source: LMDZ5/trunk/libf/phylmd/surf_land_orchidee_noopenmp_mod.F90 @ 1907

!
! $Header$
!
MODULE surf_land_orchidee_noopenmp_mod
!
! This module is compiled only if CPP key ORCHIDEE_NOOPENMP is defined.
! This module should be used with ORCHIDEE sequentiel or parallele MPI version (not MPI-OpenMP mixte)

#ifdef ORCHIDEE_NOOPENMP
!
! This module controles the interface towards the model ORCHIDEE
!
! Subroutines in this module : surf_land_orchidee
!                              Init_orchidee_index
!                              Get_orchidee_communicator
!                              Init_neighbours
  USE dimphy
#ifdef CPP_VEGET
  USE intersurf     ! module d'ORCHIDEE
#endif
  USE cpl_mod,      ONLY : cpl_send_land_fields
  USE surface_data, ONLY : type_ocean
  USE comgeomphy,   ONLY : cuphy, cvphy
  USE mod_grid_phy_lmdz
  USE mod_phys_lmdz_para

  IMPLICIT NONE

  PRIVATE
  PUBLIC  :: surf_land_orchidee

CONTAINS
!
!****************************************************************************************
!  
  SUBROUTINE surf_land_orchidee(itime, dtime, date0, knon, &
       knindex, rlon, rlat, pctsrf, &
       debut, lafin, &
       plev,  u1_lay, v1_lay, temp_air, spechum, epot_air, ccanopy, & 
       tq_cdrag, petAcoef, peqAcoef, petBcoef, peqBcoef, &
       precip_rain, precip_snow, lwdown, swnet, swdown, &
       ps, q2m, t2m, &
       evap, fluxsens, fluxlat, &              
       tsol_rad, tsurf_new, alb1_new, alb2_new, &
       emis_new, z0_new, qsurf)
!    
! Cette routine sert d'interface entre le modele atmospherique et le 
! modele de sol continental. Appel a sechiba
!
! L. Fairhead 02/2000
!
! input:
!   itime        numero du pas de temps
!   dtime        pas de temps de la physique (en s)
!   nisurf       index de la surface a traiter (1 = sol continental)
!   knon         nombre de points de la surface a traiter
!   knindex      index des points de la surface a traiter
!   rlon         longitudes de la grille entiere
!   rlat         latitudes de la grille entiere
!   pctsrf       tableau des fractions de surface de chaque maille
!   debut        logical: 1er appel a la physique (lire les restart)
!   lafin        logical: dernier appel a la physique (ecrire les restart)
!                     (si false calcul simplifie des fluxs sur les continents)
!   plev         hauteur de la premiere couche (Pa)      
!   u1_lay       vitesse u 1ere couche
!   v1_lay       vitesse v 1ere couche
!   temp_air     temperature de l'air 1ere couche
!   spechum      humidite specifique 1ere couche
!   epot_air     temp pot de l'air
!   ccanopy      concentration CO2 canopee, correspond au co2_send de 
!                carbon_cycle_mod ou valeur constant co2_ppm
!   tq_cdrag     cdrag
!   petAcoef     coeff. A de la resolution de la CL pour t
!   peqAcoef     coeff. A de la resolution de la CL pour q
!   petBcoef     coeff. B de la resolution de la CL pour t
!   peqBcoef     coeff. B de la resolution de la CL pour q
!   precip_rain  precipitation liquide
!   precip_snow  precipitation solide
!   lwdown       flux IR descendant a la surface
!   swnet        flux solaire net
!   swdown       flux solaire entrant a la surface
!   ps           pression au sol
!   radsol       rayonnement net aus sol (LW + SW)
!   
!
! output:
!   evap         evaporation totale
!   fluxsens     flux de chaleur sensible
!   fluxlat      flux de chaleur latente
!   tsol_rad     
!   tsurf_new    temperature au sol
!   alb1_new     albedo in visible SW interval
!   alb2_new     albedo in near IR interval
!   emis_new     emissivite
!   z0_new       surface roughness
!   qsurf        air moisture at surface
!
    USE carbon_cycle_mod, ONLY : carbon_cycle_cpl, fco2_land_inst, fco2_lu_inst
    USE indice_sol_mod
    IMPLICIT NONE

    INCLUDE "temps.h"
    INCLUDE "YOMCST.h"
    INCLUDE "iniprint.h"
    INCLUDE "dimensions.h"
  
!
! Parametres d'entree
!****************************************************************************************
    INTEGER, INTENT(IN)                       :: itime
    REAL, INTENT(IN)                          :: dtime
    REAL, INTENT(IN)                          :: date0
    INTEGER, INTENT(IN)                       :: knon
    INTEGER, DIMENSION(klon), INTENT(IN)      :: knindex
    LOGICAL, INTENT(IN)                       :: debut, lafin
    REAL, DIMENSION(klon,nbsrf), INTENT(IN)   :: pctsrf
    REAL, DIMENSION(klon), INTENT(IN)         :: rlon, rlat
    REAL, DIMENSION(klon), INTENT(IN)         :: plev
    REAL, DIMENSION(klon), INTENT(IN)         :: u1_lay, v1_lay
    REAL, DIMENSION(klon), INTENT(IN)         :: temp_air, spechum
    REAL, DIMENSION(klon), INTENT(IN)         :: epot_air, ccanopy
    REAL, DIMENSION(klon), INTENT(IN)         :: tq_cdrag
    REAL, DIMENSION(klon), INTENT(IN)         :: petAcoef, peqAcoef
    REAL, DIMENSION(klon), INTENT(IN)         :: petBcoef, peqBcoef
    REAL, DIMENSION(klon), INTENT(IN)         :: precip_rain, precip_snow
    REAL, DIMENSION(klon), INTENT(IN)         :: lwdown, swnet, swdown, ps
    REAL, DIMENSION(klon), INTENT(IN)         :: q2m, t2m

! Parametres de sortie
!****************************************************************************************
    REAL, DIMENSION(klon), INTENT(OUT)        :: evap, fluxsens, fluxlat, qsurf
    REAL, DIMENSION(klon), INTENT(OUT)        :: tsol_rad, tsurf_new
    REAL, DIMENSION(klon), INTENT(OUT)        :: alb1_new, alb2_new
    REAL, DIMENSION(klon), INTENT(OUT)        :: emis_new, z0_new

! Local
!****************************************************************************************
    INTEGER                                   :: ij, jj, igrid, ireal, index
    INTEGER                                   :: error
    INTEGER, SAVE                             :: nb_fields_cpl ! number of fields for the climate-carbon coupling (between ATM and ORCHIDEE). 
    REAL, SAVE, ALLOCATABLE, DIMENSION(:,:)   :: fields_cpl    ! Fluxes for the climate-carbon coupling
    REAL, DIMENSION(klon)                     :: swdown_vrai
    CHARACTER (len = 20)                      :: modname = 'surf_land_orchidee'
    CHARACTER (len = 80)                      :: abort_message
    LOGICAL,SAVE                              :: check = .FALSE.
    !$OMP THREADPRIVATE(check)

! type de couplage dans sechiba
!  character (len=10)   :: coupling = 'implicit' 
! drapeaux controlant les appels dans SECHIBA
!  type(control_type), save   :: control_in
! Preserved albedo
    REAL, ALLOCATABLE, DIMENSION(:), SAVE     :: albedo_keep, zlev
    !$OMP THREADPRIVATE(albedo_keep,zlev)
! coordonnees geographiques
    REAL, ALLOCATABLE, DIMENSION(:,:), SAVE   :: lalo
    !$OMP THREADPRIVATE(lalo)
! pts voisins
    INTEGER,ALLOCATABLE, DIMENSION(:,:), SAVE :: neighbours
    !$OMP THREADPRIVATE(neighbours)
! fractions continents
    REAL,ALLOCATABLE, DIMENSION(:), SAVE      :: contfrac
    !$OMP THREADPRIVATE(contfrac)
! resolution de la grille
    REAL, ALLOCATABLE, DIMENSION (:,:), SAVE  :: resolution
    !$OMP THREADPRIVATE(resolution)

    REAL, ALLOCATABLE, DIMENSION (:,:), SAVE  :: lon_scat, lat_scat  
    !$OMP THREADPRIVATE(lon_scat,lat_scat)

    LOGICAL, SAVE                             :: lrestart_read = .TRUE.
    !$OMP THREADPRIVATE(lrestart_read)
    LOGICAL, SAVE                             :: lrestart_write = .FALSE.
    !$OMP THREADPRIVATE(lrestart_write)

    REAL, DIMENSION(knon,2)                   :: albedo_out
    !$OMP THREADPRIVATE(albedo_out)

! Pb de nomenclature
    REAL, DIMENSION(klon)                     :: petA_orc, peqA_orc
    REAL, DIMENSION(klon)                     :: petB_orc, peqB_orc
! Pb de correspondances de grilles
    INTEGER, DIMENSION(:), SAVE, ALLOCATABLE  :: ig, jg
    !$OMP THREADPRIVATE(ig,jg)
    INTEGER :: indi, indj
    INTEGER, SAVE, ALLOCATABLE,DIMENSION(:)   :: ktindex
    !$OMP THREADPRIVATE(ktindex)

! Essai cdrag
    REAL, DIMENSION(klon)                     :: cdrag
    INTEGER,SAVE                              :: offset
    !$OMP THREADPRIVATE(offset)

    REAL, DIMENSION(klon_glo)                 :: rlon_g,rlat_g
    INTEGER, SAVE                             :: orch_comm
    !$OMP THREADPRIVATE(orch_comm)

    REAL, ALLOCATABLE, DIMENSION(:), SAVE     :: coastalflow
    !$OMP THREADPRIVATE(coastalflow)
    REAL, ALLOCATABLE, DIMENSION(:), SAVE     :: riverflow
    !$OMP THREADPRIVATE(riverflow)
!
! Fin definition
!****************************************************************************************
#ifdef CPP_VEGET

    IF (check) WRITE(lunout,*)'Entree ', modname
  
! Initialisation
  
    IF (debut) THEN
! Test de coherence
#ifndef ORCH_NEW
       ! Compilation avec orchidee nouvelle version necessaire avec carbon_cycle_cpl=y
       IF (carbon_cycle_cpl) THEN
          abort_message='You must define preprossing key ORCH_NEW when running carbon_cycle_cpl=y'
          CALL abort_gcm(modname,abort_message,1)
       END IF
#endif
       ALLOCATE(ktindex(knon))
       IF ( .NOT. ALLOCATED(albedo_keep)) THEN
          ALLOCATE(albedo_keep(klon))
          ALLOCATE(zlev(knon))
       ENDIF
! Pb de correspondances de grilles
       ALLOCATE(ig(klon))
       ALLOCATE(jg(klon))
       ig(1) = 1
       jg(1) = 1
       indi = 0
       indj = 2
       DO igrid = 2, klon - 1
          indi = indi + 1
          IF ( indi > iim) THEN
             indi = 1
             indj = indj + 1
          ENDIF
          ig(igrid) = indi
          jg(igrid) = indj
       ENDDO
       ig(klon) = 1
       jg(klon) = jjm + 1

       IF ((.NOT. ALLOCATED(lalo))) THEN
          ALLOCATE(lalo(knon,2), stat = error)
          IF (error /= 0) THEN
             abort_message='Pb allocation lalo'
             CALL abort_gcm(modname,abort_message,1)
          ENDIF
       ENDIF
       IF ((.NOT. ALLOCATED(lon_scat))) THEN
          ALLOCATE(lon_scat(iim,jjm+1), stat = error)
          IF (error /= 0) THEN
             abort_message='Pb allocation lon_scat'
             CALL abort_gcm(modname,abort_message,1)
          ENDIF
       ENDIF
       IF ((.NOT. ALLOCATED(lat_scat))) THEN
          ALLOCATE(lat_scat(iim,jjm+1), stat = error)
          IF (error /= 0) THEN
             abort_message='Pb allocation lat_scat'
             CALL abort_gcm(modname,abort_message,1)
          ENDIF
       ENDIF
       lon_scat = 0.
       lat_scat = 0.
       DO igrid = 1, knon
          index = knindex(igrid)
          lalo(igrid,2) = rlon(index)
          lalo(igrid,1) = rlat(index)
       ENDDO

       
       
       CALL Gather(rlon,rlon_g)
       CALL Gather(rlat,rlat_g)

       IF (is_mpi_root) THEN
          index = 1
          DO jj = 2, jjm
             DO ij = 1, iim
                index = index + 1
                lon_scat(ij,jj) = rlon_g(index)
                lat_scat(ij,jj) = rlat_g(index)
             ENDDO
          ENDDO
          lon_scat(:,1) = lon_scat(:,2)
          lat_scat(:,1) = rlat_g(1)
          lon_scat(:,jjm+1) = lon_scat(:,2)
          lat_scat(:,jjm+1) = rlat_g(klon_glo)
       ENDIF

       CALL bcast(lon_scat) 
       CALL bcast(lat_scat) 

!
! Allouer et initialiser le tableau des voisins et des fraction de continents
!
       IF ( (.NOT.ALLOCATED(neighbours))) THEN
          ALLOCATE(neighbours(knon,8), stat = error)
          IF (error /= 0) THEN
             abort_message='Pb allocation neighbours'
             CALL abort_gcm(modname,abort_message,1)
          ENDIF
       ENDIF
       neighbours = -1.
       IF (( .NOT. ALLOCATED(contfrac))) THEN
          ALLOCATE(contfrac(knon), stat = error)
          IF (error /= 0) THEN
             abort_message='Pb allocation contfrac'
             CALL abort_gcm(modname,abort_message,1)
          ENDIF
       ENDIF

       DO igrid = 1, knon
          ireal = knindex(igrid)
          contfrac(igrid) = pctsrf(ireal,is_ter)
       ENDDO


       CALL Init_neighbours(knon,neighbours,knindex,pctsrf(:,is_ter))

!
!  Allocation et calcul resolutions
       IF ( (.NOT.ALLOCATED(resolution))) THEN
          ALLOCATE(resolution(knon,2), stat = error)
          IF (error /= 0) THEN
             abort_message='Pb allocation resolution'
             CALL abort_gcm(modname,abort_message,1)
          ENDIF
       ENDIF
       DO igrid = 1, knon
          ij = knindex(igrid)
          resolution(igrid,1) = cuphy(ij)
          resolution(igrid,2) = cvphy(ij)
       ENDDO
     
       ALLOCATE(coastalflow(klon), stat = error)
       IF (error /= 0) THEN
          abort_message='Pb allocation coastalflow'
          CALL abort_gcm(modname,abort_message,1)
       ENDIF
       
       ALLOCATE(riverflow(klon), stat = error)
       IF (error /= 0) THEN
          abort_message='Pb allocation riverflow'
          CALL abort_gcm(modname,abort_message,1)
       ENDIF

!
! Allocate variables needed for carbon_cycle_mod
       IF ( carbon_cycle_cpl ) THEN
          nb_fields_cpl=2
       ELSE
          nb_fields_cpl=1
       END IF


       IF (carbon_cycle_cpl) THEN
          ALLOCATE(fco2_land_inst(klon),stat=error)
          IF (error /= 0)  CALL abort_gcm(modname,'Pb in allocation fco2_land_inst',1)
          
          ALLOCATE(fco2_lu_inst(klon),stat=error)
          IF(error /=0) CALL abort_gcm(modname,'Pb in allocation fco2_lu_inst',1)
       END IF

       ALLOCATE(fields_cpl(klon,nb_fields_cpl), stat = error)
       IF (error /= 0) CALL abort_gcm(modname,'Pb in allocation fields_cpl',1)

    ENDIF                          ! (fin debut) 

! 
! Appel a la routine sols continentaux
!
    IF (lafin) lrestart_write = .TRUE.
    IF (check) WRITE(lunout,*)'lafin ',lafin,lrestart_write
    
    petA_orc(1:knon) = petBcoef(1:knon) * dtime
    petB_orc(1:knon) = petAcoef(1:knon)
    peqA_orc(1:knon) = peqBcoef(1:knon) * dtime
    peqB_orc(1:knon) = peqAcoef(1:knon)

    cdrag = 0.
    cdrag(1:knon) = tq_cdrag(1:knon)

! zlev(1:knon) = (100.*plev(1:knon))/((ps(1:knon)/287.05*temp_air(1:knon))*9.80665)
    zlev(1:knon) = (100.*plev(1:knon))/((ps(1:knon)/RD*temp_air(1:knon))*RG)


! PF et PASB
!   where(cdrag > 0.01) 
!     cdrag = 0.01
!   endwhere
!  write(*,*)'Cdrag = ',minval(cdrag),maxval(cdrag)

!
! Init Orchidee
!
!  if (pole_nord) then 
!    offset=0
!    ktindex(:)=ktindex(:)+iim-1
!  else
!    offset = klon_mpi_begin-1+iim-1
!    ktindex(:)=ktindex(:)+MOD(offset,iim)
!    offset=offset-MOD(offset,iim)
!  endif
  
    IF (debut) THEN
       CALL Get_orchidee_communicator(knon,orch_comm)
       IF (knon /=0) THEN
          CALL Init_orchidee_index(knon,orch_comm,knindex,offset,ktindex)

#ifndef CPP_MPI
          ! Interface for ORCHIDEE compiled in sequential mode(without preprocessing flag CPP_MPI)
          CALL intersurf_main (itime+itau_phy-1, iim, jjm+1, knon, ktindex, dtime, &
               lrestart_read, lrestart_write, lalo, &
               contfrac, neighbours, resolution, date0, &
               zlev,  u1_lay, v1_lay, spechum, temp_air, epot_air, ccanopy, &
               cdrag, petA_orc, peqA_orc, petB_orc, peqB_orc, &
               precip_rain, precip_snow, lwdown, swnet, swdown, ps, &
               evap, fluxsens, fluxlat, coastalflow, riverflow, &
               tsol_rad, tsurf_new, qsurf, albedo_out, emis_new, z0_new, &
               lon_scat, lat_scat, q2m, t2m &
#ifdef ORCH_NEW
               , nb_fields_cpl, fields_cpl)
#else
               )
#endif

#else          
          ! Interface for ORCHIDEE version 1.9 or later(1.9.2, 1.9.3, 1.9.4, 1.9.5) compiled in parallel mode(with preprocessing flag CPP_MPI)
          CALL intersurf_main (itime+itau_phy-1, iim, jjm+1, offset, knon, ktindex, & 
               orch_comm, dtime, lrestart_read, lrestart_write, lalo, &
               contfrac, neighbours, resolution, date0, &
               zlev,  u1_lay(1:knon), v1_lay(1:knon), spechum(1:knon), temp_air(1:knon), epot_air(1:knon), ccanopy(1:knon), &
               cdrag(1:knon), petA_orc(1:knon), peqA_orc(1:knon), petB_orc(1:knon), peqB_orc(1:knon), &
               precip_rain(1:knon), precip_snow(1:knon), lwdown(1:knon), swnet(1:knon), swdown(1:knon), ps(1:knon), &
               evap(1:knon), fluxsens(1:knon), fluxlat(1:knon), coastalflow(1:knon), riverflow(1:knon), &
               tsol_rad(1:knon), tsurf_new(1:knon), qsurf(1:knon), albedo_out(1:knon,:), emis_new(1:knon), z0_new(1:knon), &
               lon_scat, lat_scat, q2m, t2m &
#ifdef ORCH_NEW
               , nb_fields_cpl, fields_cpl(1:knon,:))
#else
               )
#endif
#endif
          
       ENDIF

       albedo_keep(1:knon) = (albedo_out(1:knon,1)+albedo_out(1:knon,2))/2.

    ENDIF

!  swdown_vrai(1:knon) = swnet(1:knon)/(1. - albedo_keep(1:knon))
    swdown_vrai(1:knon) = swdown(1:knon)

    IF (knon /=0) THEN
#ifndef CPP_MPI
       ! Interface for ORCHIDEE compiled in sequential mode(without preprocessing flag CPP_MPI)
       CALL intersurf_main (itime+itau_phy, iim, jjm+1, knon, ktindex, dtime, &
            lrestart_read, lrestart_write, lalo, &
            contfrac, neighbours, resolution, date0, &
            zlev,  u1_lay, v1_lay, spechum, temp_air, epot_air, ccanopy, &
            cdrag, petA_orc, peqA_orc, petB_orc, peqB_orc, &
            precip_rain, precip_snow, lwdown, swnet, swdown_vrai, ps, &
            evap, fluxsens, fluxlat, coastalflow, riverflow, &
            tsol_rad, tsurf_new, qsurf, albedo_out, emis_new, z0_new, &
            lon_scat, lat_scat, q2m, t2m &
#ifdef ORCH_NEW
            , nb_fields_cpl, fields_cpl)
#else
            )
#endif
#else
       ! Interface for ORCHIDEE version 1.9 or later compiled in parallel mode(with preprocessing flag CPP_MPI)
       CALL intersurf_main (itime+itau_phy, iim, jjm+1,offset, knon, ktindex, & 
            orch_comm,dtime, lrestart_read, lrestart_write, lalo, &
            contfrac, neighbours, resolution, date0, &
            zlev,  u1_lay(1:knon), v1_lay(1:knon), spechum(1:knon), temp_air(1:knon), epot_air(1:knon), ccanopy(1:knon), &
            cdrag(1:knon), petA_orc(1:knon), peqA_orc(1:knon), petB_orc(1:knon), peqB_orc(1:knon), &
            precip_rain(1:knon), precip_snow(1:knon), lwdown(1:knon), swnet(1:knon), swdown_vrai(1:knon), ps(1:knon), &
            evap(1:knon), fluxsens(1:knon), fluxlat(1:knon), coastalflow(1:knon), riverflow(1:knon), &
            tsol_rad(1:knon), tsurf_new(1:knon), qsurf(1:knon), albedo_out(1:knon,:), emis_new(1:knon), z0_new(1:knon), &
            lon_scat, lat_scat, q2m, t2m &
#ifdef ORCH_NEW
            , nb_fields_cpl, fields_cpl(1:knon,:))
#else
            )
#endif
#endif
    ENDIF

    albedo_keep(1:knon) = (albedo_out(1:knon,1)+albedo_out(1:knon,2))/2.

!* Send to coupler
!
    IF (type_ocean=='couple') THEN
       CALL cpl_send_land_fields(itime, knon, knindex, &
            riverflow, coastalflow)
    ENDIF

    alb1_new(1:knon) = albedo_out(1:knon,1) 
    alb2_new(1:knon) = albedo_out(1:knon,2)

! Convention orchidee: positif vers le haut
    fluxsens(1:knon) = -1. * fluxsens(1:knon)
    fluxlat(1:knon)  = -1. * fluxlat(1:knon)
    
!  evap     = -1. * evap

    IF (debut) lrestart_read = .FALSE.

! Decompress variables for the module carbon_cycle_mod
    IF (carbon_cycle_cpl) THEN
       fco2_land_inst(:)=0.
       fco2_lu_inst(:)=0.
       
       DO igrid = 1, knon
          ireal = knindex(igrid)
          fco2_land_inst(ireal) = fields_cpl(igrid,1)
          fco2_lu_inst(ireal)   = fields_cpl(igrid,2)
       END DO
    END IF

#endif    
  END SUBROUTINE surf_land_orchidee
!
!****************************************************************************************
!
  SUBROUTINE Init_orchidee_index(knon,orch_comm,knindex,offset,ktindex)
    
    INCLUDE "dimensions.h"

#ifdef CPP_MPI
    INCLUDE 'mpif.h'
#endif    


! Input arguments
!****************************************************************************************
    INTEGER, INTENT(IN)                   :: knon
    INTEGER, INTENT(IN)                   :: orch_comm
    INTEGER, DIMENSION(klon), INTENT(IN)  :: knindex

! Output arguments
!****************************************************************************************
    INTEGER, INTENT(OUT)                  :: offset
    INTEGER, DIMENSION(knon), INTENT(OUT) :: ktindex

! Local varables
!****************************************************************************************
#ifdef CPP_MPI
    INTEGER, DIMENSION(MPI_STATUS_SIZE)   :: status
#endif

    INTEGER                               :: MyLastPoint
    INTEGER                               :: LastPoint
    INTEGER                               :: mpi_rank_orch
    INTEGER                               :: mpi_size_orch
    INTEGER                               :: ierr 
!
! End definition
!****************************************************************************************

    MyLastPoint=klon_mpi_begin-1+knindex(knon)+iim-1
    
    IF (is_parallel) THEN
#ifdef CPP_MPI    
       CALL MPI_COMM_SIZE(orch_comm,mpi_size_orch,ierr)
       CALL MPI_COMM_RANK(orch_comm,mpi_rank_orch,ierr)
#endif
    ELSE
       mpi_rank_orch=0
       mpi_size_orch=1
    ENDIF

    IF (is_parallel) THEN
       IF (mpi_rank_orch /= 0) THEN
#ifdef CPP_MPI
          CALL MPI_RECV(LastPoint,1,MPI_INTEGER,mpi_rank_orch-1,1234,orch_comm,status,ierr)
#endif
       ENDIF
       
       IF (mpi_rank_orch /= mpi_size_orch-1) THEN
#ifdef CPP_MPI
          CALL MPI_SEND(MyLastPoint,1,MPI_INTEGER,mpi_rank_orch+1,1234,orch_comm,ierr)  
#endif
       ENDIF
    ENDIF
    
    IF (mpi_rank_orch == 0) THEN 
       offset=0
    ELSE
       offset=LastPoint-MOD(LastPoint,iim)
    ENDIF
    
    ktindex(1:knon)=knindex(1:knon)+(klon_mpi_begin+iim-1)-offset-1     
    

  END SUBROUTINE  Init_orchidee_index
!
!****************************************************************************************
! 
  SUBROUTINE Get_orchidee_communicator(knon,orch_comm)
    
#ifdef CPP_MPI
    INCLUDE 'mpif.h'
#endif    


    INTEGER,INTENT(IN)  :: knon
    INTEGER,INTENT(OUT) :: orch_comm
    
    INTEGER             :: color
    INTEGER             :: ierr
!
! End definition
!****************************************************************************************

    IF (knon==0) THEN 
       color = 0
    ELSE 
       color = 1
    ENDIF
    
#ifdef CPP_MPI    
    CALL MPI_COMM_SPLIT(COMM_LMDZ_PHY,color,mpi_rank,orch_comm,ierr)
#endif
    
  END SUBROUTINE Get_orchidee_communicator
!
!****************************************************************************************
!  
  SUBROUTINE Init_neighbours(knon,neighbours,ktindex,pctsrf)
    
    USE indice_sol_mod

    INCLUDE "dimensions.h"
#ifdef CPP_MPI
    INCLUDE 'mpif.h'
#endif    

! Input arguments
!****************************************************************************************
    INTEGER, INTENT(IN)                     :: knon
    INTEGER, DIMENSION(klon), INTENT(IN)    :: ktindex
    REAL, DIMENSION(klon), INTENT(IN)       :: pctsrf
    
! Output arguments
!****************************************************************************************
    INTEGER, DIMENSION(knon,8), INTENT(OUT) :: neighbours

! Local variables
!****************************************************************************************
    INTEGER                              :: knon_g
    INTEGER                              :: i, igrid, jj, ij, iglob
    INTEGER                              :: ierr, ireal, index
    INTEGER                              :: var_tmp
    INTEGER, DIMENSION(0:mpi_size-1)     :: knon_nb
    INTEGER, DIMENSION(0:mpi_size-1)     :: displs
    INTEGER, DIMENSION(8,3)              :: off_ini
    INTEGER, DIMENSION(8)                :: offset  
    INTEGER, DIMENSION(knon)             :: ktindex_p
    INTEGER, DIMENSION(iim,jjm+1)        :: correspond
    INTEGER, ALLOCATABLE, DIMENSION(:)   :: ktindex_g
    INTEGER, ALLOCATABLE, DIMENSION(:,:) :: neighbours_g
    REAL, DIMENSION(klon_glo)            :: pctsrf_g
    
!
! End definition
!****************************************************************************************

    IF (is_sequential) THEN
       knon_nb(:)=knon
    ELSE  
       
#ifdef CPP_MPI  
       CALL MPI_GATHER(knon,1,MPI_INTEGER,knon_nb,1,MPI_INTEGER,0,COMM_LMDZ_PHY,ierr)
#endif
       
    ENDIF
    
    IF (is_mpi_root) THEN
       knon_g=SUM(knon_nb(:))
       ALLOCATE(ktindex_g(knon_g))
       ALLOCATE(neighbours_g(knon_g,8))
       neighbours_g(:,:)=-1
       displs(0)=0
       DO i=1,mpi_size-1
          displs(i)=displs(i-1)+knon_nb(i-1)
       ENDDO
   ELSE
       ALLOCATE(neighbours_g(1,8))
   ENDIF
    
    ktindex_p(1:knon)=ktindex(1:knon)+klon_mpi_begin-1+iim-1
    
    IF (is_sequential) THEN
       ktindex_g(:)=ktindex_p(:)
    ELSE
       
#ifdef CPP_MPI  
       CALL MPI_GATHERV(ktindex_p,knon,MPI_INTEGER,ktindex_g,knon_nb,&
            displs,MPI_INTEGER,0,COMM_LMDZ_PHY,ierr)
#endif
       
    ENDIF
    
    CALL Gather(pctsrf,pctsrf_g)
    
    IF (is_mpi_root) THEN
!  Initialisation des offset    
!
! offset bord ouest
       off_ini(1,1) = - iim  ; off_ini(2,1) = - iim + 1; off_ini(3,1) = 1
       off_ini(4,1) = iim + 1; off_ini(5,1) = iim      ; off_ini(6,1) = 2 * iim - 1
       off_ini(7,1) = iim -1 ; off_ini(8,1) = - 1
! offset point normal
       off_ini(1,2) = - iim  ; off_ini(2,2) = - iim + 1; off_ini(3,2) = 1
       off_ini(4,2) = iim + 1; off_ini(5,2) = iim      ; off_ini(6,2) = iim - 1
       off_ini(7,2) = -1     ; off_ini(8,2) = - iim - 1
! offset bord   est
       off_ini(1,3) = - iim; off_ini(2,3) = - 2 * iim + 1; off_ini(3,3) = - iim + 1
       off_ini(4,3) =  1   ; off_ini(5,3) = iim          ; off_ini(6,3) = iim - 1
       off_ini(7,3) = -1   ; off_ini(8,3) = - iim - 1
!
!
! Attention aux poles
!
       DO igrid = 1, knon_g
          index = ktindex_g(igrid)
          jj = INT((index - 1)/iim) + 1
          ij = index - (jj - 1) * iim
          correspond(ij,jj) = igrid
       ENDDO
       
       DO igrid = 1, knon_g
          iglob = ktindex_g(igrid)
          IF (MOD(iglob, iim) == 1) THEN
             offset = off_ini(:,1)
          ELSE IF(MOD(iglob, iim) == 0) THEN
             offset = off_ini(:,3)
          ELSE
             offset = off_ini(:,2)
          ENDIF
          DO i = 1, 8
             index = iglob + offset(i)
             ireal = (MIN(MAX(1, index - iim + 1), klon_glo))
             IF (pctsrf_g(ireal) > EPSFRA) THEN
                jj = INT((index - 1)/iim) + 1
                ij = index - (jj - 1) * iim
                neighbours_g(igrid, i) = correspond(ij, jj)
             ENDIF
          ENDDO
       ENDDO

    ENDIF
    
    DO i=1,8
       IF (is_sequential) THEN
          neighbours(:,i)=neighbours_g(:,i)
       ELSE
#ifdef CPP_MPI
          IF (knon > 0) THEN
             ! knon>0, scattter global field neighbours_g from master process to local process
             CALL MPI_SCATTERV(neighbours_g(:,i),knon_nb,displs,MPI_INTEGER,neighbours(:,i),knon,MPI_INTEGER,0,COMM_LMDZ_PHY,ierr) 
          ELSE
             ! knon=0, no need to save the field for this process
             CALL MPI_SCATTERV(neighbours_g(:,i),knon_nb,displs,MPI_INTEGER,var_tmp,knon,MPI_INTEGER,0,COMM_LMDZ_PHY,ierr) 
          END IF
#endif
       ENDIF
    ENDDO
    
  END SUBROUTINE Init_neighbours
!
!****************************************************************************************
!

#endif
END MODULE surf_land_orchidee_noopenmp_mod