM),intent(in)                :: vm
    type(ESMF_Clock),intent(in)             :: clock
    character(len=*)                        :: forcingDir
    integer, intent(out)                    :: rc

    ! local variables
    integer                     :: localPet
    integer                     :: stat
    type(ESMF_DistGridConnection), allocatable :: connectionList(:)
    integer                     :: i
    type(ESMF_Time)             :: startTime
    type(ESMF_TimeInterval)     :: timeStep
    real(ESMF_KIND_R8)          :: dt
#ifdef DEBUG
    character(ESMF_MAXSTR)      :: logMsg
#endif

#ifdef DEBUG
    call ESMF_LogWrite(MODNAME//": entered "//METHOD, ESMF_LOGMSG_INFO)
#endif

    rc = ESMF_SUCCESS

    ! Set mpiCommunicator for WRFHYDRO
    call ESMF_VMGet(vm, localPet=localPet, &
      mpiCommunicator=HYDRO_COMM_WORLD, rc=rc)
    if(ESMF_STDERRORCHECK(rc)) return ! bail out

    ! Set focing directory
    indir=forcingDir

    ! Get the models timestep
    call ESMF_ClockGet(clock,timestep=timestep,startTime=startTime,rc=rc)
    if(ESMF_STDERRORCHECK(rc)) return ! bail out
    call ESMF_TimeIntervalGet(timestep,s_r8=dt,rc=rc)
    if(ESMF_STDERRORCHECK(rc)) return ! bail out
    call WRFHYDRO_TimeToString(startTime,timestr=startTimeStr,rc=rc)
    if(ESMF_STDERRORCHECK(rc)) return ! bail out

    ! Set default namelist values
    read (startTimeStr(1:4),"(I)")   nlst_rt(did)%START_YEAR
    read (startTimeStr(6:7),"(I)")   nlst_rt(did)%START_MONTH
    read (startTimeStr(9:10),"(I)")  nlst_rt(did)%START_DAY
    read (startTimeStr(12:13),"(I)") nlst_rt(did)%START_HOUR
    read (startTimeStr(15:16),"(I)") nlst_rt(did)%START_MIN
    nlst_rt(did)%startdate(1:19) = startTimeStr(1:19)
    nlst_rt(did)%olddate(1:19)   = startTimeStr(1:19)
    nlst_rt(did)%dt = dt
    cpl_outdate = startTimeStr(1:19)
    nlst_rt(did)%nsoil=4
    allocate(nlst_rt(did)%zsoil8(4),stat=stat)
    if (ESMF_LogFoundAllocError(statusToCheck=stat, &
      msg=METHOD//': Allocation of model soil depths memory failed.', &
      file=FILENAME, rcToReturn=rc)) return ! bail out
    nlst_rt(did)%zsoil8(1:4)=(/-0.1,-0.4,-1.0,-2.0/)
    nlst_rt(did)%geo_static_flnm = "geo_em.d01.nc"
    nlst_rt(did)%geo_finegrid_flnm = "fulldom_hires_hydrofile.d01.nc"
    nlst_rt(did)%sys_cpl = 2
    nlst_rt(did)%IGRID = did
    write(nlst_rt(did)%hgrid,'(I1)') did

    ! Read information from hydro.namelist config file
    call read_rt_nlst(nlst_rt(did))

#if DEBUG
    call WRFHYDRO_nlstLog(did,MODNAME,rc=rc)
    if(ESMF_STDERRORCHECK(rc)) return ! bail out
#endif

    if(nlst_rt(did)%nsoil .gt. 4) then
      call ESMF_LogSetError(ESMF_RC_ARG_OUTOFRANGE, &
        msg=METHOD//": Maximum soil levels supported is 4.", &
        file=FILENAME,rcToReturn=rc)
      return  ! bail out
    endif

    call MPP_LAND_INIT()  ! required before get_file_dimension
    call get_file_dimension(fileName=nlst_rt(did)%geo_static_flnm,& 
      ix=nx_global,jx=ny_global)

#ifdef DEBUG
    write (logMsg,"(A,2(I0,A))") MODNAME//": Global Dimensions = (", &
      nx_global,",",ny_global,")"
    call ESMF_LogWrite(trim(logMsg), ESMF_LOGMSG_INFO)
#endif

!    allocate(connectionList(1),stat=stat)
!    if (ESMF_LogFoundAllocError(statusToCheck=stat, &
!      msg=METHOD//': Allocation of connection list memory failed.', &
!      file=FILENAME, rcToReturn=rc)) return ! bail out
!    call ESMF_DistGridConnectionSet(connectionList(1), tileIndexA=1, &
!      tileIndexB=1, positionVector=(/nx_global, 0/), rc=rc)
!    if (ESMF_STDERRORCHECK(rc)) return  ! bail out


    ! Create DistGrid based on WRFHDYRO Config NX,NY
    WRFHYDRO_distgrid = ESMF_DistGridCreate( &
      minIndex=(/1,1/), maxIndex=(/nx_global,ny_global/), &
!     indexflag = ESMF_INDEX_DELOCAL, &
!     deBlockList=deBlockList, &
!     deLabelList=deLabelList, &
!     delayout=delayout, &
!     connectionList=connectionList, &
      rc=rc)
    if(ESMF_STDERRORCHECK(rc)) return ! bail out

!   deallocate(connectionList,stat=stat)
!   if (ESMF_LogFoundDeallocError(statusToCheck=stat, &
!     msg=METHOD//': Deallocation of connection list memory failed.', &
!     file=FILENAME,rcToReturn=rc)) return ! bail out

    ! Get the Local Decomp Incides
    call set_local_indices(rc)
    if(ESMF_STDERRORCHECK(rc)) return ! bail out

#ifdef DEBUG
    call ESMF_LogWrite(MODNAME//": Enter CPL_LAND_INIT", ESMF_LOGMSG_INFO)
#endif
    ! Initialize the internal Land <-> Hydro Coupling
    call CPL_LAND_INIT(x_start, x_end, y_start, y_end)
#ifdef DEBUG
    call ESMF_LogWrite(MODNAME//": Exit CPL_LAND_INIT", ESMF_LOGMSG_INFO)
#endif

    ! Routing timestep set in HYDRO_ini
#ifdef DEBUG
    call ESMF_LogWrite(MODNAME//": Enter HYDRO_ini", ESMF_LOGMSG_INFO)
#endif
    if(sf_surface_physics .eq. 5) then
      ! clm4
      ! Use wrfinput vegetation type and soil type
      call HYDRO_ini(ntime=1,did=did,ix0=1,jx0=1)
    else
      ! Use wrfinput vegetation type and soil type
      call HYDRO_ini(ntime=1,did=did,ix0=nx_local,jx0=ny_local)
    endif
#ifdef DEBUG
    call ESMF_LogWrite(MODNAME//": Exit HYDRO_ini", ESMF_LOGMSG_INFO)
    call WRFHYDRO_domainLog(did,MODNAME,rc=rc)
    if(ESMF_STDERRORCHECK(rc)) return ! bail out
#endif

    ! Override the clock configuration in hyro.namelist
    read (startTimeStr(1:4),"(I)")   nlst_rt(did)%START_YEAR
    read (startTimeStr(6:7),"(I)")   nlst_rt(did)%START_MONTH
    read (startTimeStr(9:10),"(I)")  nlst_rt(did)%START_DAY
    read (startTimeStr(12:13),"(I)") nlst_rt(did)%START_HOUR
    read (startTimeStr(15:16),"(I)") nlst_rt(did)%START_MIN
    nlst_rt(did)%startdate(1:19) = startTimeStr(1:19)
    nlst_rt(did)%olddate(1:19)   = startTimeStr(1:19)
    nlst_rt(did)%dt = dt
    cpl_outdate = startTimeStr(1:19)

    if(nlst_rt(did)%dt .le. 0) then
      call ESMF_LogSetError(ESMF_RC_ARG_OUTOFRANGE, &
        msg=METHOD//": Timestep less than 1 is not supported!", &
        file=FILENAME,rcToReturn=rc)
      return  ! bail out
    endif

    ! Adjust the routing timestep and factor
    ! At this point the coupling driver timestep is unknown
    ! and uses WRFHYDRO Config as best guess
    if(nlst_rt(did)%dtrt_ter .ge. dt) then
       nlst_rt(did)%dtrt_ter = dt
       dt_factor0 = 1
    else
       dt_factor = dt/nlst_rt(did)%dtrt_ter
       if (dt_factor*nlst_rt(did)%dtrt_ter .lt. dt) &
         nlst_rt(did)%dtrt_ter = dt/dt_factor
       dt_factor0 = dt_factor
    endif

    if(nlst_rt(did)%dtrt_ch .ge. dt) then
      nlst_rt(did)%dtrt_ch = dt
      dt_factor0 = 1
    else
      dt_factor = dt/nlst_rt(did)%dtrt_ch
      if(dt_factor*nlst_rt(did)%dtrt_ch .lt. dt) &
        nlst_rt(did)%dtrt_ch = dt/dt_factor
      dt_factor0 = dt_factor
    endif

    dt0 = nlst_rt(did)%dt
    dtrt_ter0 = nlst_rt(did)%dtrt_ter
    dtrt_ch0 = nlst_rt(did)%dtrt_ch

    RT_DOMAIN(did)%initialized = .true.

    num_nests = num_nests + 1

#ifdef DEBUG
    call ESMF_LogWrite(MODNAME//": leaving "//METHOD, ESMF_LOGMSG_INFO)
#endif

  end subroutine

  !-----------------------------------------------------------------------------

#undef METHOD
#define METHOD "wrfhydro_nuopc_run"

  subroutine wrfhydro_nuopc_run(did,mode,clock,importState,exportState,rc)
    integer, intent(in)                     :: did
    integer, intent(in)                     :: mode
    type(ESMF_Clock),intent(in)             :: clock
    type(ESMF_State),intent(inout)          :: importState
    type(ESMF_State),intent(inout)          :: exportState
    integer, intent(out)                    :: rc

    ! local variables
    type(ESMF_TimeInterval)     :: timeStep

#ifdef DEBUG
    call ESMF_LogWrite(MODNAME//": entered "//METHOD, ESMF_LOGMSG_INFO)
#endif

    rc = ESMF_SUCCESS

    if(.not. RT_DOMAIN(did)%initialized) then
      call ESMF_LogSetError(ESMF_RC_ARG_OUTOFRANGE, &
        msg="WRHYDRO: Model has not been initialized!", &
        file=FILENAME,rcToReturn=rc)
      return  ! bail out
    endif

    call ESMF_ClockGet(clock, timeStep=timeStep, rc=rc)
    if(ESMF_STDERRORCHECK(rc)) return ! bail out

    call WRFHYDRO_ClockToString(clock,timestr=cpl_outdate,rc=rc)
    if (ESMF_STDERRORCHECK(rc)) return
    nlst_rt(did)%olddate(1:19) = cpl_outdate(1:19) ! Current time is the

    nlst_rt(did)%dt = WRFHYDRO_TimeIntervalGetReal(timeInterval=timeStep,rc=rc)
    if(ESMF_STDERRORCHECK(rc)) return ! bail out

    if(nlst_rt(did)%dt .le. 0) then
      call ESMF_LogSetError(ESMF_RC_ARG_OUTOFRANGE, &
        msg=METHOD//": Timestep less than 1 is not supported!", &
        file=FILENAME,rcToReturn=rc)
      return  ! bail out
    endif

    if((dt_factor0*nlst_rt(did)%dtrt_ter) .ne. nlst_rt(did)%dt) then   ! NUOPC driver time step changed.
      call ESMF_LogWrite(METHOD//": Driver timestep changed.",ESMF_LOGMSG_INFO)
      if(dtrt_ter0 .ge. nlst_rt(did)%dt) then
        nlst_rt(did)%dtrt_ter = nlst_rt(did)%dt
        dt_factor0 = 1
      else
        dt_factor = nlst_rt(did)%dt / dtrt_ter0
        if(dt_factor*dtrt_ter0 .lt. nlst_rt(did)%dt) &
          nlst_rt(did)%dtrt_ter = nlst_rt(did)%dt / dt_factor
        dt_factor0 = dt_factor
      endif
    endif

    if((dt_factor0*nlst_rt(did)%dtrt_ch) .ne. nlst_rt(did)%dt) then   ! NUOPD driver time step changed.
      call ESMF_LogWrite(METHOD//": Driver timestep changed.",ESMF_LOGMSG_INFO)
      if(dtrt_ch0 .ge. nlst_rt(did)%dt) then
        nlst_rt(did)%dtrt_ch = nlst_rt(did)%dt
        dt_factor0 = 1
      else
        dt_factor = nlst_rt(did)%dt / dtrt_ch0
        if(dt_factor*dtrt_ch0 .lt. nlst_rt(did)%dt) &
          nlst_rt(did)%dtrt_ch = nlst_rt(did)%dt / dt_factor
        dt_factor0 = dt_factor
      endif
    endif

    if(nlst_rt(did)%SUBRTSWCRT .eq.0  .and. &
      nlst_rt(did)%OVRTSWCRT .eq. 0 .and. &
      nlst_rt(did)%GWBASESWCRT .eq. 0) then
       call ESMF_LogWrite(METHOD//": SUBRTSWCRT,OVRTSWCRT,GWBASESWCRT are zero!", &
            ESMF_LOGMSG_WARNING)
      !call ESMF_LogSetError(ESMF_RC_ARG_OUTOFRANGE, &
      !  msg=METHOD//": SUBRTSWCRT,OVRTSWCRT,GWBASESWCRT are zero!", &
      !  file=FILENAME,rcToReturn=rc)
      !return  ! bail out
    endif

    if((.not. RT_DOMAIN(did)%initialized) .and. (nlst_rt(did)%rst_typ .eq. 1) ) then
      call ESMF_LogWrite(METHOD//": Restart initial data from offline file.", &
        ESMF_LOGMSG_INFO)
    else

      select case (mode)
        case (WRFHYDRO_Offline)
          call read_ldasout(olddate=nlst_rt(did)%olddate(1:19), &
            hgrid=nlst_rt(did)%hgrid, &
            indir=trim(indir), dt=nlst_rt(did)%dt, &
            ix=rt_domain(did)%ix,jx=rt_domain(did)%jx, &
            infxsrt=rt_domain(did)%infxsrt,soldrain=rt_domain(did)%soldrain)
        case (WRFHYDRO_Coupled)


        case (WRFHYDRO_Hybrid)
          call read_ldasout(olddate=nlst_rt(did)%olddate(1:19), &
            hgrid=nlst_rt(did)%hgrid, &
            indir=trim(indir), dt=nlst_rt(did)%dt, &
            ix=rt_domain(did)%ix,jx=rt_domain(did)%jx, &
            infxsrt=rt_domain(did)%infxsrt,soldrain=rt_domain(did)%soldrain)


        case default
          call ESMF_LogSetError(ESMF_RC_ARG_BAD, &
            msg=METHOD//": Running mode is unknown.", &
            file=FILENAME, rcToReturn=rc)
          return  ! bail out
      end select
    endif
  
    ! Call the WRF-HYDRO run routine
    call HYDRO_exe(did=did)

    ! provide groundwater soil flux to WRF for fully coupled simulations (FERSCH 09/2014)
    !if(nlst_rt(did)%GWBASESWCRT .eq. 3 ) then
      !Wei Yu: comment the following two lines. Not ready
    !yw     qsgw(x_start(1):x_end(1),y_start(1):y_end(1)) = gw2d(did)%qsgw
    !yw     config_flags%gwsoilcpl = nlst_rt(did)%gwsoilcpl
    !end if

#ifdef DEBUG
    call ESMF_LogWrite(MODNAME//": leaving "//METHOD, ESMF_LOGMSG_INFO)
#endif

  end subroutine

  !-----------------------------------------------------------------------------

#undef METHOD
#define METHOD "wrfhydro_nuopc_fin"

  subroutine wrfhydro_nuopc_fin(did,rc)
    ! ARGUMENTES
    integer, intent(inout)      :: did
    integer, intent(out)        :: rc

    ! LOCAL VARIABLES
    integer                     :: stat

#ifdef DEBUG
    call ESMF_LogWrite(MODNAME//": entered "//METHOD, ESMF_LOGMSG_INFO)
#endif

    rc = ESMF_SUCCESS

    ! WRF-Hydro finish routine cannot be called because it stops MPI

!    DCR - Turned off to let the model deallocate memory
!    deallocate(nlst_rt(did)%zsoil8)
!    if (ESMF_LogFoundDeallocError(statusToCheck=stat, &
!      msg=METHOD//': Deallocation of model soil depth memory failed.', &
!      file=FILENAME,rcToReturn=rc)) return ! bail out

    RT_DOMAIN(did)%initialized = .false.

#ifdef DEBUG
    call ESMF_LogWrite(MODNAME//": leaving "//METHOD, ESMF_LOGMSG_INFO)
#endif

  end subroutine

  !-----------------------------------------------------------------------------
  ! Create field using internal memory
  !-----------------------------------------------------------------------------

#undef METHOD
#define METHOD "WRFHYDRO_FieldCreate"

  function WRFHYDRO_FieldCreate(stdName,grid,did,rc)
    ! RETURN VALUE
    type(ESMF_Field) :: WRFHYDRO_FieldCreate
    ! ARGUMENTS
    character(*), intent(in)                :: stdName
    type(ESMF_Grid), intent(in)             :: grid
    integer, intent(in)                     :: did
    integer,          intent(out)           :: rc
    ! LOCAL VARIABLES

#ifdef DEBUG
    call ESMF_LogWrite(MODNAME//": entered "//METHOD, ESMF_LOGMSG_INFO)
#endif

    rc = ESMF_SUCCESS

    SELECT CASE (trim(stdName))
      CASE ('liquid_fraction_of_soil_moisture_layer_1')
        WRFHYDRO_FieldCreate = ESMF_FieldCreate(name=stdName, grid=grid, &
          farray=rt_domain(did)%sh2ox(:,:,1), &
          indexflag=ESMF_INDEX_DELOCAL, rc=rc)
        if(ESMF_STDERRORCHECK(rc)) return ! bail out
      CASE ('liquid_fraction_of_soil_moisture_layer_2')
        WRFHYDRO_FieldCreate = ESMF_FieldCreate(name=stdName, grid=grid, &
          farray=rt_domain(did)%sh2ox(:,:,2), &
          indexflag=ESMF_INDEX_DELOCAL, rc=rc)
        if(ESMF_STDERRORCHECK(rc)) return ! bail out
      CASE ('liquid_fraction_of_soil_moisture_layer_3')
        WRFHYDRO_FieldCreate = ESMF_FieldCreate(name=stdName, grid=grid, &
          farray=rt_domain(did)%sh2ox(:,:,3), &
          indexflag=ESMF_INDEX_DELOCAL, rc=rc)
        if(ESMF_STDERRORCHECK(rc)) return ! bail out
      CASE ('liquid_fraction_of_soil_moisture_layer_4')
        WRFHYDRO_FieldCreate = ESMF_FieldCreate(name=stdName, grid=grid, &
          farray=rt_domain(did)%sh2ox(:,:,4), &
          indexflag=ESMF_INDEX_DELOCAL, rc=rc)
        if(ESMF_STDERRORCHECK(rc)) return ! bail out
      CASE ('soil_moisture_fraction_layer_1')
        WRFHYDRO_FieldCreate = ESMF_FieldCreate(name=stdName, grid=grid, &
          farray=rt_domain(did)%smc(:,:,1), &
          indexflag=ESMF_INDEX_DELOCAL, rc=rc)
        if(ESMF_STDERRORCHECK(rc)) return ! bail out
      CASE ('soil_moisture_fraction_layer_2')
        WRFHYDRO_FieldCreate = ESMF_FieldCreate(name=stdName, grid=grid, &
          farray=rt_domain(did)%smc(:,:,2), &
          indexflag=ESMF_INDEX_DELOCAL, rc=rc)
        if(ESMF_STDERRORCHECK(rc)) return ! bail out
      CASE ('soil_moisture_fraction_layer_3')
        WRFHYDRO_FieldCreate = ESMF_FieldCreate(name=stdName, grid=grid, &
          farray=rt_domain(did)%smc(:,:,3), &
          indexflag=ESMF_INDEX_DELOCAL, rc=rc)
        if(ESMF_STDERRORCHECK(rc)) return ! bail out
      CASE ('soil_moisture_fraction_layer_4')
        WRFHYDRO_FieldCreate = ESMF_FieldCreate(name=stdName, grid=grid, &
          farray=rt_domain(did)%smc(:,:,4), &
          indexflag=ESMF_INDEX_DELOCAL, rc=rc)
        if(ESMF_STDERRORCHECK(rc)) return ! bail out
      CASE ('soil_porosity')
        WRFHYDRO_FieldCreate = ESMF_FieldCreate(name=stdName, grid=grid, &
          farray=rt_domain(did)%smcmax1, &
          indexflag=ESMF_INDEX_DELOCAL, rc=rc)
        if(ESMF_STDERRORCHECK(rc)) return ! bail out
      CASE ('subsurface_runoff_amount')
        WRFHYDRO_FieldCreate = ESMF_FieldCreate(name=stdName, grid=grid, &
          farray=rt_domain(did)%soldrain, &
          indexflag=ESMF_INDEX_DELOCAL, rc=rc)
        if (ESMF_STDERRORCHECK(rc)) return
      CASE ('surface_runoff_amount')
        WRFHYDRO_FieldCreate = ESMF_FieldCreate(name=stdName, grid=grid, &
          farray=rt_domain(did)%infxsrt, &
          indexflag=ESMF_INDEX_DELOCAL, rc=rc)
        if (ESMF_STDERRORCHECK(rc)) return
      CASE ('soil_temperature_layer_1')
        WRFHYDRO_FieldCreate = ESMF_FieldCreate(name=stdName, grid=grid, &
          farray=rt_domain(did)%stc(:,:,1), &
          indexflag=ESMF_INDEX_DELOCAL, rc=rc)
        if(ESMF_STDERRORCHECK(rc)) return ! bail out
      CASE ('soil_temperature_layer_2')
        WRFHYDRO_FieldCreate = ESMF_FieldCreate(name=stdName, grid=grid, &
          farray=rt_domain(did)%stc(:,:,2), &
          indexflag=ESMF_INDEX_DELOCAL, rc=rc)
        if(ESMF_STDERRORCHECK(rc)) return ! bail out
      CASE ('soil_temperature_layer_3')
        WRFHYDRO_FieldCreate = ESMF_FieldCreate(name=stdName, grid=grid, &
          farray=rt_domain(did)%stc(:,:,3), &
          indexflag=ESMF_INDEX_DELOCAL, rc=rc)
        if(ESMF_STDERRORCHECK(rc)) return ! bail out
      CASE ('soil_temperature_layer_4')
        WRFHYDRO_FieldCreate = ESMF_FieldCreate(name=stdName, grid=grid, &
          farray=rt_domain(did)%stc(:,:,4), &
          indexflag=ESMF_INDEX_DELOCAL, rc=rc)
        if(ESMF_STDERRORCHECK(rc)) return ! bail out
      CASE ('vegetation_type')
        WRFHYDRO_FieldCreate = ESMF_FieldCreate(name=stdName, grid=grid, &
          farray=rt_domain(did)%vegtyp, &
          indexflag=ESMF_INDEX_DELOCAL, rc=rc)
        if(ESMF_STDERRORCHECK(rc)) return ! bail out
      CASE ('surface_water_depth')
        WRFHYDRO_FieldCreate = ESMF_FieldCreate(name=stdName, grid=grid, &
          farray=rt_domain(did)%sfcheadrt, &
          indexflag=ESMF_INDEX_DELOCAL, rc=rc)
        if(ESMF_STDERRORCHECK(rc)) return ! bail out
      CASE ('time_step_infiltration_excess')
        WRFHYDRO_FieldCreate = ESMF_FieldCreate(name=stdName, grid=grid, &
          farray=rt_domain(did)%infxsrt, &
          indexflag=ESMF_INDEX_DELOCAL, rc=rc)
        if (ESMF_STDERRORCHECK(rc)) return
      CASE ('soil_column_drainage')
        WRFHYDRO_FieldCreate = ESMF_FieldCreate(name=stdName, grid=grid, &
          farray=rt_domain(did)%soldrain, &
          indexflag=ESMF_INDEX_DELOCAL, rc=rc)
        if (ESMF_STDERRORCHECK(rc)) return
      CASE DEFAULT
        call ESMF_LogSetError(ESMF_RC_ARG_OUTOFRANGE, &
          msg=METHOD//": Field hookup missing: "//trim(stdName), &
          file=FILENAME,rcToReturn=rc)
        return  ! bail out
    END SELECT

#ifdef DEBUG
    call ESMF_LogWrite(MODNAME//": leaving "//METHOD, ESMF_LOGMSG_INFO)
#endif

  end function

#undef METHOD
#define METHOD "WRFHYDRO_GridCreate"

  function WRFHYDRO_GridCreate(did,rc)
    ! RETURN VALUE
    type(ESMF_Grid) :: WRFHYDRO_GridCreate
    ! ARGUMENTS
    integer, intent(in)                     :: did
    integer, intent(out)                    :: rc
    ! LOCAL VARIABLES
    integer                     :: stat
    real                        :: min_lat, max_lat, min_lon, max_lon
    real, allocatable           :: latitude(:,:), longitude(:,:)
    integer, allocatable        :: mask(:,:)
    integer                     :: lbnd(2),ubnd(2)
    real(ESMF_KIND_COORD), pointer :: coordXcenter(:,:)
    real(ESMF_KIND_COORD), pointer :: coordYcenter(:,:)
    real(ESMF_KIND_COORD), pointer :: coordXcorner(:,:)
    real(ESMF_KIND_COORD), pointer :: coordYcorner(:,:)
    integer(ESMF_KIND_I4), pointer :: gridmask(:,:)
    integer                     :: i,j, i1,j1
    character(len=16)           :: xlat_corner_name, xlon_corner_name
#ifdef DEBUG
    character(ESMF_MAXSTR)      :: logMsg
#endif


#ifdef DEBUG
    call ESMF_LogWrite(MODNAME//": entered "//METHOD, ESMF_LOGMSG_INFO)
#endif

    rc = ESMF_SUCCESS

    WRFHYDRO_GridCreate = ESMF_GridCreate(name='WRFHYDRO_Grid_'//trim(nlst_rt(did)%hgrid), &
      distgrid=WRFHYDRO_DistGrid, coordSys = ESMF_COORDSYS_SPH_DEG, &
      coordTypeKind=ESMF_TYPEKIND_COORD, &
!      gridEdgeLWidth=(/0,0/), gridEdgeUWidth=(/0,1/), &
      rc = rc)
    if(ESMF_STDERRORCHECK(rc)) return ! bail out

    ! CENTERS

    ! Get Local Latitude (lat)
    allocate(latitude(nx_local,ny_local),stat=stat)
    if (ESMF_LogFoundAllocError(statusToCheck=stat, &
      msg=METHOD//': Allocation of latitude memory failed.', &
      file=FILENAME, rcToReturn=rc)) return ! bail out
    call WRFHYDRO_ESMF_NetcdfReadIXJX("XLAT_M",nlst_rt(did)%geo_static_flnm, &
      (/x_start,y_start/),latitude,rc=rc)
    if(ESMF_STDERRORCHECK(rc)) return ! bail out

    ! Get Local Longitude (lon)
    allocate(longitude(nx_local,ny_local),stat=stat)
    if (ESMF_LogFoundAllocError(statusToCheck=stat, &
      msg=METHOD//': Allocation of longitude memory failed.', &
      file=FILENAME, rcToReturn=rc)) return ! bail out
    call WRFHYDRO_ESMF_NetcdfReadIXJX("XLONG_M",nlst_rt(did)%geo_static_flnm, &
      (/x_start,y_start/),longitude,rc=rc)
    if(ESMF_STDERRORCHECK(rc)) return ! bail out

#ifdef DEBUG
    ! Print Local Lat Lon Lower Left / Upper Right Centers
    write(logMsg,"(A,4(F0.3,A))") MODNAME//": Center Coordinates = (", &
      longitude(1,1),":",longitude(nx_local,ny_local),",", &
      latitude(1,1),":",latitude(nx_local,ny_local),")"
    call ESMF_LogWrite(trim(logMsg), ESMF_LOGMSG_INFO)
#endif

    ! Add Center Coordinates to Grid
    call ESMF_GridAddCoord(WRFHYDRO_GridCreate, staggerLoc=ESMF_STAGGERLOC_CENTER, rc=rc)
    if(ESMF_STDERRORCHECK(rc)) return ! bail out

    call ESMF_GridGetCoord(WRFHYDRO_GridCreate, coordDim=1, localDE=0, &
      staggerloc=ESMF_STAGGERLOC_CENTER, &
      computationalLBound=lbnd, computationalUBound=ubnd, &
      farrayPtr=coordXcenter, rc=rc)
    if (ESMF_STDERRORCHECK(rc)) return
    call ESMF_GridGetCoord(WRFHYDRO_GridCreate, coordDim=2, localDE=0, &
      staggerloc=ESMF_STAGGERLOC_CENTER, farrayPtr=coordYcenter, rc=rc)
    if (ESMF_STDERRORCHECK(rc)) return

    do j = lbnd(2),ubnd(2)
    do i = lbnd(1),ubnd(1)
      coordXcenter(i,j) = longitude(i,j)
      coordYcenter(i,j) = latitude(i,j)
    enddo
    enddo

    deallocate(latitude,longitude,stat=stat)
    if (ESMF_LogFoundDeallocError(statusToCheck=stat, &
      msg=METHOD//': Deallocation of longitude and latitude memory failed.', &
      file=FILENAME,rcToReturn=rc)) return ! bail out

    ! Get Local Mask
    allocate(mask(nx_local,ny_local),stat=stat)
    if (ESMF_LogFoundAllocError(statusToCheck=stat, &
      msg=METHOD//': Allocation of mask memory failed.', &
      file=FILENAME, rcToReturn=rc)) return ! bail out
    call WRFHYDRO_ESMF_NetcdfReadIXJX("LANDMASK",nlst_rt(did)%geo_static_flnm, &
      (/x_start,y_start/),mask,rc=rc)
    if(ESMF_STDERRORCHECK(rc)) return ! bail out

    ! Add Grid Mask
    call ESMF_GridAddItem(WRFHYDRO_GridCreate, itemFlag=ESMF_GRIDITEM_MASK, &
      staggerLoc=ESMF_STAGGERLOC_CENTER, rc=rc)
    if (ESMF_STDERRORCHECK(rc)) return  ! bail out
    ! Get pointer to Grid Mask array
    call ESMF_GridGetItem(WRFHYDRO_GridCreate, itemflag=ESMF_GRIDITEM_MASK, &
      localDE=0, &
      staggerloc=ESMF_STAGGERLOC_CENTER, &
      farrayPtr=gridmask, rc=rc)
    if (ESMF_STDERRORCHECK(rc)) return  ! bail out

    do j = lbnd(2),ubnd(2)
    do i = lbnd(1),ubnd(1)
      gridmask(i,j) = mask(i,j)
      gridmask(i,j) = mask(i,j)
    enddo
    enddo

    deallocate(mask,stat=stat)
    if (ESMF_LogFoundDeallocError(statusToCheck=stat, &
      msg=METHOD//': Deallocation of mask memory failed.', &
      file=FILENAME,rcToReturn=rc)) return ! bail out

    ! CORNERS
    ! The original WPS implementation used the _CORNER names
    ! but it was then changes to the _C names.  Support both
    ! options.
    if (WRFHYDRO_ESMF_NetcdfIsPresent("XLAT_CORNER",nlst_rt(did)%geo_static_flnm) .AND. &
         WRFHYDRO_ESMF_NetcdfIsPresent("XLONG_CORNER",nlst_rt(did)%geo_static_flnm)) then
       xlat_corner_name = "XLAT_CORNER"
       xlon_corner_name = "XLONG_CORNER"
    else if (WRFHYDRO_ESMF_NetcdfIsPresent("XLAT_C",nlst_rt(did)%geo_static_flnm) .AND. &
         WRFHYDRO_ESMF_NetcdfIsPresent("XLONG_C",nlst_rt(did)%geo_static_flnm)) then
       xlat_corner_name = "XLAT_C"
       xlon_corner_name = "XLONG_C"
    else
       xlat_corner_name = ""
       xlon_corner_name = ""
    endif

    if (trim(xlat_corner_name) /= "") then
      ! Get Local Latitude (lat)
      allocate(latitude(nx_local+1,ny_local+1),stat=stat)
      if (ESMF_LogFoundAllocError(statusToCheck=stat, &
        msg=METHOD//': Allocation of corner latitude memory failed.', &
        file=FILENAME, rcToReturn=rc)) return ! bail out
      call WRFHYDRO_ESMF_NetcdfReadIXJX(trim(xlat_corner_name),nlst_rt(did)%geo_static_flnm, &
        (/x_start,y_start/),latitude,rc=rc)
      if(ESMF_STDERRORCHECK(rc)) return ! bail out

      ! Get Local Longitude (lon)
      allocate(longitude(nx_local+1,ny_local+1),stat=stat)
      if (ESMF_LogFoundAllocError(statusToCheck=stat, &
       msg=METHOD//': Allocation of corner longitude memory failed.', &
       file=FILENAME, rcToReturn=rc)) return ! bail out
      call WRFHYDRO_ESMF_NetcdfReadIXJX(trim(xlon_corner_name),nlst_rt(did)%geo_static_flnm, &
        (/x_start,y_start/),longitude,rc=rc)
      if(ESMF_STDERRORCHECK(rc)) return ! bail out

#ifdef DEBUG
      ! Print Local Lat Lon Lower Left / Upper Right Corners
      write(logMsg,"(A,4(F0.3,A))") MODNAME//": Corner Coordinates = (", &
        longitude(1,1),":",longitude(nx_local+1,ny_local+1),",", &
        latitude(1,1),":",latitude(nx_local+1,ny_local+1),")"
      call ESMF_LogWrite(trim(logMsg), ESMF_LOGMSG_INFO)
#endif

      ! Add Corner Coordinates to Grid
      call ESMF_GridAddCoord(WRFHYDRO_GridCreate, staggerLoc=ESMF_STAGGERLOC_CORNER, rc=rc)
      if(ESMF_STDERRORCHECK(rc)) return ! bail out

      call ESMF_GridGetCoord(WRFHYDRO_GridCreate, coordDim=1, localDE=0, &
        staggerloc=ESMF_STAGGERLOC_CORNER, &
        computationalLBound=lbnd, computationalUBound=ubnd, &
        farrayPtr=coordXcorner, rc=rc)
      if (ESMF_STDERRORCHECK(rc)) return
      call ESMF_GridGetCoord(WRFHYDRO_GridCreate, coordDim=2, localDE=0, &
        staggerloc=ESMF_STAGGERLOC_CORNER, farrayPtr=coordYcorner, rc=rc)
      if (ESMF_STDERRORCHECK(rc)) return

      do j = lbnd(2),ubnd(2)
      do i = lbnd(1),ubnd(1)
        coordXcorner(i,j) = longitude(i,j)
        coordYcorner(i,j) = latitude(i,j)
      enddo
      enddo

      deallocate(latitude,longitude,stat=stat)
      if (ESMF_LogFoundDeallocError(statusToCheck=stat, &
        msg=METHOD//': Deallocation of corner longitude and latitude memory failed.', &
        file=FILENAME,rcToReturn=rc)) return ! bail out

      call add_area(WRFHYDRO_GridCreate, rc=rc)
      if (ESMF_STDERRORCHECK(rc)) return

    else
#ifdef DEBUG
      ! Warning no corners in domain file
      call ESMF_LogWrite(MODNAME//": No Corner Coordinates.", ESMF_LOGMSG_WARNING)
#endif
    endif

#ifdef DEBUG
    call ESMF_LogWrite(MODNAME//": leaving "//METHOD, ESMF_LOGMSG_INFO)
#endif

  end function

  !-----------------------------------------------------------------------------

#undef METHOD
#define METHOD "add_area"

  subroutine add_area(grid,rc)
    type(ESMF_Grid), intent(inout)          :: grid
    integer, intent(out)                    :: rc

    ! Local Variables
    integer(ESMF_KIND_I4), PARAMETER :: R = 6376000 ! metres
    type(ESMF_Field)                 :: fieldArea
    type(ESMF_Array)                 :: areaArray
    integer                          :: i,j
    integer                          :: lbnd(2),ubnd(2)
    real(ESMF_KIND_R8), pointer      :: radianarea(:,:)
    real(ESMF_KIND_R8), pointer      :: gridarea(:,:)

#ifdef DEBUG
    call ESMF_LogWrite(MODNAME//": entered "//METHOD, ESMF_LOGMSG_INFO)
#endif

    rc = ESMF_SUCCESS

    fieldArea = ESMF_FieldCreate(grid=grid, typekind=ESMF_TYPEKIND_R8, rc=rc)
    if (ESMF_STDERRORCHECK(rc)) return

    call ESMF_FieldRegridGetArea(fieldArea, rc=rc)
    if (ESMF_STDERRORCHECK(rc)) return

    call ESMF_FieldGet(fieldArea, localDE=0, &
      farrayPtr=radianarea, rc=rc)
    if (ESMF_STDERRORCHECK(rc)) return

    call ESMF_GridAddItem(grid, itemFlag=ESMF_GRIDITEM_AREA, itemTypeKind=ESMF_TYPEKIND_R8, &
      staggerLoc=ESMF_STAGGERLOC_CENTER, rc=rc)
    if (ESMF_STDERRORCHECK(rc)) return

    call ESMF_GridGetItem(grid, itemflag=ESMF_GRIDITEM_AREA, localDE=0, &
      staggerloc=ESMF_STAGGERLOC_CENTER, &
      computationalLBound=lbnd, computationalUBound=ubnd, &
      farrayPtr=gridarea, rc=rc)
    if (ESMF_STDERRORCHECK(rc)) return

     do j = lbnd(2),ubnd(2)
     do i = lbnd(1),ubnd(1)
       gridarea(i,j) = radianarea(i,j) * R * R
     enddo
     enddo

#ifdef DEBUG
    call ESMF_LogWrite(MODNAME//": leaving "//METHOD, ESMF_LOGMSG_INFO)
#endif

  end subroutine

  !-----------------------------------------------------------------------------

#undef METHOD
#define METHOD "set_local_indices"

  subroutine set_local_indices(rc)
    ! ARGUMENTS
    integer, intent(out)                    :: rc

    ! LOCAL VARIABLES
    integer                     :: stat
    type(ESMF_VM)               :: currentVM
    integer                     :: localPet
    integer                     :: petCount
    type(ESMF_DELayout)         :: delayout
    integer, allocatable        :: dimExtent(:,:)
    integer, allocatable        :: iIndexList(:), jIndexList(:)
#ifdef DEBUG
    character(ESMF_MAXSTR)      :: logMsg
#endif

#ifdef DEBUG
    call ESMF_LogWrite(MODNAME//": entered "//METHOD, ESMF_LOGMSG_INFO)
#endif

    rc = ESMF_SUCCESS

    !! Get VM Info to see if this will give me the PET info I need
    call ESMF_VMGetCurrent(currentVM, rc=rc)
    if(ESMF_STDERRORCHECK(rc)) return ! bail out
    call ESMF_VMGet(currentVM, localPet=localPet, petCount=petCount, rc=rc)
    if(ESMF_STDERRORCHECK(rc)) return ! bail out

    !! Get the grid distribution for this pet
    allocate(dimExtent(2, 0:(petCount - 1)),stat=stat) ! (dimCount, deCount)
    if (ESMF_LogFoundAllocError(statusToCheck=stat, &
      msg=METHOD//': Allocation of indexCountPDe memory failed.', &
      file=FILENAME, rcToReturn=rc)) return ! bail out
    call ESMF_DistGridGet(WRFHYDRO_DistGrid, delayout=delayout, &
      indexCountPDe=dimExtent, rc=rc)
    if(ESMF_STDERRORCHECK(rc)) return ! bail out

    allocate(iIndexList(dimExtent(1, localPet)),stat=stat)
    if (ESMF_LogFoundAllocError(statusToCheck=stat, &
      msg=METHOD//': Allocation of iIndexList memory failed.', &
      file=FILENAME, rcToReturn=rc)) return ! bail out
    call ESMF_DistGridGet(WRFHYDRO_DistGrid, localDe=0, dim=1, &
      indexList=iIndexList, rc=rc)
    if(ESMF_STDERRORCHECK(rc)) return ! bail out

    allocate(jIndexList(dimExtent(2, localPet)),stat=stat)
    if (ESMF_LogFoundAllocError(statusToCheck=stat, &
      msg=METHOD//': Allocation of jIndexList memory failed.', &
      file=FILENAME, rcToReturn=rc)) return ! bail out
    call ESMF_DistGridGet(WRFHYDRO_DistGrid, localDe=0, dim=2, &
      indexList=jIndexList, rc=rc)
    if(ESMF_STDERRORCHECK(rc)) return ! bail out

    x_start = minVal(iIndexList)
    x_end   = maxVal(iIndexList)
    y_start = minVal(jIndexList)
    y_end   = maxVal(jIndexList)

    nx_local = x_end - x_start + 1
    ny_local = y_end - y_start + 1

#ifdef DEBUG
    write (logMsg,"(A,6(I0,A))") MODNAME//": Local Indices = (", &
      x_start,":",x_end,",",y_start,":",y_end,") Local Size = (", &
      nx_local,"x",ny_local,")"
    call ESMF_LogWrite(trim(logMsg), ESMF_LOGMSG_INFO)
#endif

    deallocate(iIndexList,jIndexList,stat=stat)
    if (ESMF_LogFoundDeallocError(statusToCheck=stat, &
      msg=METHOD//': Deallocation of IndexList memory failed.', &
      file=FILENAME,rcToReturn=rc)) return ! bail out

    deallocate(dimExtent,stat=stat)
    if (ESMF_LogFoundDeallocError(statusToCheck=stat, &
      msg=METHOD//': Deallocation of indexCountPDeo memory failed.', &
      file=FILENAME,rcToReturn=rc)) return ! bail out

#ifdef DEBUG
    call ESMF_LogWrite(MODNAME//": leaving "//METHOD, ESMF_LOGMSG_INFO)
#endif

  end subroutine

  !-----------------------------------------------------------------------------

#undef METHOD
#define METHOD "WRFHYDRO_get_timestep"

  function WRFHYDRO_get_timestep(did,rc)
    ! RETURN VALUE
    real :: WRFHYDRO_get_timestep
    ! ARGUMENTS
    integer, intent(in)         :: did
    integer, intent(out)        :: rc

#ifdef DEBUG
    call ESMF_LogWrite(MODNAME//": entered "//METHOD, ESMF_LOGMSG_INFO)
#endif

    rc = ESMF_SUCCESS

    WRFHYDRO_get_timestep = nlst_rt(did)%dt

#ifdef DEBUG
    call ESMF_LogWrite(MODNAME//": leaving "//METHOD, ESMF_LOGMSG_INFO)
#endif

  end function

  !-----------------------------------------------------------------------------

#undef METHOD
#define METHOD "WRFHYDRO_set_timestep"

  subroutine WRFHYDRO_set_timestep(did,dt,rc)
    ! ARGUMENTS
    integer, intent(in)           :: did
    real                          :: dt
    integer, intent(out)          :: rc

#ifdef DEBUG
    call ESMF_LogWrite(MODNAME//": entered "//METHOD, ESMF_LOGMSG_INFO)
#endif

    rc = ESMF_SUCCESS

    nlst_rt(did)%dt = dt

#ifdef DEBUG
    call ESMF_LogWrite(MODNAME//": leaving "//METHOD, ESMF_LOGMSG_INFO)
#endif

  end subroutine

  !-----------------------------------------------------------------------------

#undef METHOD
#define METHOD "WRFHYDRO_get_hgrid"

  subroutine WRFHYDRO_get_hgrid(did,hgrid,rc)
    ! ARGUMENTS
    integer, intent(in)         :: did
    character, intent(out)      :: hgrid
    integer, intent(out)        :: rc

#ifdef DEBUG
    call ESMF_LogWrite(MODNAME//": entered "//METHOD, ESMF_LOGMSG_INFO)
#endif

    rc = ESMF_SUCCESS

    hgrid = nlst_rt(did)%hgrid

#ifdef DEBUG
    call ESMF_LogWrite(MODNAME//": leaving "//METHOD, ESMF_LOGMSG_INFO)
#endif

  end subroutine

  !-----------------------------------------------------------------------------

#undef METHOD
#define METHOD "WRFHYDRO_RunModeGet"

  function WRFHYDRO_RunModeGet(importState,rc)
    ! RETURN
    integer                          :: WRFHYDRO_RunModeGet
    ! ARGUMENTS
    type(ESMF_State), intent(in)     :: importState
    integer, intent(out), optional   :: rc
    ! LOCAL VARIABLES
    integer                    :: fieldIndex
    integer                    :: forcingCount
    integer                    :: connectedCount
    type(ESMF_StateItem_Flag)  :: itemType

#ifdef DEBUG
    call ESMF_LogWrite(MODNAME//": entered "//METHOD, ESMF_LOGMSG_INFO)
#endif

    if(present(rc)) rc = ESMF_SUCCESS

    WRFHYDRO_RunModeGet = WRFHYDRO_Unknown
    forcingCount = 0
    connectedCount = 0

    do fieldIndex=1, size(WRFHYDRO_FieldList)
      if(WRFHYDRO_FieldList(fieldIndex)%adImport) then
        forcingCount = forcingCount + 1
        ! Check itemType to see if field exists in state
        call ESMF_StateGet(importState, &
          itemName=trim(WRFHYDRO_FieldList(fieldIndex)%stdname), &
          itemType=itemType, rc=rc)
        if (ESMF_STDERRORCHECK(rc)) return

        if (itemType == ESMF_STATEITEM_FIELD) then
          if (NUOPC_IsConnected(importState, &
          fieldName=trim(WRFHYDRO_FieldList(fieldIndex)%stdname))) then
            connectedCount = connectedCount + 1
          endif
        endif
      endif
    enddo

    if( connectedCount == 0 ) then
      WRFHYDRO_RunModeGet = WRFHYDRO_Offline
    elseif ( connectedCount == forcingCount ) then
      WRFHYDRO_RunModeGet = WRFHYDRO_Coupled
    elseif ( connectedCount < forcingCount ) then
      WRFHYDRO_RunModeGet = WRFHYDRO_Hybrid
    endif

  end function

  !-----------------------------------------------------------------------------
  ! Conversion Utilities
  !-----------------------------------------------------------------------------

#undef METHOD
#define METHOD "WRFHYDRO_ClockToString"

  subroutine WRFHYDRO_ClockToString(clock, timestr, rc)
    ! ARGUMENTS
    type(ESMF_Clock)                :: clock
    integer, intent(out),optional   :: rc
    character (len=*), intent(out)  :: timestr

    ! LOCAL VARIABLES
    type(ESMF_Time)            :: currTime

#ifdef DEBUG
    call ESMF_LogWrite(MODNAME//": entered "//METHOD, ESMF_LOGMSG_INFO)
#endif

    if(present(rc)) rc = ESMF_SUCCESS  ! Initialize

    ! Get the current time from the clock
    call ESMF_ClockGet(clock=clock,currTime=currTime,rc=rc)
    if(ESMF_STDERRORCHECK(rc)) return ! bail out

    call WRFHYDRO_TimeToString(currTime,timestr,rc=rc)
    if(ESMF_STDERRORCHECK(rc)) return ! bail out

#ifdef DEBUG
    call ESMF_LogWrite(MODNAME//": leaving "//METHOD, ESMF_LOGMSG_INFO)
#endif

  end subroutine

!-----------------------------------------------------------------------------

#undef METHOD
#define METHOD "WRFHYDRO_TimeToString"

  subroutine WRFHYDRO_TimeToString(time, timestr, rc)
    ! ARGUMENTS
    type(ESMF_Time)                 :: time
    integer, intent(out),optional   :: rc
    character (len=*), intent(out)  :: timestr

    ! LOCAL VARIABLES
    character (len=256)        :: tmpstr = ''
    integer                    :: strlen

#ifdef DEBUG
    call ESMF_LogWrite(MODNAME//": entered "//METHOD, ESMF_LOGMSG_INFO)
#endif

    if(present(rc)) rc = ESMF_SUCCESS  ! Initialize

    timestr = '' ! clear string

    if (len(timestr) < 19) then
      call ESMF_LogSetError(ESMF_RC_ARG_OUTOFRANGE, &
        msg=METHOD//": Time string is too short!", &
        file=FILENAME,rcToReturn=rc)
      return  ! bail out
    endif

    CALL ESMF_TimeGet(time,timeString=tmpstr,rc=rc )
    if(ESMF_STDERRORCHECK(rc)) return ! bail out

    strlen = min(len(timestr),len_trim(tmpstr))
    timestr(1:strlen) = tmpstr(1:strlen)
    timestr(11:11) = '_'

#ifdef DEBUG
    call ESMF_LogWrite(MODNAME//": leaving "//METHOD, ESMF_LOGMSG_INFO)
#endif

  end subroutine

  !-----------------------------------------------------------------------------

#undef METHOD
#define METHOD "WRFHYDRO_TimeIntervalGetReal"

  function WRFHYDRO_TimeIntervalGetReal(timeInterval,rc)
    ! RETURN VALUE:
    real                                :: WRFHYDRO_TimeIntervalGetReal
    ! ARGUMENTS
    type(ESMF_TimeInterval),intent(in)  :: timeInterval
    integer, intent(out), optional      :: rc

    ! LOCAL VARIABLES
    real(ESMF_KIND_R8)                  :: s_r8

#ifdef DEBUG
    call ESMF_LogWrite(MODNAME//": entered "//METHOD, ESMF_LOGMSG_INFO)
#endif

    if(present(rc)) rc = ESMF_SUCCESS

    WRFHYDRO_TimeIntervalGetReal = -9999

    call ESMF_TimeIntervalGet(timeInterval,s_r8=s_r8,rc=rc)
    if(ESMF_STDERRORCHECK(rc)) return ! bail out
    WRFHYDRO_TimeIntervalGetReal = s_r8

#ifdef DEBUG
    call ESMF_LogWrite(MODNAME//": leaving "//METHOD, ESMF_LOGMSG_INFO)
#endif

  end function

  !-----------------------------------------------------------------------------
  ! Dictionary Utility
  !-----------------------------------------------------------------------------

#undef METHOD
#define METHOD "WRFHYDRO_FieldDictionaryAdd"

  subroutine WRFHYDRO_FieldDictionaryAdd(rc)
    ! ARGUMENTS
    integer,intent(out)                     :: rc
    ! LOCAL VARIABLES
    integer                    :: fIndex
    logical                    :: isPresent

#ifdef DEBUG
    call ESMF_LogWrite(MODNAME//": entered "//METHOD, ESMF_LOGMSG_INFO)
#endif

    rc = ESMF_SUCCESS

    do fIndex=1,size(WRFHYDRO_FieldList)
      isPresent = NUOPC_FieldDictionaryHasEntry( &
        trim(WRFHYDRO_FieldList(fIndex)%stdname), &
        rc=rc)
      if (ESMF_STDERRORCHECK(rc)) return
      if (.not.isPresent) then
        call NUOPC_FieldDictionaryAddEntry( &
          trim(WRFHYDRO_FieldList(fIndex)%stdname), &
          trim(WRFHYDRO_FieldList(fIndex)%units), &
          rc=rc)
        if (ESMF_STDERRORCHECK(rc)) return
      endif
    enddo

#ifdef DEBUG
    call ESMF_LogWrite(MODNAME//": leaving "//METHOD, ESMF_LOGMSG_INFO)
#endif

  end subroutine

  !-----------------------------------------------------------------------------
  ! Log Utilities
  !-----------------------------------------------------------------------------

#undef METHOD
#define METHOD "WRFHYDRO_nlstLog"

  subroutine WRFHYDRO_nlstLog(did,label,rc)
    ! ARGUMENTS
    integer,intent(in)                   :: did
    character(len=*),intent(in),optional :: label
    integer,intent(out)                  :: rc

    ! LOCAL VARIABLES
    integer                     :: layerIndex
    character(len=64)           :: l_label

#ifdef DEBUG
    call ESMF_LogWrite(MODNAME//": entered "//METHOD, ESMF_LOGMSG_INFO)
#endif

    rc = ESMF_SUCCESS

    if (present(label)) then
      l_label = label
    else
      l_label = METHOD
    endif

    write (logMsg,"(A,I0)") ": Domain ID      = ",did
    call ESMF_LogWrite(trim(l_label)//logMsg,ESMF_LOGMSG_INFO)

    write (logMsg,"(A,5(I0,A))") ": Start Date     = ", &
      nlst_rt(did)%START_YEAR,"-",nlst_rt(did)%START_MONTH,"-", &
      nlst_rt(did)%START_DAY,"_",nlst_rt(did)%START_HOUR,":", &
      nlst_rt(did)%START_MIN
    call ESMF_LogWrite(trim(l_label)//logMsg,ESMF_LOGMSG_INFO)
    write (logMsg,"(A,F0.3)") ": Timestep       = ",nlst_rt(did)%dt
    call ESMF_LogWrite(trim(l_label)//logMsg,ESMF_LOGMSG_INFO)
    write (logMsg,"(A,F0.3)") ": Output Step    = ",nlst_rt(did)%out_dt
    call ESMF_LogWrite(trim(l_label)//logMsg,ESMF_LOGMSG_INFO)
    write (logMsg,"(A,F0.3)") ": Restart Step   = ",nlst_rt(did)%rst_dt
    call ESMF_LogWrite(trim(l_label)//logMsg,ESMF_LOGMSG_INFO)
    write (logMsg,"(A,F0.3)") ": Ter Routing Step   = ",nlst_rt(did)%dtrt_ter
    call ESMF_LogWrite(trim(l_label)//logMsg,ESMF_LOGMSG_INFO)
    write (logMsg,"(A,F0.3)") ": Ch Routing Step   = ",nlst_rt(did)%dtrt_ch
    call ESMF_LogWrite(trim(l_label)//logMsg,ESMF_LOGMSG_INFO)

    write (logMsg,"(A,I0)") ": Grid ID        = ",nlst_rt(did)%igrid
    call ESMF_LogWrite(trim(l_label)//logMsg,ESMF_LOGMSG_INFO)
    write (logMsg,"(A,A)") ": Hydro Grid     = ",nlst_rt(did)%hgrid
    call ESMF_LogWrite(trim(l_label)//logMsg,ESMF_LOGMSG_INFO)
    write (logMsg,"(A,A)") ": Geo Grid File  = ",nlst_rt(did)%geo_static_flnm
    call ESMF_LogWrite(trim(l_label)//logMsg,ESMF_LOGMSG_INFO)
    write (logMsg,"(A,A)") ": Fine Grid File = ",nlst_rt(did)%geo_finegrid_flnm
    call ESMF_LogWrite(trim(l_label)//logMsg,ESMF_LOGMSG_INFO)
    write (logMsg,"(A,A)") ": GW Basin File  = ",nlst_rt(did)%gwbasmskfil
    call ESMF_LogWrite(trim(l_label)//logMsg,ESMF_LOGMSG_INFO)

    write (logMsg,"(A,I0)") ": Restart Type   = ",nlst_rt(did)%rst_typ
    call ESMF_LogWrite(trim(l_label)//logMsg,ESMF_LOGMSG_INFO)
    write (logMsg,"(A,A)") ": Restart file   = ",nlst_rt(did)%restart_file
    call ESMF_LogWrite(trim(l_label)//logMsg,ESMF_LOGMSG_INFO)
    write (logMsg,"(A,I0)") ": Coupling       = ",nlst_rt(did)%sys_cpl
    call ESMF_LogWrite(trim(l_label)//logMsg,ESMF_LOGMSG_INFO)

    write (logMsg,"(A,I0)") ": Channel RT     = ",nlst_rt(did)%CHANRTSWCRT
    call ESMF_LogWrite(trim(l_label)//logMsg,ESMF_LOGMSG_INFO)
    write (logMsg,"(A,I0)") ": Subsurface RT  = ",nlst_rt(did)%SUBRTSWCRT
    call ESMF_LogWrite(trim(l_label)//logMsg,ESMF_LOGMSG_INFO)
    write (logMsg,"(A,I0)") ": Overland RT    = ",nlst_rt(did)%OVRTSWCRT
    call ESMF_LogWrite(trim(l_label)//logMsg,ESMF_LOGMSG_INFO)
    write (logMsg,"(A,I0)") ": GW Baseflow RT = ",nlst_rt(did)%GWBASESWCRT
    call ESMF_LogWrite(trim(l_label)//logMsg,ESMF_LOGMSG_INFO)
    write (logMsg,"(A,I0)") ": Routing Option = ",nlst_rt(did)%RT_OPTION
    call ESMF_LogWrite(trim(l_label)//logMsg,ESMF_LOGMSG_INFO)
    write (logMsg,"(A,I0)") ": Channel Option = ",nlst_rt(did)%channel_option
    call ESMF_LogWrite(trim(l_label)//logMsg,ESMF_LOGMSG_INFO)
    write (logMsg,"(A,I0)") ": Aggr Factor    = ",nlst_rt(did)%AGGFACTRT
    call ESMF_LogWrite(trim(l_label)//logMsg,ESMF_LOGMSG_INFO)
    write (logMsg,"(A,I0)") ": GW Restart     = ",nlst_rt(did)%GW_RESTART
    call ESMF_LogWrite(trim(l_label)//logMsg,ESMF_LOGMSG_INFO)
    write (logMsg,"(A,I0)") ": SWC Restart    = ",nlst_rt(did)%RSTRT_SWC
    call ESMF_LogWrite(trim(l_label)//logMsg,ESMF_LOGMSG_INFO)

    write (logMsg,"(A,I0)") ": Soil Layers    = ",nlst_rt(did)%nsoil
    call ESMF_LogWrite(trim(l_label)//logMsg,ESMF_LOGMSG_INFO)
    do layerIndex=1,nlst_rt(did)%nsoil
      write (logMsg,"(A,I0,A,F0.3)") ": Soil layer depth (", &
        layerIndex,") = ",nlst_rt(did)%ZSOIL8(layerIndex)
      call ESMF_LogWrite(trim(l_label)//logMsg,ESMF_LOGMSG_INFO)
    enddo

#ifdef DEBUG
    call ESMF_LogWrite(MODNAME//": leaving "//METHOD, ESMF_LOGMSG_INFO)
#endif

  end subroutine

  !-----------------------------------------------------------------------------

#undef METHOD
#define METHOD "WRFHYDRO_domainLog"

  subroutine WRFHYDRO_domainLog(did,label,rc)
    ! ARGUMENTS
    integer,intent(in)                   :: did
    character(len=*),intent(in),optional :: label
    integer,intent(out)                  :: rc

    ! LOCAL VARIABLES
    character(len=64)           :: l_label

#ifdef DEBUG
    call ESMF_LogWrite(MODNAME//": entered "//METHOD, ESMF_LOGMSG_INFO)
#endif

    rc = ESMF_SUCCESS

    if (present(label)) then
      l_label = label
    else
      l_label = METHOD
    endif

    write (logMsg,"(A,I0)") ": Domain ID      = ",did
    call ESMF_LogWrite(trim(l_label)//logMsg,ESMF_LOGMSG_INFO)

    write (logMsg,"(A,L1)") ": Domain Init    = ",rt_domain(did)%initialized
    call ESMF_LogWrite(trim(l_label)//logMsg,ESMF_LOGMSG_INFO)
    write (logMsg,"(A,I0)") ": Domain IX      = ",rt_domain(did)%IX
    call ESMF_LogWrite(trim(l_label)//logMsg,ESMF_LOGMSG_INFO)
    write (logMsg,"(A,I0)") ": Domain JX      = ",rt_domain(did)%JX
    call ESMF_LogWrite(trim(l_label)//logMsg,ESMF_LOGMSG_INFO)
    write (logMsg,"(A,I0)") ": Domain IXRT    = ",rt_domain(did)%IXRT
    call ESMF_LogWrite(trim(l_label)//logMsg,ESMF_LOGMSG_INFO)
    write (logMsg,"(A,I0)") ": Domain JXRT    = ",rt_domain(did)%JXRT
    call ESMF_LogWrite(trim(l_label)//logMsg,ESMF_LOGMSG_INFO)
    write (logMsg,"(A,I0)") ": Domain Forc    = ",rt_domain(did)%FORC_TYP
    call ESMF_LogWrite(trim(l_label)//logMsg,ESMF_LOGMSG_INFO)
    write (logMsg,"(A,I0)") ": Max Links      = ",rt_domain(did)%NLINKS
    call ESMF_LogWrite(trim(l_label)//logMsg,ESMF_LOGMSG_INFO)
    write (logMsg,"(A,I0)") ": Num Lakes      = ",rt_domain(did)%NLAKES
    call ESMF_LogWrite(trim(l_label)//logMsg,ESMF_LOGMSG_INFO)
    write (logMsg,"(A,I0)") ": Num Basins     = ",rt_domain(did)%numbasns
    call ESMF_LogWrite(trim(l_label)//logMsg,ESMF_LOGMSG_INFO)

#ifdef DEBUG
    call ESMF_LogWrite(MODNAME//": leaving "//METHOD, ESMF_LOGMSG_INFO)
#endif

  end subroutine

  !-----------------------------------------------------------------------------

end module