routing_interface.f90 35.3 KB
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SUBROUTINE initatmgrid(rank, nbcore, nbpt, nbseg, polygons_in, centre_in, area_in, contfrac_in, neighbours_in)
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  !
  USE grid
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  USE ioipsl
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  !
  IMPLICIT NONE
  !
  !! INPUT VARIABLES
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  INTEGER, INTENT(in) :: rank   !! rank of processor
  INTEGER, INTENT(in) :: nbcore
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  INTEGER, INTENT(in) :: nbpt   !! Atmospheric Domain size (unitless)
  INTEGER, INTENT(in) :: nbseg  !! Number of segments in the polygone
  REAL, INTENT(in) :: polygons_in(nbpt,2*nbseg+1,2)
  REAL, INTENT(in) :: centre_in(nbpt,2)
  REAL, INTENT(in) :: contfrac_in(nbpt)
  REAL, INTENT(in) :: area_in(nbpt)
  INTEGER, INTENT(in) :: neighbours_in(nbpt,nbseg*2)
  !
  !! Local
  INTEGER :: i
  INTEGER :: neighbours_loc(nbpt,nbseg*2)
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  CHARACTER(LEN=33) :: outfname
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  !
  DO i=1,nbpt
     ! Move from C to F indexing.
     neighbours_loc(i,:) = neighbours_in(i,:)+1
  ENDDO
  !
  CALL grid_init(nbpt, nbseg, polygons_in, centre_in, area_in, contfrac_in, neighbours_loc)
  !
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  numout=100+rank
  WRITE(outfname,'(A15,I4.4,A6,I4.4,A4)') "Out_RoutingReg_",rank,"_from_",nbcore,".txt"
  OPEN(unit=numout, file=outfname)
  !
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END SUBROUTINE initatmgrid

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SUBROUTINE closeinterface()
  !
  USE ioipsl
  !
  CLOSE(unit=numout)
  !
END SUBROUTINE closeinterface

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SUBROUTINE gethydrogrid(nbpt, nbvmax_in, nbxmax_in, sub_pts, sub_index, sub_area,  max_basins, min_topoind, &
     & lon_rel, lat_rel, trip, basins, topoindex, fac, hierarchy, nbi, nbj, area_bx, trip_bx, basin_bx, &
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     & topoind_bx, fac_bx, hierarchy_bx, lon_bx, lat_bx, lshead_bx)
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  !
  USE ioipsl
  USE grid
  USE routing_tools
  USE routing_reg
  !
  IMPLICIT NONE
  !
  INTEGER, INTENT(in) :: nbvmax_in, nbxmax_in
  !
  INTEGER, INTENT(in) :: nbpt !! Domain size (unitless)
  INTEGER, INTENT(in) :: sub_pts(nbpt) !! Number of high resolution points on this grid (unitless)
  INTEGER, INTENT(in) :: sub_index(nbpt,nbvmax_in,2) !! Indices of the points we need on the fine grid (unitless)
  REAL, INTENT(inout) :: max_basins !! The current maximum of basins
  REAL, INTENT(in) :: min_topoind !! The current minimum of topographic index (m)
  REAL, INTENT(in) :: sub_area(nbpt,nbvmax_in) !! Area on the fine grid (m^2)
  !
  REAL, INTENT(in) :: lon_rel(nbpt,nbvmax_in) !!
  REAL, INTENT(in) :: lat_rel(nbpt,nbvmax_in) !! coordinates of the fine grid
  !
  REAL, INTENT(inout) :: trip(nbpt,nbvmax_in) !! The trip field (unitless)
  REAL, INTENT(inout) :: basins(nbpt,nbvmax_in) !! data on the fine grid
  REAL, INTENT(inout) :: topoindex(nbpt,nbvmax_in) !! Topographic index of the residence time (m)
  REAL, INTENT(inout) :: hierarchy(nbpt,nbvmax_in) !! data on the fine grid
  REAL, INTENT(inout) :: fac(nbpt,nbvmax_in) !! data on the fine grid
  !
  !! OUTPUT VARIABLES
  INTEGER, INTENT(out) :: nbi(nbpt), nbj(nbpt) !! Number of point in x and y within the grid (unitless)
  REAL, INTENT(out) :: area_bx(nbpt,nbxmax_in,nbxmax_in) !! Area of each small box in the grid box (m^2)
  REAL, INTENT(out) :: hierarchy_bx(nbpt,nbxmax_in,nbxmax_in) !! Level in the basin of the point
  REAL, INTENT(out) :: fac_bx(nbpt,nbxmax_in,nbxmax_in) !! Flow accumulation
  REAL, INTENT(out) :: lon_bx(nbpt,nbxmax_in,nbxmax_in) !!
  REAL, INTENT(out) :: lat_bx(nbpt,nbxmax_in,nbxmax_in) !!
  REAL, INTENT(out) :: lshead_bx(nbpt,nbxmax_in,nbxmax_in) !! Large scale heading for outflow points.
  REAL, INTENT(out) :: topoind_bx(nbpt,nbxmax_in,nbxmax_in) !! Topographic index of the residence time for each of the smaller boxes (m)
  INTEGER, INTENT(out) :: trip_bx(nbpt,nbxmax_in,nbxmax_in) !! The trip field for each of the smaller boxes (unitless)
  INTEGER, INTENT(out) :: basin_bx(nbpt,nbxmax_in,nbxmax_in) !!
  !
  INTEGER :: ii, ib
  REAL :: resolution(nbpt,2)
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  !
  ! These two parameters are part of the routing_reg module saved variables. They are transfered here.
  !
  nbvmax = nbvmax_in
  nbxmax = nbxmax_in
  !
  DO ii=1,nbpt
     resolution(ii,1) = SQRT(area(ii))
     resolution(ii,2) = SQRT(area(ii))
  ENDDO
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  DO ib=1,nbpt
     CALL routing_reg_getgrid(nbpt, ib, sub_pts, sub_index, sub_area, max_basins, min_topoind, &
          & lon_rel, lat_rel, lalo, resolution, contfrac, trip, basins, topoindex, fac, hierarchy, &
          & nbi(ib), nbj(ib), area_bx(ib,:,:), trip_bx(ib,:,:), basin_bx(ib,:,:), topoind_bx(ib,:,:), &
          & fac_bx(ib,:,:), hierarchy_bx(ib,:,:), lon_bx(ib,:,:), lat_bx(ib,:,:), lshead_bx(ib,:,:))
  ENDDO
  !
END SUBROUTINE gethydrogrid


SUBROUTINE findbasins(nbpt, nbvmax_in, nbxmax_in, nbi, nbj, trip_bx, basin_bx, fac_bx, hierarchy_bx, topoind_bx, lshead_bx, &
     &                nb_basin, basin_inbxid, basin_outlet, basin_outtp, basin_sz, basin_bxout, basin_bbout, basin_pts, &
     &                basin_lshead, coast_pts, lontmp, lattmp)
  !
  USE ioipsl
  USE grid
  USE routing_tools
  USE routing_reg
  !
  ! Arguments
  !
  INTEGER, INTENT(in)    :: nbvmax_in, nbxmax_in
  INTEGER, INTENT(in)    :: nbpt !! Domain size (unitless)
  INTEGER, INTENT(in)    :: nbi(nbpt), nbj(nbpt) !! Number of point in x and y within the grid (unitless)
  INTEGER, INTENT(inout) :: trip_bx(nbpt,nbxmax_in,nbxmax_in) !! The trip field for each of the smaller boxes (unitless)
  INTEGER, INTENT(inout) :: basin_bx(nbpt,nbxmax_in,nbxmax_in) !!
  REAL, INTENT(in)       :: fac_bx(nbpt,nbxmax_in,nbxmax_in) !! Flow accumulation
  REAL, INTENT(in)       :: hierarchy_bx(nbpt,nbxmax_in,nbxmax_in) !! Level in the basin of the point
  REAL, INTENT(inout)    :: topoind_bx(nbpt,nbxmax_in,nbxmax_in) !! Topographic index of the residence time for each of the smaller boxes (m)
  REAL, INTENT(in)       :: lshead_bx(nbpt,nbxmax_in,nbxmax_in) !! Large scale heading for outflow points.
  !
  !
  ! OUTPUT VARIABLES
  INTEGER, INTENT(out) :: nb_basin(nbpt)               !! Number of sub-basins (unitless)
  INTEGER, INTENT(out) :: basin_inbxid(nbpt,nbvmax_in)   !!
  REAL, INTENT(out)    :: basin_outlet(nbpt,nbvmax_in,2) !!
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  REAL, INTENT(out)    :: basin_outtp(nbpt,nbvmax_in)    !!
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  INTEGER, INTENT(out) :: basin_sz(nbpt,nbvmax_in)       !!
  INTEGER, INTENT(out) :: basin_bxout(nbpt,nbvmax_in)    !!
  INTEGER, INTENT(out) :: basin_bbout(nbpt,nbvmax_in)    !!
  INTEGER, INTENT(out) :: basin_pts(nbpt,nbvmax_in, nbvmax_in, 2) !!
  REAL, INTENT(out)    :: basin_lshead(nbpt,nbvmax_in)   !!
  INTEGER, INTENT(out) :: coast_pts(nbpt,nbvmax_in)      !! The coastal flow points (unitless)
  !
  ! For debug and get coordinate of river outlet
  !
  REAL, INTENT(in) :: lontmp(nbpt,nbxmax_in,nbxmax_in) !! Longitude
  REAL, INTENT(in) :: lattmp(nbpt,nbxmax_in,nbxmax_in) !! Latitude
  !
  ! Local
  !
  INTEGER :: ib
  !
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  diaglalo(1,:) = (/ 39.6791, 2.6687 /)
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  !
  IF ( nbvmax_in .NE. nbvmax .OR. nbxmax_in .NE. nbxmax ) THEN
     WRITE(*,*) "nbvmax or nbxmax have changed !!"
     STOP
  ENDIF
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  DO ib=1,nbpt
     CALL routing_reg_findbasins(ib, nbi(ib), nbj(ib), trip_bx(ib,:,:), basin_bx(ib,:,:), fac_bx(ib,:,:), hierarchy_bx(ib,:,:), &
          & topoind_bx(ib,:,:), lshead_bx(ib,:,:), diaglalo, &
          & nb_basin(ib), basin_inbxid(ib,:), basin_outlet(ib,:,:), basin_outtp(ib,:), basin_sz(ib,:), basin_bxout(ib,:), &
          & basin_bbout(ib,:), basin_pts(ib,:,:,:), basin_lshead(ib,:), coast_pts(ib,:), lontmp(ib,:,:), lattmp(ib,:,:))
  ENDDO

END SUBROUTINE findbasins

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SUBROUTINE globalize(nbpt, nbvmax_in, nbxmax_in, area_bx, lon_bx, lat_bx, trip_bx, hierarchy_bx, fac_bx, topoind_bx, &
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          & min_topoind, nb_basin, basin_inbxid, basin_outlet, basin_outtp, basin_sz, basin_pts, basin_bxout, &
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          & basin_bbout, lshead, coast_pts, nwbas, basin_count, basin_notrun, basin_area, basin_cg, basin_hierarchy, &
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          & basin_fac, basin_topoind, basin_id, basin_coor, basin_type, basin_flowdir, basin_lshead, &
          & outflow_grid, outflow_basin, nbcoastal, coastal_basin)
  !
  USE ioipsl
  USE grid
  USE routing_tools
  USE routing_reg
  !
  ! Arguments
  !
  !! INPUT VARIABLES
  INTEGER(i_std), INTENT (in) :: nbpt !! Domain size (unitless)
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  INTEGER(i_std), INTENT(in)  :: nbvmax_in, nbxmax_in
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  REAL(r_std), INTENT (in), DIMENSION(nbpt,nbxmax_in,nbxmax_in)    :: area_bx      !! Area of each small box in the grid box (m^2)
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  REAL(r_std), INTENT (in), DIMENSION(nbpt,nbxmax_in,nbxmax_in)    :: lon_bx       !! Longitude of each small box in the grid box
  REAL(r_std), INTENT (in), DIMENSION(nbpt,nbxmax_in,nbxmax_in)    :: lat_bx       !! Latitude of each small box in the grid box
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  INTEGER(i_std), INTENT (in), DIMENSION(nbpt,nbxmax_in,nbxmax_in) :: trip_bx      !! The trip field for each of the smaller boxes (unitless)
  REAL(r_std), INTENT (in), DIMENSION(nbpt,nbxmax_in,nbxmax_in)    :: hierarchy_bx !! Level in the basin of the point
  REAL(r_std), INTENT (in), DIMENSION(nbpt,nbxmax_in,nbxmax_in)    :: fac_bx !! Level in the basin of the point
  REAL(r_std), INTENT (in), DIMENSION(nbpt,nbxmax_in,nbxmax_in)    :: topoind_bx   !! Topographic index of the residence time for each of the smaller boxes (m)
  REAL(r_std), INTENT (in)                                         :: min_topoind  !! The current minimum of topographic index (m)
  INTEGER(i_std), INTENT (in), DIMENSION(nbpt)                     :: nb_basin     !! Number of sub-basins (unitless)
  INTEGER(i_std), INTENT (in), DIMENSION(nbpt,nbvmax_in)     :: basin_inbxid, basin_sz !! ID of basin, number of points in the basin
  REAL(r_std), INTENT (in), DIMENSION(nbpt,nbvmax_in,2)      :: basin_outlet !! Outlet coordinate of each subgrid basin
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  REAL(r_std), INTENT (in), DIMENSION(nbpt,nbvmax_in)        :: basin_outtp  !!
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  INTEGER(i_std), INTENT (in), DIMENSION(nbpt,nbvmax_in,nbvmax_in,2) :: basin_pts  !! Points in each basin
  INTEGER(i_std), INTENT (in), DIMENSION(nbpt,nbvmax_in)     :: basin_bxout  !! outflow direction
  INTEGER(i_std), INTENT (in), DIMENSION(nbpt,nbvmax_in)     :: basin_bbout  !! outflow sub-basin
  REAL(r_std), INTENT (in), DIMENSION(nbpt,nbvmax_in)        :: lshead       !! Large scale heading of outflow.
  INTEGER(i_std), INTENT (in), DIMENSION(nbpt,nbvmax_in)     :: coast_pts !! The coastal flow points (unitless)
  !! Output VARIABLES
  INTEGER(i_std), INTENT (in) :: nwbas !!
  INTEGER(i_std), INTENT (out), DIMENSION(nbpt)       :: basin_count         !!
  INTEGER(i_std), INTENT (out), DIMENSION(nbpt)       :: basin_notrun        !!
  INTEGER(i_std), INTENT (out), DIMENSION(nbpt,nwbas) :: basin_id      !!
  REAL(r_std), INTENT (out), DIMENSION(nbpt,nwbas,2)  :: basin_coor     !!
  REAL(r_std), INTENT (out), DIMENSION(nbpt,nwbas)    :: basin_type       !!
  INTEGER(i_std), INTENT (out), DIMENSION(nbpt,nwbas) :: basin_flowdir !! Water flow directions in the basin (unitless)
  REAL(r_std), INTENT (out), DIMENSION(nbpt,nwbas)    :: basin_area       !!
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  REAL(r_std), INTENT (out), DIMENSION(nbpt,nwbas,2)  :: basin_cg         !! Centre of gravity of the HTU
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  REAL(r_std), INTENT (out), DIMENSION(nbpt,nwbas)    :: basin_hierarchy  !!
  REAL(r_std), INTENT (out), DIMENSION(nbpt,nwbas)    :: basin_fac  !!
  REAL(r_std), INTENT (out), DIMENSION(nbpt,nwbas)    :: basin_topoind    !! Topographic index of the residence time for a basin (m)
  REAL(r_std), INTENT (out), DIMENSION(nbpt,nwbas)    :: basin_lshead     !! Large scale heading out of the grid box.
  INTEGER(i_std), INTENT (out), DIMENSION(nbpt,nwbas) :: outflow_grid  !! Type of outflow on the grid box (unitless)
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  INTEGER(i_std), INTENT (out), DIMENSION(nbpt,nwbas) :: outflow_basin !!
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  INTEGER(i_std), INTENT (out), DIMENSION(nbpt)       :: nbcoastal           !!
  INTEGER(i_std), INTENT (out), DIMENSION(nbpt,nwbas) :: coastal_basin !!
  !!
  INTEGER(i_std) :: ib
  !!
  IF ( nbvmax_in .NE. nbvmax .OR. nbxmax_in .NE. nbxmax ) THEN
     WRITE(*,*) "GLOBALIZE : nbvmax or nbxmax have changed !!"
     STOP
  ENDIF
  !!
  DO ib=1,nbpt
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     CALL routing_reg_globalize(nbpt, ib, neighbours, area_bx(ib,:,:), lon_bx(ib,:,:), lat_bx(ib,:,:), trip_bx(ib,:,:), &
          & hierarchy_bx(ib,:,:), fac_bx(ib,:,:), &
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          & topoind_bx(ib,:,:), min_topoind, nb_basin(ib), basin_inbxid(ib,:), basin_outlet(ib,:,:), basin_outtp(ib,:), &
          & basin_sz(ib,:), basin_pts(ib,:,:,:), basin_bxout(ib,:), basin_bbout(ib,:), lshead(ib,:), coast_pts(ib,:), nwbas, &
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          & basin_count, basin_notrun, basin_area, basin_cg, basin_hierarchy, basin_fac, basin_topoind, basin_id, basin_coor, &
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          & basin_type, basin_flowdir, basin_lshead, outflow_grid, outflow_basin, nbcoastal, coastal_basin)
  ENDDO
  !
END SUBROUTINE globalize

SUBROUTINE linkup(nbpt, nbxmax_in, nwbas, basin_count, basin_area, basin_id, basin_flowdir, &
     & basin_lshead, basin_hierarchy, basin_fac, outflow_grid, outflow_basin, inflow_number, inflow_grid, &
     & inflow_basin, nbcoastal, coastal_basin, invented_basins)
  !
  USE ioipsl
  USE grid
  USE routing_tools
  USE routing_reg
  !
  ! Arguments
  !
  !! INPUT VARIABLES
  INTEGER(i_std), INTENT (in) :: nbpt !! Domain size (unitless)
  INTEGER(i_std), INTENT (in) :: nbxmax_in
  REAL(r_std), INTENT(in) :: invented_basins !!
  !
  INTEGER(i_std), INTENT (in) :: nwbas !!
  INTEGER(i_std), INTENT (in), DIMENSION(nbpt) :: basin_count !!
  INTEGER(i_std), INTENT (in), DIMENSION(nbpt,nwbas) :: basin_id !!
  INTEGER(i_std), INTENT (in), DIMENSION(nbpt,nwbas) :: basin_flowdir !! Water flow directions in the basin (unitless)
  REAL(r_std), INTENT (in), DIMENSION(nbpt,nwbas) :: basin_lshead  !! Large scale flow direction out of the basin.
  REAL(r_std), INTENT (in), DIMENSION(nbpt,nwbas) :: basin_area !!
  REAL(r_std), INTENT (inout), DIMENSION(nbpt,nwbas) :: basin_hierarchy !!
  REAL(r_std), INTENT (in), DIMENSION(nbpt,nwbas) :: basin_fac !!
  INTEGER(i_std), INTENT(inout), DIMENSION(nbpt,nwbas) :: outflow_grid !! Type of outflow on the grid box (unitless)
  INTEGER(i_std), INTENT(inout), DIMENSION(nbpt,nwbas) :: outflow_basin !!
  !
  INTEGER(i_std), INTENT(out), DIMENSION(nbpt,nbxmax_in*8) :: inflow_number !!
  INTEGER(i_std), INTENT(out), DIMENSION(nbpt,nbxmax_in*8,nbxmax_in*8) :: inflow_basin !!
  INTEGER(i_std), INTENT(out), DIMENSION(nbpt,nbxmax_in*8,nbxmax_in*8) :: inflow_grid !!
  !
  INTEGER(i_std), INTENT(inout), DIMENSION(nbpt) :: nbcoastal !!
  INTEGER(i_std), INTENT(inout), DIMENSION(nbpt,nwbas) :: coastal_basin !!
  !
  !
  IF ( nbxmax_in .NE. nbxmax ) THEN
     WRITE(*,*) "LINKUP : nbxmax has changed !!"
     STOP
  ENDIF
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  CALL routing_reg_linkup(nbpt, neighbours, nwbas, basin_count, basin_area, basin_id, basin_flowdir, &
       & basin_lshead, basin_hierarchy, basin_fac, diaglalo, outflow_grid, outflow_basin, inflow_number, inflow_grid, &
       & inflow_basin, nbcoastal, coastal_basin, invented_basins)
  !
END SUBROUTINE linkup

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SUBROUTINE areanorm(nbpt, nwbas, basin_count, basin_area, outflow_grid, basin_area_norm)
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  !
  USE grid
  !
  !! INPUT VARIABLES
  INTEGER(i_std), INTENT (in)                     :: nbpt !! Domain size (unitless)
  INTEGER(i_std), INTENT (in)                     :: nwbas !!
  INTEGER(i_std), DIMENSION(nbpt), INTENT(in)     :: basin_count !!
  REAL(r_std), DIMENSION(nbpt,nwbas), INTENT(in)  :: basin_area !!
  !
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  INTEGER(i_std), DIMENSION(nbpt,nwbas), INTENT(inout) :: outflow_grid !! Type of outflow on the grid box (unitless)
  REAL(r_std), DIMENSION(nbpt,nwbas), INTENT(out)      :: basin_area_norm !!
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  !
  !! LOCAL VARIABLES
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  INTEGER(i_std) :: ib, ig
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  REAL(r_std) :: contarea !!
  REAL(r_std) :: totbasins !!
  !
  ! Normalize the area of all basins
  !
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  DO ig=1,nbpt
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     !
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     totbasins = SUM(basin_area(ig,1:basin_count(ig)))
     contarea = area(ig)*contfrac(ig)
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     !
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     DO ib=1,basin_count(ig)
        basin_area_norm(ig,ib) = basin_area(ig,ib)/totbasins*contarea
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        !
        ! Simplify the outflow condition. Large rivers will be reset later in rivclassification.
        ! We set all outflow points to coastal flow. This will be adjusted later once all procs have
        ! exchanged their information. So we will have outflow_grid = -2.
        !
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        IF ( outflow_grid(ig,ib) .EQ. -1) THEN
           outflow_grid(ig,ib) = -2
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        ENDIF

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     ENDDO
     !
  ENDDO
  !
END SUBROUTINE areanorm
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SUBROUTINE fetch(nbpt, nwbas, nbcore, corepts, basin_count, basin_area, basin_id, basin_hierarchy, basin_fac, &
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     & outflow_grid, outflow_basin, partial_sum, fetch_basin, outflow_uparea)
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  !
  USE ioipsl
  USE grid
  USE routing_tools
  USE routing_reg
  !
  ! Arguments
  !
  !! INPUT VARIABLES
  INTEGER(i_std), INTENT (in) :: nbpt !! Domain size (unitless)
  INTEGER(i_std), INTENT (in) :: nwbas !!
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  INTEGER(i_std), INTENT (in) :: nbcore
  INTEGER(i_std), DIMENSION(nbcore), INTENT(in)        :: corepts
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  INTEGER(i_std), DIMENSION(nbpt), INTENT(in)          :: basin_count !!
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  REAL(r_std), DIMENSION(nbpt,nwbas), INTENT(in)       :: basin_area !!
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  INTEGER(i_std), DIMENSION(nbpt,nwbas), INTENT(in)    :: basin_id !!
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  REAL(r_std), DIMENSION(nbpt,nwbas), INTENT(in)       :: basin_hierarchy
  REAL(r_std), DIMENSION(nbpt,nwbas), INTENT(in)       :: basin_fac
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  INTEGER(i_std), DIMENSION(nbpt,nwbas), INTENT(in)    :: outflow_grid !! Type of outflow on the grid box (unitless)
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  INTEGER(i_std), DIMENSION(nbpt,nwbas), INTENT(in)    :: outflow_basin !!
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  REAL(r_std), DIMENSION(nbpt,nwbas), INTENT(in)       :: partial_sum
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  !
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  !! IN-OUTPUT VARIABLES
  REAL(r_std), DIMENSION(nbpt,nwbas), INTENT(inout) :: fetch_basin !!
  ! Output
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  REAL(r_std), DIMENSION(nbpt*nwbas), INTENT(out) :: outflow_uparea
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  !
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  !
  !! Local
  INTEGER(i_std)                                  :: ic
  INTEGER(i_std), DIMENSION(nbcore)               :: fcorepts
  !
  !
  DO ic=1,nbcore
     fcorepts(ic) = corepts(ic)+1
  ENDDO
  !
  CALL routing_reg_fetch(nbpt, area, contfrac, nwbas, nbcore, fcorepts, basin_count, basin_area, basin_id, &
       & basin_hierarchy, basin_fac, outflow_grid, outflow_basin, partial_sum, fetch_basin, outflow_uparea)
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  !
END SUBROUTINE fetch

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SUBROUTINE rivclassification(nbpt, nwbas, nbcore, corepts, basin_count, outflow_grid, outflow_basin, fetch_basin, &
     & largest_rivarea, num_largest)
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  !
  USE defprec
  !
  !! INPUT VARIABLES
  INTEGER(i_std), INTENT (in) :: nbpt !! Domain size (unitless)
  INTEGER(i_std), INTENT (in) :: nwbas !!
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  INTEGER(i_std), INTENT (in) :: nbcore
  INTEGER(i_std), DIMENSION(nbcore), INTENT(in)        :: corepts
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  INTEGER(i_std), DIMENSION(nbpt), INTENT(in)          :: basin_count !!
  INTEGER(i_std), DIMENSION(nbpt,nwbas), INTENT(inout) :: outflow_grid
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  INTEGER(i_std), DIMENSION(nbpt,nwbas), INTENT(inout) :: outflow_basin !!
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  REAL(r_std), DIMENSION(nbpt,nwbas), INTENT(in)       :: fetch_basin !!
  REAL(r_std), INTENT(in) :: largest_rivarea
  INTEGER(i_std), INTENT (out) :: num_largest
  !
  !! LOCAL VARIABLES
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  INTEGER(i_std) :: i, ib, ig
  INTEGER(i_std), DIMENSION(nbcore)               :: fcorepts
  !
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  !
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  DO i=1,nbcore
     fcorepts(i) = corepts(i)+1
  ENDDO
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  !
  num_largest = 0
  !
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  ! Just a dummy use to avoid f2py warnings
  outflow_basin(1,1) = outflow_basin(1,1)
  !
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  DO i=1,nbcore
     ig = fcorepts(i)
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     !
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     DO ib=1,basin_count(ig)
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        !
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        IF (outflow_grid(ig,ib) .LT. 0 .AND. fetch_basin(ig,ib) .GE. largest_rivarea) THEN
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           num_largest = num_largest + 1
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           outflow_grid(ig,ib) = -1
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        ENDIF
        !
     ENDDO
  ENDDO
  !
END SUBROUTINE rivclassification

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SUBROUTINE finish_truncate(nbpt, nbxmax_in, nbasmax, nwbas, num_largest, gridarea, cfrac, basin_count, basin_notrun, basin_area, &
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     & basin_cg, basin_topoind, fetch_basin, basin_id, basin_coor, basin_type, basin_flowdir, outflow_grid, outflow_basin, &
     & inflow_number, inflow_grid, inflow_basin, routing_area, routing_cg, topo_resid, route_nbbasin, route_togrid, &
     & route_tobasin, route_nbintobas, global_basinid, route_outlet, route_type, origin_nbintobas, routing_fetch)
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  !
  USE ioipsl
  USE grid
  USE routing_tools
  USE routing_reg
  !
  ! Arguments
  !
  !! INPUT VARIABLES
  INTEGER(i_std), INTENT (in) :: nbpt !! Domain size (unitless)
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  INTEGER(i_std), INTENT (in) :: nbxmax_in, nbasmax
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  INTEGER(i_std), INTENT (in) :: nwbas !!
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  INTEGER(i_std), INTENT (in) :: num_largest
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  REAL(r_std), DIMENSION(nbpt), INTENT(in)          :: gridarea
  REAL(r_std), DIMENSION(nbpt), INTENT(in)          :: cfrac
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  !
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  INTEGER(i_std), DIMENSION(nbpt), INTENT(inout)       :: basin_count !!
  INTEGER(i_std), DIMENSION(nbpt), INTENT(inout)       :: basin_notrun !!
  INTEGER(i_std), DIMENSION(nbpt,nwbas), INTENT(inout) :: basin_id !!
  REAL(r_std), DIMENSION(nbpt,nwbas,2), INTENT(inout)  :: basin_coor !!
  REAL(r_std), DIMENSION(nbpt,nwbas), INTENT(inout)    :: basin_type !!
  INTEGER(i_std), DIMENSION(nbpt,nwbas), INTENT(inout) :: basin_flowdir !! Water flow directions in the basin (unitless)
  REAL(r_std), DIMENSION(nbpt,nwbas), INTENT(inout)    :: basin_area !!
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  REAL(r_std), DIMENSION(nbpt,nwbas,2), INTENT(inout)  :: basin_cg
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  REAL(r_std), DIMENSION(nbpt,nwbas), INTENT(inout)    :: basin_topoind !! Topographic index of the residence time for a basin (m)
  REAL(r_std), DIMENSION(nbpt,nwbas), INTENT(inout)    :: fetch_basin !!
  INTEGER(i_std), DIMENSION(nbpt,nwbas), INTENT(inout) :: outflow_grid !! Type of outflow on the grid box (unitless)
  INTEGER(i_std), DIMENSION(nbpt,nwbas), INTENT(inout) :: outflow_basin !!
  !
  ! Changed nwbas to nbxmax*4 and *8 to save the memory
  !
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  INTEGER(i_std), DIMENSION(nbpt,nbxmax_in), INTENT(inout)          :: inflow_number !!
  INTEGER(i_std), DIMENSION(nbpt,nbxmax_in,nbxmax_in), INTENT(inout) :: inflow_basin !!
  INTEGER(i_std), DIMENSION(nbpt,nbxmax_in,nbxmax_in), INTENT(inout) :: inflow_grid !!
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  !
  ! Output variables
  !
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  REAL(r_std), DIMENSION(nbpt,nbasmax), INTENT(out)    :: routing_area !! Surface of basin (m^2)
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  REAL(r_std), DIMENSION(nbpt,nbasmax), INTENT(out)    :: routing_fetch !! Upstream are flowing into HTU (m^2)
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  REAL(r_std), DIMENSION(nbpt,nbasmax,2), INTENT(out)  :: routing_cg !! Centre of gravity of HTU (Lat, Lon)
  REAL(r_std), DIMENSION(nbpt,nbasmax), INTENT(out)    :: topo_resid !! Topographic index of the retention time (m)
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  INTEGER(i_std), DIMENSION(nbpt), INTENT(out)         :: route_nbbasin !!
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  INTEGER(i_std), DIMENSION(nbpt,nbasmax), INTENT(out) :: route_togrid !! Grid into which the basin flows (unitless)
  INTEGER(i_std), DIMENSION(nbpt,nbasmax), INTENT(out) :: route_tobasin !! Basin in to which the water goes (unitless)
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  INTEGER(i_std), DIMENSION(nbpt), INTENT(out)         :: route_nbintobas !! Number of basin into current one (unitless)
  INTEGER(i_std), DIMENSION(nbpt), INTENT(out)         :: origin_nbintobas !! Number of sub-grid basin into current one before truncation (unitless)
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  INTEGER(i_std), DIMENSION(nbpt,nbasmax), INTENT(out) :: global_basinid !! ID of basin (unitless)
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  REAL(r_std), DIMENSION(nbpt,nbasmax,2), INTENT(out)  :: route_outlet !! Coordinate of outlet (-)
  REAL(r_std), DIMENSION(nbpt,nbasmax), INTENT(out)    :: route_type !! Coordinate of outlet (-)
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  !
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  !
  !
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  CALL routing_reg_end_truncate(nbpt, nbasmax, gridarea, cfrac, nwbas, num_largest, basin_count, &
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       & basin_notrun, basin_area, basin_cg, basin_topoind, fetch_basin, basin_id, basin_coor, basin_type, basin_flowdir, &
       & outflow_grid, outflow_basin, inflow_number, inflow_grid, inflow_basin)
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  routing_area(:,:) = routing_area_glo(:,:)
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  routing_cg(:,:,:) = routing_cg_glo(:,:,:)
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  topo_resid(:,:) = topo_resid_glo(:,:)
  route_nbbasin(:) = route_count_glo(:)
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  route_togrid(:,:) = route_togrid_glo(:,:)
  route_tobasin(:,:) = route_tobasin_glo(:,:)
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  routing_fetch(:,:) = route_fetch_glo(:,:)
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  route_nbintobas(:) = route_nbintobas_glo(:)
  global_basinid(:,:) = global_basinid_glo(:,:)
  route_outlet(:,:,:) = route_outlet_glo(:,:,:)
  route_type(:,:) = route_type_glo(:,:)
  origin_nbintobas(:) = origin_nbintobas_glo(:)

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END SUBROUTINE finish_truncate


SUBROUTINE killbas(nbpt, nbxmax_in, nbasmax, nwbas,ops, tokill, totakeover, numops, basin_count, basin_area, &
     & basin_cg, basin_topoind, fetch_basin, basin_id, basin_coor, basin_type, basin_flowdir, outflow_grid, outflow_basin, &
     & inflow_number, inflow_grid, inflow_basin)
  !
  !
  USE ioipsl
  USE grid
  USE routing_tools
  USE routing_reg
  !
  !! INPUT VARIABLES
  INTEGER(i_std), INTENT (in) :: nbpt !! Domain size (unitless)
  INTEGER(i_std), INTENT (in) :: nbxmax_in, nbasmax
  INTEGER(i_std), INTENT (in) :: nwbas !!
  INTEGER(i_std), INTENT (in) :: ops !!
  INTEGER(i_std), DIMENSION(nbpt, ops), INTENT (in) :: tokill, totakeover
  INTEGER(i_std), DIMENSION(nbpt), INTENT (in) :: numops
  !
  INTEGER(i_std), DIMENSION(nbpt), INTENT(inout)       :: basin_count !!
  INTEGER(i_std), DIMENSION(nbpt,nwbas), INTENT(inout) :: basin_id !!
  REAL(r_std), DIMENSION(nbpt,nwbas,2), INTENT(inout)  :: basin_coor !!
  REAL(r_std), DIMENSION(nbpt,nwbas), INTENT(inout)    :: basin_type !!
  INTEGER(i_std), DIMENSION(nbpt,nwbas), INTENT(inout) :: basin_flowdir !! Water flow directions in the basin (unitless)
  REAL(r_std), DIMENSION(nbpt,nwbas), INTENT(inout)    :: basin_area !!
  REAL(r_std), DIMENSION(nbpt,nwbas,2), INTENT(inout)  :: basin_cg
  REAL(r_std), DIMENSION(nbpt,nwbas), INTENT(inout)    :: basin_topoind !! Topographic index of the residence time for a basin (m)
  REAL(r_std), DIMENSION(nbpt,nwbas), INTENT(inout)    :: fetch_basin !!
  INTEGER(i_std), DIMENSION(nbpt,nwbas), INTENT(inout) :: outflow_grid !! Type of outflow on the grid box (unitless)
  INTEGER(i_std), DIMENSION(nbpt,nwbas), INTENT(inout) :: outflow_basin !!
  !
  ! Changed nwbas to nbxmax*4 and *8 to save the memory
  !
  INTEGER(i_std), DIMENSION(nbpt,nbxmax_in), INTENT(inout)          :: inflow_number !!
  INTEGER(i_std), DIMENSION(nbpt,nbxmax_in,nbxmax_in), INTENT(inout) :: inflow_basin !!
  INTEGER(i_std), DIMENSION(nbpt,nbxmax_in,nbxmax_in), INTENT(inout) :: inflow_grid !!

  !! LOCAL
  INTEGER(i_std) :: ib, op, tok, totak


  DO ib=1,nbpt
    DO op=1,numops(ib)
      IF (basin_count(ib) > nbasmax) THEN
         tok = tokill(ib,op)
         totak = totakeover(ib,op)
         IF (tok .GT. 0) THEN 
            WRITE(numout,*) "nbpt", ib, "tokill", tok, "totakover", totak
            CALL routing_reg_killbas(nbpt, ib, tok, totak, nwbas, basin_count, basin_area, basin_cg, basin_topoind,&
               & fetch_basin, basin_id, basin_coor, basin_type, basin_flowdir, outflow_grid, outflow_basin, inflow_number,&
               & inflow_grid, inflow_basin)
         END IF
      END IF
    END DO
  END DO

   ! REPRENDRE LA FIN DE TRUNCATE

END SUBROUTINE killbas


SUBROUTINE checkrouting(nbpt, nwbas, outflow_grid, outflow_basin, basin_count)
  !
  USE ioipsl
  USE grid
  USE routing_tools
  USE routing_reg
  !
  !! INPUT VARIABLES
  INTEGER(i_std), INTENT (in) :: nbpt !! Domain size (unitless)
  INTEGER(i_std), INTENT (in) :: nwbas !!

  INTEGER(i_std), DIMENSION(nbpt,nwbas), INTENT(in)       :: outflow_grid !! Type of outflow on the grid box (unitless)
  INTEGER(i_std), DIMENSION(nbpt,nwbas), INTENT(in)       :: outflow_basin !!
  
  INTEGER(i_std), DIMENSION(nbpt),       INTENT(in)       :: basin_count !!
  ! Local
  INTEGER(i_std), DIMENSION(nbpt,nwbas)       :: flag !!
  INTEGER(i_std) :: ig, ib, it, igrif, ibasf, basnum, test


  flag(:,:) = 0
 
  WRITE(numout,*) "Checking routing"
  test = 0

  DO ig=1,nbpt
    basnum = basin_count(ig)
    DO ib=1,basnum   
      IF (flag(ig,ib) .EQ. 0) THEN
        flag(ig,ib) = -1
        igrif = outflow_grid(ig,ib)
        ibasf = outflow_basin(ig,ib)
      !
        DO WHILE ((igrif .GT. 0) .AND. (flag(igrif,ibasf) .NE. -1) .AND. (flag(igrif,ibasf) .NE. -99))
          flag(igrif, ibasf) = -1
          it = outflow_grid(igrif,ibasf)    
          ibasf = outflow_basin(igrif,ibasf)
          igrif = it
        END DO


        IF ((flag(igrif,ibasf) .EQ. -99) .OR. (igrif .LE. 0)) THEN
          flag(ig,ib) = -99
          igrif = outflow_grid(ig,ib)
          ibasf = outflow_basin(ig,ib)

          DO WHILE ((igrif .GT. 0) .AND. (flag(igrif,ibasf) .NE. -99))
            flag(igrif, ibasf) = -99
            it = outflow_grid(igrif,ibasf)    
            ibasf = outflow_basin(igrif,ibasf)
            igrif = it
          END DO

        ELSE IF (flag(igrif,ibasf) .EQ. -1) THEN
          test = test + 1

          flag(ig,ib) = -99
          igrif = outflow_grid(ig,ib)
          ibasf = outflow_basin(ig,ib)
          DO WHILE (flag(igrif,ibasf) .EQ. -1)
            flag(igrif, ibasf) = -99
            it = outflow_grid(igrif,ibasf)    
            ibasf = outflow_basin(igrif,ibasf)
            igrif = it
          END DO
        END IF
      END IF
    END DO
  END DO

  WRITE(numout,*) "**** Fetch has",test, "loop errors"


END SUBROUTINE checkrouting


SUBROUTINE checkfetch(nbpt, nwbas, fetch_basin, outflow_grid, outflow_basin, basin_count)
  !
  USE ioipsl
  USE grid
  USE routing_tools
  USE routing_reg
  !
  !! INPUT VARIABLES
  INTEGER(i_std), INTENT (in) :: nbpt !! Domain size (unitless)
  INTEGER(i_std), INTENT (in) :: nwbas !!

  REAL(r_std), DIMENSION(nbpt,nwbas),    INTENT(in)       :: fetch_basin !!
  INTEGER(i_std), DIMENSION(nbpt,nwbas), INTENT(in)       :: outflow_grid !! Type of outflow on the grid box (unitless)
  INTEGER(i_std), DIMENSION(nbpt,nwbas), INTENT(in)       :: outflow_basin !!
  INTEGER(i_std), DIMENSION(nbpt),       INTENT(in)       :: basin_count !!
  ! Local
  INTEGER(i_std) :: ig, ib, it, bt, igrif, ibasf, basnum, test

  WRITE(numout,*) "Checking Fetch coherence"
  test = 0

  DO ig=1,nbpt
    basnum = basin_count(ig)

    DO ib=1,basnum      
      igrif = outflow_grid(ig,ib)
      ibasf = outflow_basin(ig,ib)
    
      IF (igrif .GT. 0) THEN  
        IF (fetch_basin(ig,ib) .GT. fetch_basin(igrif,ibasf)) THEN
          WRITE(numout,*) "****ERROR Fetch, nbpt:",ig
          WRITE(numout,*) igrif, ibasf
          WRITE(numout,*) it, bt
          test = 1
        END IF
      END IF
    END DO
  END DO
  IF (test .EQ. 0) WRITE(numout,*) "**** Fetch has no error"

END SUBROUTINE checkfetch


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SUBROUTINE finalfetch(nbpt, nbasmax, nbcore, corepts, routing_area, basin_count, route_togrid, route_tobasin, partial_sum, &
     & fetch_basin, outflow_uparea)
  !
  USE defprec
  USE ioipsl
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  USE constantes_var
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  !
  !! INPUT VARIABLES
  INTEGER(i_std), INTENT(in)   :: nbpt !! Domain size (unitless)
  INTEGER(i_std), INTENT(in)   :: nbasmax !!
  INTEGER(i_std), INTENT (in)  :: nbcore
  INTEGER(i_std), DIMENSION(nbcore), INTENT(in)       :: corepts
  INTEGER(i_std), DIMENSION(nbpt), INTENT(in)         :: basin_count
  REAL(r_std), DIMENSION(nbpt,nbasmax), INTENT(in)    :: routing_area !! Surface of basin (m^2)
  INTEGER(i_std), DIMENSION(nbpt,nbasmax), INTENT(in) :: route_togrid !! Grid into which the basin flows (unitless)
  INTEGER(i_std), DIMENSION(nbpt,nbasmax), INTENT(in) :: route_tobasin !! Basin in to which the water goes (unitless)
  REAL(r_std), DIMENSION(nbpt,nbasmax), INTENT(in)    :: partial_sum
  !
  !! INPUT/OUTPUT VARIABLES
  REAL(r_std), DIMENSION(nbpt,nbasmax), INTENT(inout)    :: fetch_basin !!
  ! Out
  REAL(r_std), DIMENSION(nbpt*nbasmax), INTENT(out)      :: outflow_uparea
  !
  ! LOCAL
  INTEGER(i_std) :: ic, ib, ig, igrif, ibasf, itt, ff(1)
  INTEGER(i_std), PARAMETER          :: maxiterations=10000
  INTEGER(i_std), DIMENSION(nbcore)  :: fcorepts
  !
  !
  DO ic=1,nbcore
     fcorepts(ic) = corepts(ic)+1
  ENDDO
  !
  ! Propagate first the partial sums from the halo into the domain
  !
  DO ig=1,nbpt
     !
     DO ib=1,basin_count(ig)
         IF (partial_sum(ig,ib) > EPSILON(partial_sum)) THEN
             !
             fetch_basin(ig,ib) = MAX(fetch_basin(ig,ib), partial_sum(ig,ib))
             !
             igrif = route_togrid(ig,ib)
             ibasf = route_tobasin(ig,ib)
             !
             itt = 0
             !
             DO WHILE ( ibasf .LE. nbasmax )
                !
                fetch_basin(igrif,ibasf) = MAX(fetch_basin(igrif,ibasf), partial_sum(ig,ib))
                !
                it = route_togrid(igrif,ibasf)
                ibasf = route_tobasin(igrif,ibasf)
                igrif = it
                itt = itt + 1
                IF ( itt .GT. maxiterations) THEN
                   IF ( itt .GT. maxiterations+20) THEN
                      CALL ipslerr_p(3,'routing_interface','Problem in propagating partial sum','','')
                   ENDIF
                ENDIF
             ENDDO
          ENDIF
       ENDDO
  ENDDO
  !
  ! Add the areas contributed by the core region of the domain.
  !
  DO ic=1,nbcore
     ig = fcorepts(ic)
     !
     DO ib=1,basin_count(ig)
        !
        fetch_basin(ig,ib) = fetch_basin(ig,ib) + routing_area(ig,ib)
        !
        igrif = route_togrid(ig,ib)
        ibasf = route_tobasin(ig,ib)
        !
        itt = 0
        !
        DO WHILE ( ibasf .LE. nbasmax )
           !
           fetch_basin(igrif,ibasf) = fetch_basin(igrif,ibasf) + routing_area(ig,ib)
           !
           it = route_togrid(igrif,ibasf)
           ibasf = route_tobasin(igrif,ibasf)
           igrif = it
           itt = itt + 1
           IF ( itt .GT. maxiterations) THEN
              WRITE(numout,&
                   "('Grid ',I5, ' and basin ',I5, ' did not converge after iteration ',I5)") ig, ib, itt
              WRITE(numout, "('==> We flow through grid ',I5,' and basin ',I5)") igrif, ibasf
              !
              IF ( itt .GT. maxiterations+20) THEN
                 CALL ipslerr_p(3,'routing_reg_fetch','Problem with computing final fetch','','')
              ENDIF
           ENDIF
        ENDDO
     ENDDO
  ENDDO
  !
  ! Get the largest upstream areas in this core
  !
  nboutflow = 0
  outflow_uparea(:) = zero
  !
  DO ic=1,nbcore
     ig = fcorepts(ic)
     !
     DO ib=1,basin_count(ig)
        !
        ! We do not need any more the river flow flag as we are going to reset it.
        ! We archive the upstream area of all outflow points so that we can sort them.
        !
        IF ( route_tobasin(ig,ib) .GT. nbasmax) THEN
             nboutflow = nboutflow + 1
             IF ( nboutflow <= nbpt*nbasmax) THEN
                outflow_uparea(nboutflow) = fetch_basin(ig,ib)
             ELSE
                ! Not enought place so we replace a smaller one.
                IF (fetch_basin(ig,ib) > MINVAL(outflow_uparea)) THEN
                   ff = MINLOC(outflow_uparea)
                   outflow_uparea(ff(1)) = fetch_basin(ig,ib)
                ELSE
                   ! Ignore basin
                ENDIF
             ENDIF
          ENDIF
          !
     ENDDO
  ENDDO
  !
END SUBROUTINE finalfetch


SUBROUTINE finalrivclass(nbpt, nbasmax, nbcore, corepts, route_togrid, route_tobasin, routing_fetch, largest_rivarea, num_largest)
  !
  USE routing_reg
  !
  INTEGER(i_std), INTENT (in) :: nbpt    !! Domain size (unitless)
  INTEGER(i_std), INTENT (in) :: nbasmax !!
  INTEGER(i_std), INTENT (in) :: nbcore
  INTEGER(i_std), DIMENSION(nbcore), INTENT(in)          :: corepts
  INTEGER(i_std), DIMENSION(nbpt,nbasmax), INTENT(inout) :: route_togrid !! Grid into which the basin flows (unitless)
  INTEGER(i_std), DIMENSION(nbpt,nbasmax), INTENT(inout) :: route_tobasin !! Basin in to which the water goes (unitless)
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  REAL(r_std),    DIMENSION(nbpt,nbasmax), INTENT(inout) :: routing_fetch !! Upstream are flowing into HTU (m^2)
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  REAL(r_std), INTENT(in) :: largest_rivarea
  INTEGER(i_std), INTENT (out) :: num_largest
  !
  ! LOCAL
  INTEGER(i_std) :: i, ib, ig
  INTEGER(i_std), DIMENSION(nbcore)               :: fcorepts
  !
  !
  DO i=1,nbcore
     fcorepts(i) = corepts(i)+1
  ENDDO
  !
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  ! Just a dummy use to avoid f2py warnings
  route_togrid(1,1) = route_togrid(1,1)
  !
839 840 841 842 843 844 845 846 847 848 849 850 851 852 853 854 855 856 857 858
  ! Redo the the distinction between river outflow and coastal flow. We can not
  ! take into account the return flow points.
  !
  num_largest = 0
  DO i = 1, nbcore
     ig = fcorepts(i)
     DO ib = 1, nbasmax
        IF (route_tobasin_glo(ig,ib) .GT. nbasmax) THEN
           IF (routing_fetch(ig,ib) .GE. largest_rivarea ) THEN
              num_largest = num_largest + 1
              route_tobasin_glo(ig,ib) = nbasmax + 3
              route_tobasin(ig,ib) = nbasmax + 3
           ENDIF
        ENDIF
     ENDDO
  ENDDO
  !
  WRITE(numout,*) 'NUMBER OF RIVERS :', COUNT(route_tobasin_glo .GE. nbasmax + 3)
  !
END SUBROUTINE finalrivclass