Example #1
0
def hillslopes(shed_shp, streams, out_dir):
    wbt=WhiteboxTools()
    ensure_dir()
    dem=os.path.join(out_dir, 'H2O_shed_DEM.tif')
    pit_filled=os.path.join(out_dir, 'pit_filled_dem.tif')
    pointer=os.path.join(out_dir, 'pointer.tif')
    streams_path=os.path.join(scratch_dir, 'streams_partial.tif')
    hillslope_path=os.path.join(out_dir, 'hillslopes.tif')
    ensure_dir()
    wbt.breach_depressions(dem, pit_filled)
    ensure_dir()
    wbt.d8_pointer(pit_filled, pointer)
    watershed_streams(shed_shp, streams, out_dir)
    ensure_dir()
    hiilslope_shp=os.path.join(out_dir, 'hillslopes.shp')
    
    
    assert same_raster_extents(pointer, streams_path)
    
    
    wbt.hillslopes(pointer, streams_path, hillslope_path)
    hillslope_gdf=polygonize(hillslope_path, mask=None)
    hillslope_gdf=hillslope[hillslope_gdf.geometry.area>20]
    hillslope_gdf.to_file(hillslope_path)
    
    d_inf_pointer=os.path.join(out_dir, 'd_inf.tif')
    slope_path=os.path.join(out_dir, 'slope.tif')
    wbt.d_inf_pointer(pit_filled,  d_inf_pointer)
    wbt.slope(pit_filled, output)
    wbt.clip(hillslope_shp, os.path.join(out_dir, 'buffers.shp',), hillslope_shp )
    hillslope_gdf=gpd.read_file(hillslope_shp)
    
    for raster in [pit_filled, slope_path, d_inf_pointer]:
        wbt.clip_raster_to_polygon(i, polygons, output)
Example #2
0
def geoprocess(fps, HUC12_code):
    '''Run all the wbt processes for the watershed.
    Used for running processes in multiple threads.
    '''
    start = time.perf_counter()
    loc_fps = set_local_fps(fps, HUC12_code)
    if os.path.exists(loc_fps['RKLS']):
        return
    wbt = WhiteboxTools()

    #make shapefile of local lakes
    wbt.clip(loc_fps['waterbodies'], loc_fps['wshed_bounds'],
             loc_fps['wshed_lakes'])
    if os.path.exists(loc_fps['wshed_lakes']):
        lakes = gpd.read_file(loc_fps['wshed_lakes'])
        lakes['geometry'] = lakes.geometry.buffer(-1)
        lakes.to_file(loc_fps['wshed_lakes'])
        #erase lakes from the dem, for processing.
        wbt.erase_polygon_from_raster(loc_fps['dem'], loc_fps['wshed_lakes'],
                                      loc_fps['dem'])

    #prep_rasters_for_ls(loc_fps, wbt)

    #hydro-enforce the dem in two steps
    wbt.breach_single_cell_pits(loc_fps['dem'], loc_fps['pit_filled'])

    wbt.breach_depressions_least_cost(loc_fps['pit_filled'],
                                      loc_fps['pit_filled'],
                                      1000,
                                      fill=True,
                                      max_cost=100)

    wbt.high_pass_filter(loc_fps['pit_filled'], loc_fps['high_pass'], 50, 50)

    wbt.d_inf_pointer(loc_fps['pit_filled'], loc_fps['pointer'])  #make pointer
    wbt.d_inf_flow_accumulation(loc_fps['pointer'],
                                loc_fps['sca_full'],
                                pntr=True)  #calc sca

    wbt.slope(loc_fps['pit_filled'], loc_fps['slope'])  #calculate slope raster

    wbt.clip_raster_to_polygon(loc_fps['sca_full'],
                               loc_fps['buffers'],
                               loc_fps['sca'],
                               maintain_dimensions=True)

    #make k-factor raster
    Feature_to_Raster(loc_fps['soils'],
                      loc_fps['K_factors'],
                      snap_raster=loc_fps['slope'],
                      field_name='K_factor',
                      NoData_value=-9999,
                      data_type=gdal.GDT_Float32)

    #make subset of the R factor raster
    wbt.clip_raster_to_polygon(
        os.path.join(main_dir, 'intermediate_data', 'r_factor.tif'),
        loc_fps['wshed_bounds'], loc_fps['R'])

    ditch_detection(loc_fps, -.25, 5000)
    stop = time.perf_counter()
    minutes = (stop - start) / 60
    with open(os.path.join(main_dir, 'intermediate_data', 'raster_log.txt'),
              'a+') as f:
        f.write(f'watershed {HUC12_code} time to perform: {stop-start/60}')
        f.write('\n')