MODULE read_all_data ! USE netcdf IMPLICIT NONE ! ! CONTAINS !**************************************************************************************** SUBROUTINE read_dimgrid (nlon,nlat,data_filename,cl_grd,w_unit,FILE_Debug) !************************************************************************************** USE netcdf IMPLICIT NONE ! INTEGER :: i,j,k,w_unit,FILE_Debug ! INTEGER :: il_file_id,il_grid_id,il_lon_id, & il_lat_id,il_indice_id, & lon_dims,lat_dims,imask_dims ! INTEGER, DIMENSION(NF90_MAX_VAR_DIMS) :: lon_dims_ids,lat_dims_ids,& imask_dims_ids,lon_dims_len,& lat_dims_len,imask_dims_len ! INTEGER, INTENT(out) :: nlon,nlat ! CHARACTER(len=30) :: data_filename CHARACTER(len=4) :: cl_grd ! name of the source grid CHARACTER(len=8) :: cl_nam ! cl_grd+.lon,+.lat ... ! IF (FILE_Debug >= 2) THEN WRITE(w_unit,*) 'Data_filename :',data_filename CALL FLUSH(w_unit) ENDIF ! ! Dimensions ! CALL hdlerr(NF90_OPEN(data_filename, NF90_NOWRITE, il_file_id), __LINE__ ) ! cl_nam=cl_grd//".lon" IF (FILE_Debug >= 2) THEN WRITE(w_unit,*) 'Longitudes :',cl_nam CALL FLUSH(w_unit) ENDIF CALL hdlerr( NF90_INQ_VARID(il_file_id, cl_nam, il_lon_id), __LINE__ ) cl_nam=cl_grd//".lat" IF (FILE_Debug >= 2) THEN WRITE(w_unit,*) 'Latitudes :',cl_nam CALL FLUSH(w_unit) ENDIF CALL hdlerr( NF90_INQ_VARID(il_file_id, cl_nam, il_lat_id), __LINE__ ) CALL hdlerr( NF90_INQUIRE_VARIABLE(il_file_id, varid=il_lon_id, ndims=lon_dims, dimids=lon_dims_ids), __LINE__ ) ! ! The value lon_dims_len(i) is obtained thanks to the lon_dims_ids ID already obtained from the file DO i=1,lon_dims CALL hdlerr( NF90_INQUIRE_DIMENSION(ncid=il_file_id,dimid=lon_dims_ids(i),len=lon_dims_len(i)), __LINE__ ) ENDDO ! nlon=lon_dims_len(1) nlat=lon_dims_len(2) !++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ ! CALL hdlerr( NF90_INQUIRE_VARIABLE(ncid=il_file_id, varid=il_lat_id, ndims=lat_dims, dimids=lat_dims_ids), __LINE__ ) ! ! The value lat_dims_len(i) is obtained thanks to the lat_dims_ids ID already obtained from the file DO i=1,lat_dims CALL hdlerr( NF90_INQUIRE_DIMENSION(ncid=il_file_id,dimid=lat_dims_ids(i),len=lat_dims_len(i)), __LINE__ ) ENDDO ! IF ( (lat_dims_len(1) .NE. lon_dims_len(1)).OR.(lat_dims_len(2) .NE. lon_dims_len(2)) ) THEN WRITE(w_unit,*) 'Problem model1 in read_dimgrid' WRITE(w_unit,*) 'Dimensions of the latitude are not the same as the ones of the longitude' CALL flush(w_unit) STOP ENDIF ! CALL hdlerr(NF90_CLOSE(il_file_id), __LINE__ ) ! IF (FILE_Debug >= 2) THEN WRITE(w_unit,*) 'Reading input file ',data_filename WRITE(w_unit,*) 'Global dimensions nlon=',nlon,' nlat=',nlat CALL FLUSH(w_unit) ENDIF ! ! END SUBROUTINE read_dimgrid !**************************************************************************************** SUBROUTINE read_grid (nlon,nlat,& data_filename, cl_grd, w_unit, FILE_Debug, & gridlon,gridlat) !************************************************************************************** ! #ifdef NO_USE_DOUBLE_PRECISION INTEGER, PARAMETER :: wp = SELECTED_REAL_KIND(6,37) ! real #elif defined USE_DOUBLE_PRECISION INTEGER, PARAMETER :: wp = SELECTED_REAL_KIND(12,307) ! double #endif ! INTEGER :: i,j,k,w_unit,FILE_Debug ! INTEGER :: il_file_id,il_lon_id, il_lat_id ! INTEGER, INTENT(in) :: nlon,nlat ! CHARACTER(len=30) :: data_filename CHARACTER(len=4) :: cl_grd ! name of the source grid CHARACTER(len=8) :: cl_nam ! cl_grd+.lon,+.lat ... ! INTEGER, DIMENSION(2) :: ila_dim INTEGER, DIMENSION(2) :: ila_what ! REAL (kind=wp), DIMENSION(nlon,nlat) :: gridlon,gridlat ! ! IF (FILE_Debug >= 2) THEN WRITE(w_unit,*) 'Data_filename :',data_filename CALL FLUSH(w_unit) ENDIF ! ! Dimensions ! CALL hdlerr(NF90_OPEN(data_filename, NF90_NOWRITE, il_file_id), __LINE__ ) ! cl_nam=cl_grd//".lon" IF (FILE_Debug >= 2) THEN WRITE(w_unit,*) 'Longitudes :',cl_nam CALL FLUSH(w_unit) ENDIF CALL hdlerr( NF90_INQ_VARID(il_file_id, cl_nam, il_lon_id), __LINE__ ) cl_nam=cl_grd//".lat" IF (FILE_Debug >= 2) THEN WRITE(w_unit,*) 'Latitudes :',cl_nam CALL FLUSH(w_unit) ENDIF CALL hdlerr( NF90_INQ_VARID(il_file_id, cl_nam, il_lat_id), __LINE__ ) ! ila_what(:)=1 ! ila_dim(1)=nlon ila_dim(2)=nlat ! ! Data ! ! CALL hdlerr( NF90_GET_VAR (il_file_id, il_lon_id, gridlon, & ila_what, ila_dim), __LINE__ ) IF (FILE_Debug >= 2) THEN WRITE(w_unit,*) 'Global grid longitudes reading done' CALL FLUSH(w_unit) ENDIF ! CALL hdlerr( NF90_GET_VAR (il_file_id, il_lat_id, gridlat, & ila_what, ila_dim), __LINE__ ) IF (FILE_Debug >= 2) THEN WRITE(w_unit,*) 'Global grid latitudes reading done' CALL FLUSH(w_unit) ENDIF ! ! CALL hdlerr( NF90_CLOSE(il_file_id), __LINE__ ) ! IF (FILE_Debug >= 2) THEN WRITE(w_unit,*) 'End of routine read_grid' CALL FLUSH(w_unit) ENDIF ! END SUBROUTINE read_grid !**************************************************************************************** SUBROUTINE read_mask (nlon, nlat, & data_filename, cl_grd, w_unit, FILE_Debug, & indice_mask) !************************************************************************************** ! INTEGER :: i,j,k,w_unit,FILE_Debug ! INTEGER :: il_file_id, il_indice_id ! INTEGER, INTENT(in) :: nlon,nlat ! CHARACTER(len=30) :: data_filename CHARACTER(len=4) :: cl_grd ! name of the source grid CHARACTER(len=8) :: cl_nam ! cl_grd+.lon,+.lat ... ! INTEGER, DIMENSION(2) :: ila_dim INTEGER, DIMENSION(2) :: ila_what ! INTEGER, DIMENSION(nlon,nlat) :: indice_mask ! ! ! Dimensions ! CALL hdlerr(NF90_OPEN(data_filename, NF90_NOWRITE, il_file_id), __LINE__ ) ! cl_nam=cl_grd//".msk" CALL hdlerr( NF90_INQ_VARID(il_file_id, cl_nam, il_indice_id), __LINE__ ) ! ila_what(:)=1 ! ila_dim(1)=nlon ila_dim(2)=nlat ! ! Data ! CALL hdlerr( NF90_GET_VAR (il_file_id, il_indice_id, indice_mask, & ila_what, ila_dim), __LINE__ ) IF (FILE_Debug >= 2) THEN WRITE(w_unit,*) 'Global grid mask reading done' CALL FLUSH(w_unit) ENDIF ! CALL hdlerr( NF90_CLOSE(il_file_id), __LINE__ ) ! IF (FILE_Debug >= 2) THEN WRITE(w_unit,*) 'End of routine read_mask' CALL FLUSH(w_unit) ENDIF ! END SUBROUTINE read_mask !**************************************************************************************** SUBROUTINE read_area (nlon,nlat, & data_filename, cl_grd, w_unit, FILE_Debug, & gridsrf) !**************************************************************************************** ! #ifdef NO_USE_DOUBLE_PRECISION INTEGER, PARAMETER :: wp = SELECTED_REAL_KIND(6,37) ! real #elif defined USE_DOUBLE_PRECISION INTEGER, PARAMETER :: wp = SELECTED_REAL_KIND(12,307) ! double #endif ! INTEGER :: i,j,k,w_unit,FILE_Debug ! INTEGER :: il_file_id, il_srf_id ! INTEGER, INTENT(in) :: nlon,nlat ! CHARACTER(len=30) :: data_filename CHARACTER(len=4) :: cl_grd ! name of the source grid CHARACTER(len=8) :: cl_nam ! cl_grd+.lon,+.lat ... ! INTEGER, DIMENSION(2) :: ila_dim INTEGER, DIMENSION(2) :: ila_what ! REAL (kind=wp), DIMENSION(nlon,nlat) :: gridsrf ! ! ! Dimensions ! CALL hdlerr(NF90_OPEN(data_filename, NF90_NOWRITE, il_file_id), __LINE__ ) ! cl_nam=cl_grd//".srf" CALL hdlerr( NF90_INQ_VARID(il_file_id, cl_nam, il_srf_id), __LINE__ ) ! ila_what(:)=1 ! ila_dim(1)=nlon ila_dim(2)=nlat ! ! Data ! CALL hdlerr( NF90_GET_VAR (il_file_id, il_srf_id, gridsrf, & ila_what, ila_dim), __LINE__ ) IF (FILE_Debug >= 2) THEN WRITE(w_unit,*) 'Global grid mask reading done' CALL FLUSH(w_unit) ENDIF ! CALL hdlerr( NF90_CLOSE(il_file_id), __LINE__ ) ! IF (FILE_Debug >= 2) THEN WRITE(w_unit,*) 'End of routine read_mask' CALL FLUSH(w_unit) ENDIF ! END SUBROUTINE read_area !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! END MODULE read_all_data