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- module m_get_mod_grid
- ! The reading of depths is not needed for assimilation of sea-ice data
- ! but left here for potential future use. And to retain the calling format.
- use netcdf
- #if defined (QMPI)
- use qmpi
- #else
- use qmpi_fake
- #endif
- private handle_err
- contains
- subroutine get_mod_grid(modlon,modlat,depths,mindx,meandx,nx,ny)
- implicit none
- ! In/out
- integer, intent(in) :: nx,ny ! 182, resp. 149
- real, dimension(nx,ny), intent(out) :: modlon, modlat, depths
- real, intent(out) :: mindx, meandx
- ! NetCDF vars
- integer ncid, varID, error, ncid_mask, ncid_zgr
- character(len=80), parameter :: maskfile = 'mask.nc' !hc!
- character(len=80), parameter :: meshfile_hgr = 'mesh_hgr.nc' !hc!
- character(len=80), parameter :: meshfile_zgr = 'mesh_zgr.nc' !hc!
-
- logical ex
- ! Variables for mindx ! uncomment whatever is needed
- real, allocatable, dimension(:,:) :: e1t, e2t!, e1u, e2u, e1v, e2v, e1f, e2f
- real, allocatable, dimension(:,:) :: tmask!, umask, vmask, fmask
- ! check the netCDF file exists
- inquire(file=meshfile_hgr, exist=ex)
- if (.not.ex) then
- if (master) print *, '(get_mod_grid): file does not exist: '//trim(meshfile_hgr)
- call stop_mpi()
- end if
- ! open the netCDF file
- error = nf90_open(trim(maskfile),nf90_NoWrite,ncid_mask)
- if (error.ne.nf90_noerr) call handle_err(error, "opening")
- error = nf90_open(trim(meshfile_hgr),nf90_NoWrite,ncid)
- if (error.ne.nf90_noerr) call handle_err(error, "opening")
- error = nf90_open(trim(meshfile_zgr),nf90_NoWrite,ncid_zgr)
- if (error.ne.nf90_noerr) call handle_err(error, "opening")
- ! Longitude
- ! Find VarID
- !in NEMO mesh grid, lon and lat = GLAMT and GPHIT
- !error = nf90_inq_varid(ncid, 'nav_lon', varID)
- error = nf90_inq_varid(ncid, 'glamt', varID)
- if (error.ne.nf90_noerr) call handle_err(error, "inquiring varID modlon")
- ! Get values of variable
- error = nf90_get_var(ncid, varID, modlon)
- if (error.ne.nf90_noerr) call handle_err(error, "getting variable modlon")
- ! Latitude
- ! Find VarID
- !in NEMO mesh grid, lon and lat = GLAMT and GPHIT
- ! error = nf90_inq_varid(ncid, 'nav_lat', varID)
- error = nf90_inq_varid(ncid, 'gphit', varID)
- if (error.ne.nf90_noerr) call handle_err(error, "inquiring varID modlat")
- ! Get values of variable
- error = nf90_get_var(ncid, varID, modlat)
- if (error.ne.nf90_noerr) call handle_err(error, "getting variable modlat")
- ! Depths:
- ! Find VarID
- error = nf90_inq_varid(ncid_zgr, 'gdept_0', varID)
- if (error.ne.nf90_noerr) call handle_err(error, "inquiring varID depths")
- ! Get values of variable
- error = nf90_get_var(ncid_zgr, varID, depths)
- if (error.ne.nf90_noerr) call handle_err(error, "getting variable depths")
- ! mindx: Smallest horizontal grid spacing. Requires some 'math'.
- ! Load grid spacing and corresponding masks
- allocate( e1t(nx,ny), e2t(nx,ny) )
- !allocate( e1u(nx,ny), e2u(nx,ny) ) ! In case those variables are ...
- !allocate( e1v(nx,ny), e2v(nx,ny) ) ! ... needed, feel free ...
- !allocate( e1f(nx,ny), e2f(nx,ny) ) ! ... to uncomment.
- allocate( tmask(nx,ny) ) ! umask(nx,ny), vmask(nx,ny), fmask(nx,ny)
- ! Get e1t, e1u, e1v, e1f, e2t, e2u, e2v, and e2f
- error = nf90_inq_varid(ncid, 'e1t', varID) ; if (error.ne.nf90_noerr) call handle_err(error, "inquiring varID")
- error = nf90_get_var(ncid, varID, e1t) ; if (error.ne.nf90_noerr) call handle_err(error, "getting variable")
- error = nf90_inq_varid(ncid, 'e2t', varID) ; if (error.ne.nf90_noerr) call handle_err(error, "inquiring varID")
- error = nf90_get_var(ncid, varID, e2t) ; if (error.ne.nf90_noerr) call handle_err(error, "getting variable")
- !error = nf90_inq_varid(ncid, 'e1u', varID) ; if (error.ne.nf90_noerr) call handle_err(error, "inquiring varID")
- !error = nf90_get_var(ncid, varID, e1u) ; if (error.ne.nf90_noerr) call handle_err(error, "getting variable")
- !error = nf90_inq_varid(ncid, 'e2u', varID) ; if (error.ne.nf90_noerr) call handle_err(error, "inquiring varID")
- !error = nf90_get_var(ncid, varID, e2u) ; if (error.ne.nf90_noerr) call handle_err(error, "getting variable")
- !error = nf90_inq_varid(ncid, 'e1v', varID) ; if (error.ne.nf90_noerr) call handle_err(error, "inquiring varID")
- !error = nf90_get_var(ncid, varID, e1v) ; if (error.ne.nf90_noerr) call handle_err(error, "getting variable")
- !error = nf90_inq_varid(ncid, 'e2v', varID) ; if (error.ne.nf90_noerr) call handle_err(error, "inquiring varID")
- !error = nf90_get_var(ncid, varID, e2v) ; if (error.ne.nf90_noerr) call handle_err(error, "getting variable")
- !error = nf90_inq_varid(ncid, 'e1f', varID) ; if (error.ne.nf90_noerr) call handle_err(error, "inquiring varID")
- !error = nf90_get_var(ncid, varID, e1f) ; if (error.ne.nf90_noerr) call handle_err(error, "getting variable")
- !error = nf90_inq_varid(ncid, 'e2f', varID) ; if (error.ne.nf90_noerr) call handle_err(error, "inquiring varID")
- !error = nf90_get_var(ncid, varID, e2f) ; if (error.ne.nf90_noerr) call handle_err(error, "getting variable")
- ! Get tmask, umask, vmask, fmask !!! only first level of 3d-nc-var fits into local var. It's all we need.
- error = nf90_inq_varid(ncid_mask, 'tmask', varID) ; if (error.ne.nf90_noerr) call handle_err(error, "inquiring varID")
- error = nf90_get_var(ncid_mask, varID, tmask) ; if (error.ne.nf90_noerr) call handle_err(error, "getting variable")
- !error = nf90_inq_varid(ncid, 'umask', varID) ; if (error.ne.nf90_noerr) call handle_err(error, "inquiring varID")
- !error = nf90_get_var(ncid, varID, umask) ; if (error.ne.nf90_noerr) call handle_err(error, "getting variable")
- !error = nf90_inq_varid(ncid, 'vmask', varID) ; if (error.ne.nf90_noerr) call handle_err(error, "inquiring varID")
- !error = nf90_get_var(ncid, varID, vmask) ; if (error.ne.nf90_noerr) call handle_err(error, "getting variable")
- !error = nf90_inq_varid(ncid, 'fmask', varID) ; if (error.ne.nf90_noerr) call handle_err(error, "inquiring varID")
- !error = nf90_get_var(ncid, varID, fmask) ; if (error.ne.nf90_noerr) call handle_err(error, "getting variable")
- ! Smart use of min/maxval
- ! Find absolute minimum
- mindx = min(minval(e1t, tmask>0.5), minval(e2t, tmask>0.5))!, &
- ! minval(e1u, umask>0.5), minval(e2u, umask>0.5), &
- ! minval(e1v, vmask>0.5), minval(e2v, vmask>0.5), &
- ! minval(e1f, fmask>0.5), minval(e2f, fmask>0.5) )
- if (master) then
- print *,'(get_mod_grid) MINIMUM grid size from mesh_mask : ', mindx
- end if
- ! Find mean horizontal distance
- meandx = (sum(e1t,mask=tmask>0.5) + sum(e2t,mask=tmask>0.5) ) &
- / count(tmask>0.5)
- if (master) then
- print *,'(get_mod_grid) MEAN grid size from mesh_mask: ', meandx
- end if
- ! Safety check .. inherited from KAL
- if (mindx<2000.) then
- if (master) print *,'(get_mod_grid) min grid size lower than safety threshold - fix if you want'
- call stop_mpi()
- end if
- ! Safety check .. This one is not that critical so the value is set high
- if (mindx>500000.) then
- if (master) print *,'(get_mod_grid) min grid size higher than safety threshold - fix if you want'
- call stop_mpi()
- end if
- ! Close file
- error = nf90_close(ncid) ! close netCDF dataset
- if (error.ne.nf90_noerr) call handle_err(error, "closing")
- error = nf90_close(ncid_mask) ! close netCDF dataset
- if (error.ne.nf90_noerr) call handle_err(error, "closing")
- error = nf90_close(ncid_zgr) ! close netCDF dataset
- if (error.ne.nf90_noerr) call handle_err(error, "closing")
- end subroutine get_mod_grid
- subroutine handle_err(status, infomsg)
- integer, intent ( in) :: status
- character(len = *), intent ( in), optional :: infomsg
- if(status /= nf90_noerr) then
- if (master) then
- if (present(infomsg)) then
- print *, 'Error while '//infomsg//' - '//trim(nf90_strerror(status))
- else
- print *, trim(nf90_strerror(status))
- endif ! opt arg
- print *,'(get_mod_grid)'
- endif ! only master outputs
- call stop_mpi()
- end if ! check error status
- end subroutine handle_err
- end module m_get_mod_grid
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