def write_ecoflow_file_drainageareashp(file_list, dir_name, file_name, label_field, query_field): """ Write a csv file containing a label (basin id number) and its corresponding area. Two methods to get the area from each respective shapefile: 1. if shapefile(s) has an area field and user specifies it in user_settings.py under the *basin_shapefile_area_field* variable then get the area for each basin using the specified area field name (query_field) 2. if shapefile(s) do not have an area field or user does not specify is in user_settings.py, then calculate it using osgeo and label each basin according to *basin_shapefile_id_field* in user_settings.py Parameters ---------- file_list : list List of files to process; files are shapefiles settings : dictionary Dictionary of user settings label_field : string String name of an id field (basin id number) to associate with a basin query_field : string String name of an area field Notes ----- Uses settings set in user_settings.py """ for f in file_list: filedir, filename = helpers.get_file_info(f) ecoflow_dir = helpers.make_directory(path=filedir, directory_name=dir_name) waterapputils_logging.initialize_loggers(output_dir=ecoflow_dir) helpers.print_input_output_info( input_dict={"input_file": f}, output_dict={"output_directory": ecoflow_dir}) basin_shapefile = osgeo.ogr.Open(f) # get the areas for each region areas = spatialvectors.get_areas_dict(shapefile=basin_shapefile, id_field=label_field, query_field=query_field) # write timeseries of dishcarge + water use for ecoflow program watertxt.write_drainagearea_file(area_data=areas, save_path=ecoflow_dir, filename=file_name) waterapputils_logging.remove_loggers()
def write_ecoflow_file_drainageareashp(file_list, dir_name, file_name, label_field, query_field): """ Write a csv file containing a label (basin id number) and its corresponding area. Two methods to get the area from each respective shapefile: 1. if shapefile(s) has an area field and user specifies it in user_settings.py under the *basin_shapefile_area_field* variable then get the area for each basin using the specified area field name (query_field) 2. if shapefile(s) do not have an area field or user does not specify is in user_settings.py, then calculate it using osgeo and label each basin according to *basin_shapefile_id_field* in user_settings.py Parameters ---------- file_list : list List of files to process; files are shapefiles settings : dictionary Dictionary of user settings label_field : string String name of an id field (basin id number) to associate with a basin query_field : string String name of an area field Notes ----- Uses settings set in user_settings.py """ for f in file_list: filedir, filename = helpers.get_file_info(f) ecoflow_dir = helpers.make_directory(path = filedir, directory_name = dir_name) waterapputils_logging.initialize_loggers(output_dir = ecoflow_dir) helpers.print_input_output_info(input_dict = {"input_file": f}, output_dict = {"output_directory": ecoflow_dir}) basin_shapefile = osgeo.ogr.Open(f) # get the areas for each region areas = spatialvectors.get_areas_dict(shapefile = basin_shapefile, id_field = label_field, query_field = query_field) # write timeseries of dishcarge + water use for ecoflow program watertxt.write_drainagearea_file(area_data = areas, save_path = ecoflow_dir, filename = file_name) waterapputils_logging.remove_loggers()
def apply_wateruse(settings): """ Apply water use data to WATER.txt file(s). Parameters ---------- settings : dictionary Dictionary of user settings Notes ----- Uses settings set in user_settings.py """ # create output directories and files info_dir, ecoflow_dir, oasis_dir, info_file = create_output_dirs_files( settings) # initialize error logging in info_dir waterapputils_logging.initialize_loggers(output_dir=info_dir) # write all future print strings to the info_file sys.stdout = open(info_file, "w") # open shapefiles centroids_shapefile = osgeo.ogr.Open( settings["wateruse_centroids_shapefile"]) basin_shapefile = osgeo.ogr.Open( os.path.join(settings["simulation_directory"], settings["basin_shapefile_name"])) # find intersecting points (centroids) based on water basin supplied intersecting_centroids_all = spatialvectors.get_intersected_field_values( intersector=basin_shapefile, intersectee=centroids_shapefile, intersectee_field=settings["wateruse_centroids_shapefile_id_field"], intersector_field=settings["basin_shapefile_id_field"]) intersecting_centroids, nonintersecting_centroids = spatialvectors.validate_field_values( field_values_dict=intersecting_centroids_all) # apply water use if intersecting_centroids: process_intersecting_centroids(intersecting_centroids, settings, ecoflow_dir, oasis_dir) # if no intersecting centroids, then warn the user and ask user to supply the water use points to a text file that will be contained in the info directory with a name specified in the user_settings.py file if nonintersecting_centroids: spatialvectors.write_field_values_file( filepath=info_dir, filename=settings["wateruse_non_intersecting_file_name"], field_values_dict=nonintersecting_centroids) warn_str = "The following basin(s) do not intersect with the water use centroids shapefile:\n {}\n\n centroids shapefile: {}\n basin shapefile: {}\n".format( nonintersecting_centroids, settings["wateruse_centroids_shapefile"], os.path.join(settings["simulation_directory"], settings["basin_shapefile_name"])) instruction_str1 = "Using water use centriod id: 000. This special water use centroid id specifies 0 cubic feet per second water use.\n" instruction_str2 = "Writing the following wateruse non intersecting file that specifies the non intersecting basin(s) with the special water use centroid id:\n {}\n".format( os.path.join(info_dir, settings["wateruse_non_intersecting_file_name"])) instruction_str3 = "To apply water use to the non intersecting basin(s), add centroid(s) ids (newhydroid) (separated by commas) that you would like to use for each non intersecting basin to the wateruse non intersecting file." logging.warn("\n{}\n{}\n{}\n{}\n".format(warn_str, instruction_str1, instruction_str2, instruction_str3)) # apply 0 cfs water use using the special centroid id of 000 sub_intersecting_centroids = spatialvectors.read_field_values_file( filepath=os.path.join( info_dir, settings["wateruse_non_intersecting_file_name"])) # apply the wateruse process_intersecting_centroids(sub_intersecting_centroids, settings, ecoflow_dir, oasis_dir) # get the areas (in square miles) for each region areas = spatialvectors.get_areas_dict( shapefile=basin_shapefile, id_field=settings["basin_shapefile_id_field"], query_field=settings["basin_shapefile_area_field"]) # write the drainage area csv file for ecoflow program watertxt.write_drainagearea_file( area_data=areas, save_path=ecoflow_dir, filename=settings["ecoflow_drainage_area_file_name"]) # create map of study area map_processing.create_simulation_map(settings=settings) # remove error logger waterapputils_logging.remove_loggers()
def apply_wateruse(settings): """ Apply water use data to WATER.txt file(s). Parameters ---------- settings : dictionary Dictionary of user settings Notes ----- Uses settings set in user_settings.py """ # create output directories and files info_dir, ecoflow_dir, oasis_dir, info_file = create_output_dirs_files(settings) # initialize error logging in info_dir waterapputils_logging.initialize_loggers(output_dir = info_dir) # write all future print strings to the info_file sys.stdout = open(info_file, "w") # open shapefiles centroids_shapefile = osgeo.ogr.Open(settings["wateruse_centroids_shapefile"]) basin_shapefile = osgeo.ogr.Open(os.path.join(settings["simulation_directory"], settings["basin_shapefile_name"])) # find intersecting points (centroids) based on water basin supplied intersecting_centroids_all = spatialvectors.get_intersected_field_values(intersector = basin_shapefile, intersectee = centroids_shapefile, intersectee_field = settings["wateruse_centroids_shapefile_id_field"], intersector_field = settings["basin_shapefile_id_field"]) intersecting_centroids, nonintersecting_centroids = spatialvectors.validate_field_values(field_values_dict = intersecting_centroids_all) # apply water use if intersecting_centroids: process_intersecting_centroids(intersecting_centroids, settings, ecoflow_dir, oasis_dir) # if no intersecting centroids, then warn the user and ask user to supply the water use points to a text file that will be contained in the info directory with a name specified in the user_settings.py file if nonintersecting_centroids: spatialvectors.write_field_values_file(filepath = info_dir, filename = settings["wateruse_non_intersecting_file_name"], field_values_dict = nonintersecting_centroids) warn_str = "The following basin(s) do not intersect with the water use centroids shapefile:\n {}\n\n centroids shapefile: {}\n basin shapefile: {}\n".format(nonintersecting_centroids, settings["wateruse_centroids_shapefile"] , os.path.join(settings["simulation_directory"], settings["basin_shapefile_name"])) instruction_str1 = "Using water use centriod id: 000. This special water use centroid id specifies 0 cubic feet per second water use.\n" instruction_str2 = "Writing the following wateruse non intersecting file that specifies the non intersecting basin(s) with the special water use centroid id:\n {}\n".format(os.path.join(info_dir, settings["wateruse_non_intersecting_file_name"])) instruction_str3 = "To apply water use to the non intersecting basin(s), add centroid(s) ids (newhydroid) (separated by commas) that you would like to use for each non intersecting basin to the wateruse non intersecting file." logging.warn("\n{}\n{}\n{}\n{}\n".format(warn_str, instruction_str1, instruction_str2, instruction_str3)) # apply 0 cfs water use using the special centroid id of 000 sub_intersecting_centroids = spatialvectors.read_field_values_file(filepath = os.path.join(info_dir, settings["wateruse_non_intersecting_file_name"])) # apply the wateruse process_intersecting_centroids(sub_intersecting_centroids, settings, ecoflow_dir, oasis_dir) # get the areas (in square miles) for each region areas = spatialvectors.get_areas_dict(shapefile = basin_shapefile, id_field = settings["basin_shapefile_id_field"], query_field = settings["basin_shapefile_area_field"]) # write the drainage area csv file for ecoflow program watertxt.write_drainagearea_file(area_data = areas, save_path = ecoflow_dir, filename = settings["ecoflow_drainage_area_file_name"]) # create map of study area map_processing.create_simulation_map(settings = settings) # remove error logger waterapputils_logging.remove_loggers()