Пример #1
0
def compose_networks(supernetwork_values=None,
                     terminal_code=0,
                     debuglevel=0,
                     verbose=False,
                     showtiming=False):

    terminal_segments = supernetwork_values[4]
    circular_segments = supernetwork_values[6]
    terminal_segments_super = terminal_segments - circular_segments
    connections = supernetwork_values[0]

    networks = {
        terminal_segment: {}
        for terminal_segment in terminal_segments_super
    }

    if verbose: print('verbose output')
    if verbose:
        print(
            f'number of Independent Networks to be analyzed is {len(networks)}'
        )
    if verbose:
        print(f'Multi-processing will use {multiprocessing.cpu_count()} CPUs')
    if verbose: print(f'debuglevel is {debuglevel}')

    init_order = 0
    for terminal_segment, network in networks.items():
        network.update(
            network_trace(terminal_segment=terminal_segment,
                          order_iter=init_order,
                          connections=connections,
                          terminal_code=terminal_code,
                          verbose=verbose,
                          debuglevel=debuglevel)[terminal_segment])
        up_reaches = networkbuilder.get_up_connections(
            network['reaches'],
            terminal_code,
            network['headwater_reaches'], {network['terminal_reach']},
            r'upstream_reaches',
            r'downstream_reach',
            verbose=verbose,
            debuglevel=debuglevel)

        if debuglevel <= -2:
            if debuglevel <= -2: print(f'terminal_segment: {terminal_segment}')
            if debuglevel <= -3:
                for k, v in network.items():
                    if type(v) is dict:
                        print(f'{k}:')
                        for k1, v1 in v.items():
                            print(f'\t{k1}: {v1}')
                    else:
                        print(f'{k}: {v}')
    if debuglevel <= -1:
        print(
            f'Number of networks in the Supernetwork: {len(networks.items())}')

    return networks
Пример #2
0
def do_network(geofile_path=None,
               title_string=None,
               layer_string=None,
               driver_string=None,
               key_col=None,
               downstream_col=None,
               length_col=None,
               terminal_code=None,
               verbose=False,
               debuglevel=0):

    # NOTE: these methods can lose the "connections" and "rows" arguments when
    # implemented as class methods where those arrays are members of the class.
    if verbose: print(title_string)
    if debuglevel <= -1:
        print(
            f'reading -- dataset: {geofile_path}; layer: {layer_string}; fiona driver: {driver_string}'
        )
    geofile = gpd.read_file(geofile_path,
                            driver=driver_string,
                            layer=layer_string)
    if debuglevel <= -1: print(geofile.head())
    geofile_rows = geofile.to_numpy()
    if debuglevel <= -1: geofile.plot()
    # Kick off recursive call for all connections and keys
    (connections) = networkbuilder.get_down_connections(
        rows=geofile_rows,
        key_col=key_col,
        downstream_col=downstream_col,
        length_col=length_col,
        verbose=verbose,
        debuglevel=debuglevel)

    (all_keys, ref_keys, headwater_keys, terminal_keys, terminal_ref_keys,
     circular_keys) = networkbuilder.determine_keys(
         connections=connections,
         key_col=key_col,
         downstream_col=downstream_col,
         terminal_code=terminal_code,
         verbose=verbose,
         debuglevel=debuglevel)

    (junction_keys) = networkbuilder.get_up_connections(
        connections=connections,
        terminal_code=terminal_code,
        headwater_keys=headwater_keys,
        terminal_keys=terminal_keys,
        verbose=verbose,
        debuglevel=debuglevel)
    return connections, all_keys, ref_keys, headwater_keys \
        , terminal_keys, terminal_ref_keys \
        , circular_keys, junction_keys
Пример #3
0
def build_connections_object(geo_file_rows=None,
                             mask_set=None,
                             key_col=None,
                             downstream_col=None,
                             length_col=None,
                             terminal_code=None,
                             verbose=False,
                             debuglevel=0):
    (connections) = networkbuilder.get_down_connections(
        rows=geo_file_rows,
        mask_set=mask_set,
        key_col=key_col,
        downstream_col=downstream_col,
        length_col=length_col,
        verbose=verbose,
        debuglevel=debuglevel)

    (all_keys, ref_keys, headwater_keys, terminal_keys, terminal_ref_keys,
     circular_keys) = networkbuilder.determine_keys(
         connections=connections,
         key_col=key_col,
         downstream_col=downstream_col,
         terminal_code=terminal_code,
         verbose=verbose,
         debuglevel=debuglevel)

    (junction_keys, visited_keys, visited_terminal_keys,
     junction_count) = networkbuilder.get_up_connections(
         connections=connections,
         terminal_code=terminal_code,
         headwater_keys=headwater_keys,
         terminal_keys=terminal_keys,
         verbose=verbose,
         debuglevel=debuglevel)
    return connections, all_keys, ref_keys, headwater_keys \
        , terminal_keys, terminal_ref_keys \
        , circular_keys, junction_keys \
        , visited_keys, visited_terminal_keys \
        , junction_count
Пример #4
0
def build_connections_object(
    geo_file_rows=None,
    mask_set=None,
    key_col=None,
    downstream_col=None,
    length_col=None,
    terminal_code=None,
    waterbody_col=None,
    waterbody_null_code=None,
    verbose=False,
    debuglevel=0,
):
    (connections) = networkbuilder.get_down_connections(
        rows=geo_file_rows,
        mask_set=mask_set,
        key_col=key_col,
        downstream_col=downstream_col,
        length_col=length_col,
        verbose=verbose,
        debuglevel=debuglevel,
    )

    (
        all_keys,
        ref_keys,
        headwater_keys,
        terminal_keys,
        terminal_ref_keys,
        circular_keys,
    ) = networkbuilder.determine_keys(
        connections=connections
        # , key_col = key_col
        # , downstream_col = downstream_col
        ,
        terminal_code=terminal_code,
        verbose=verbose,
        debuglevel=debuglevel,
    )

    (
        junction_keys,
        confluence_segment_set,
        visited_keys,
        visited_terminal_keys,
        junction_count,
    ) = networkbuilder.get_up_connections(
        connections=connections,
        terminal_code=terminal_code,
        headwater_keys=headwater_keys,
        terminal_keys=terminal_keys,
        verbose=verbose,
        debuglevel=debuglevel,
    )

    waterbody_dict = None
    waterbody_segments = None
    waterbody_outlet_set = None
    waterbody_upstreams_set = None
    waterbody_downstream_set = None

    # TODO: Set/pass/identify a proper flag value
    if waterbody_col is not None:
        (
            waterbody_dict,
            waterbody_segments,
            waterbody_outlet_set,
            waterbody_upstreams_set,
            waterbody_downstream_set,
        ) = networkbuilder.get_waterbody_segments(
            connections=connections,
            terminal_code=terminal_code,
            waterbody_col=waterbody_col,
            waterbody_null_code=waterbody_null_code,
            verbose=verbose,
            debuglevel=debuglevel
            # , debuglevel = -3
        )

    # TODO: change names to reflect type set or dict
    return (
        connections,
        all_keys,
        ref_keys,
        headwater_keys,
        terminal_keys,
        terminal_ref_keys,
        circular_keys,
        junction_keys,
        visited_keys,
        visited_terminal_keys,
        junction_count,
        confluence_segment_set,
        waterbody_dict,
        waterbody_segments,
        waterbody_outlet_set,
        waterbody_upstreams_set,
        waterbody_downstream_set,
    )
Пример #5
0
        debuglevel=debuglevel)

    (test_all_keys, test_ref_keys, test_headwater_keys, test_terminal_keys,
     test_terminal_ref_keys,
     test_circular_keys) = networkbuilder.determine_keys(
         connections=test_connections,
         key_col=test_key_col,
         downstream_col=test_downstream_col,
         terminal_code=test_terminal_code,
         verbose=True,
         debuglevel=debuglevel)

    test_junction_keys = networkbuilder.get_up_connections(
        connections=test_connections,
        terminal_code=test_terminal_code,
        headwater_keys=test_headwater_keys,
        terminal_keys=test_terminal_keys,
        verbose=True,
        debuglevel=debuglevel)

    recursive_print.print_connections(headwater_keys=test_headwater_keys,
                                      down_connections=test_connections,
                                      up_connections=test_connections,
                                      terminal_code=test_terminal_code,
                                      terminal_keys=test_terminal_keys,
                                      terminal_ref_keys=test_terminal_ref_keys,
                                      debuglevel=debuglevel)

    recursive_print.print_basic_network_info(
        connections=test_connections,
        headwater_keys=test_headwater_keys,
Пример #6
0
def compose_networks(
    supernetwork_values=None,
    terminal_code=0,
    break_network_at_waterbodies=False,
    debuglevel=0,
    verbose=False,
    showtiming=False,
):

    terminal_segments = supernetwork_values[4]
    circular_segments = supernetwork_values[6]
    confluence_segment_set = supernetwork_values[11]
    terminal_segments_super = terminal_segments - circular_segments
    waterbody_outlet_set = supernetwork_values[14]
    waterbody_upstreams_set = supernetwork_values[15]
    waterbody_breaking_segments = set()
    if break_network_at_waterbodies:
        waterbody_breaking_segments = waterbody_outlet_set.union(
            waterbody_upstreams_set)
        terminal_segments_super = terminal_segments_super.union(
            waterbody_breaking_segments)
    connections = supernetwork_values[0]

    networks = {
        terminal_segment: {}
        for terminal_segment in terminal_segments_super
    }

    if verbose:
        print("verbose output")
    if verbose:
        print(
            f"number of Independent Networks to be analyzed is {len(networks)}"
        )
    if verbose:
        print(f"debuglevel is {debuglevel}")

    init_order = 0
    for terminal_segment, network in networks.items():
        network.update(
            network_trace(
                terminal_segment=terminal_segment,
                order_iter=init_order,
                connections=connections,
                terminal_code=terminal_code,
                reach_breaking_segments=confluence_segment_set,
                network_breaking_segments=waterbody_breaking_segments,
                verbose=verbose,
                debuglevel=debuglevel,
            )[terminal_segment])

        upstream_reaches = network["headwater_reaches"]
        if break_network_at_waterbodies:
            upstream_reaches = upstream_reaches | network["receiving_reaches"]

        up_reaches = networkbuilder.get_up_connections(
            network["reaches"],
            terminal_code,
            upstream_reaches,
            {network["terminal_reach"]},
            r"upstream_reaches",
            r"downstream_reach",
            verbose=False
            # , verbose = verbose
            ,
            debuglevel=debuglevel,
        )

        if debuglevel <= -2:
            if debuglevel <= -2:
                print(f"terminal_segment: {terminal_segment}")
            if debuglevel <= -3:
                for k, v in network.items():
                    if type(v) is dict:
                        print(f"{k}:")
                        for k1, v1 in v.items():
                            print(f"\t{k1}: {v1}")
                    else:
                        print(f"{k}: {v}")
    if debuglevel <= -1:
        print(
            f"Number of networks in the Supernetwork: {len(networks.items())}")

    return networks