コード例 #1
0
ファイル: osmnxUtils.py プロジェクト: holdUAM/Yeongjong
def get_data(G, district_name):
    # print(nx.info(G))
    print(f'File Path = {PATH}')

    # save as graphml
    path = f'{PATH}/{district_name}.xml'
    ox.save_graphml(G, path)

    # save as .osm
    path = f'{PATH}/{district_name}.osm'
    ox.config(all_oneway=True)
    if not os.path.exists(path):
        ox.save_graph_xml(G, filepath=path)

    # save as folium html
    path = f'{PATH}/{district_name}_folium.html'
    if not os.path.exists(path):
        map_folium = ox.folium.plot_graph_folium(G)
        map_folium.save(path)

    # save as SVG
    path = f'{PATH}/{district_name}_image.svg'
    fig, ax = ox.plot_graph(G,
                            show=False,
                            save=True,
                            close=True,
                            filepath=path)

    # save graph as a shapefile and .csv
    path = f'{PATH}/{district_name}_shape'
    ox.save_graph_shapefile(G, filepath=path)

    make_adjacency_matrix(district_name)
    clean_csv(district_name)
    make_adjacency_required_matrix(district_name)
コード例 #2
0
ファイル: osmnxUtils.py プロジェクト: holdUAM/Yeongjong
def get_data_drone(G, district_name):
    # Graph for Drones
    district_name += '_drone'
    R = 6371e3
    nodes = list(G.nodes.data())

    for i in range(len(nodes)):
        for j in range(len(nodes)):
            if i == j or (G.has_edge(nodes[i][1]['osmid'],
                                     nodes[j][1]['osmid'])):
                continue
            else:
                lon1 = float(nodes[i][1]['x'] * np.pi / 180)
                lat1 = float(nodes[i][1]['y'] * np.pi / 180)
                lon2 = float(nodes[j][1]['x'] * np.pi / 180)
                lat2 = float(nodes[j][1]['y'] * np.pi / 180)
                d_lat = lat2 - lat1
                d_lon = lon2 - lon1
                a = np.sin(d_lat/2) ** 2 + np.cos(lat1) * \
                    np.cos(lat2) * np.sin(d_lon/2) ** 2
                c = 2 * np.arctan2(a**0.5, (1 - a)**0.5)
                d = R * c
                d = round(d, 3)
                G.add_edge(nodes[i][1]['osmid'],
                           nodes[j][1]['osmid'],
                           length=d)

    # save as graphml
    path = f'{PATH}/{district_name}.xml'
    ox.save_graphml(G, path)

    # save as .osm
    path = f'{PATH}/{district_name}.osm'
    ox.config(all_oneway=True)
    if not os.path.exists(path):
        ox.save_graph_xml(G, filepath=path)

    # save as folium html
    path = f'{PATH}/{district_name}_folium.html'
    if not os.path.exists(path):
        map_folium = ox.folium.plot_graph_folium(G)
        map_folium.save(path)

    # save as SVG
    path = f'{PATH}/{district_name}_image.svg'
    fig, ax = ox.plot_graph(G,
                            show=False,
                            save=True,
                            close=True,
                            filepath=path)
コード例 #3
0
def test_network_saving_loading():

    # save graph as shapefile and geopackage
    G = ox.graph_from_place(place1, network_type="drive")
    ox.save_graph_shapefile(G)
    ox.save_graph_geopackage(G)

    # save/load graph as graphml file
    ox.save_graphml(G, gephi=True)
    ox.save_graphml(G, gephi=False)
    filepath = os.path.join(ox.settings.data_folder, "graph.graphml")
    G = ox.load_graphml(filepath, node_type=str)

    # test osm xml output
    default_all_oneway = ox.settings.all_oneway
    ox.settings.all_oneway = True
    G = ox.graph_from_point(location_point, dist=500, network_type="drive")
    ox.save_graph_xml(G, merge_edges=False)

    # test osm xml output merge edges
    ox.save_graph_xml(G, merge_edges=True, edge_tag_aggs=[("length", "sum")])

    # test osm xml output from gdfs
    nodes, edges = ox.graph_to_gdfs(G)
    ox.save_graph_xml([nodes, edges])

    # test ordered nodes from way
    df = pd.DataFrame({
        "u": [54, 2, 5, 3, 10, 19, 20],
        "v": [76, 3, 8, 10, 5, 20, 15]
    })
    ordered_nodes = ox.io._get_unique_nodes_ordered_from_way(df)
    assert ordered_nodes == [2, 3, 10, 5, 8]

    ox.settings.all_oneway = default_all_oneway
コード例 #4
0
ファイル: test_osmnx.py プロジェクト: paran93/osmnx
def test_network_saving_loading():

    # save graph as shapefile and geopackage
    G = ox.graph_from_place(place1, network_type="drive")
    ox.save_graph_shapefile(G)
    ox.save_graph_geopackage(G)

    # save/load graph as graphml file
    ox.save_graphml(G, gephi=True)
    ox.save_graphml(G, gephi=False)
    filepath = os.path.join(ox.settings.data_folder, "graph.graphml")
    G2 = ox.load_graphml(filepath)

    # verify everything in G is equivalent in G2
    for (n1, d1), (n2, d2) in zip(G.nodes(data=True), G2.nodes(data=True)):
        assert n1 == n2
        assert d1 == d2
    for (u1, v1, k1, d1), (u2, v2, k2,
                           d2) in zip(G.edges(keys=True, data=True),
                                      G2.edges(keys=True, data=True)):
        assert u1 == u2
        assert v1 == v2
        assert k1 == k2
        assert tuple(d1.keys()) == tuple(d2.keys())
        assert tuple(d1.values()) == tuple(d2.values())
    for (k1, v1), (k2, v2) in zip(G.graph.items(), G2.graph.items()):
        assert k1 == k2
        assert v1 == v2
    assert tuple(G.graph["streets_per_node"].keys()) == tuple(
        G2.graph["streets_per_node"].keys())
    assert tuple(G.graph["streets_per_node"].values()) == tuple(
        G2.graph["streets_per_node"].values())

    # test custom data types
    nd = {"osmid": str}
    ed = {"length": str, "osmid": float}
    G2 = ox.load_graphml(filepath, node_dtypes=nd, edge_dtypes=ed)

    # test osm xml output
    default_all_oneway = ox.settings.all_oneway
    ox.settings.all_oneway = True
    G = ox.graph_from_point(location_point, dist=500, network_type="drive")
    ox.save_graph_xml(G, merge_edges=False)

    # test osm xml output merge edges
    ox.save_graph_xml(G, merge_edges=True, edge_tag_aggs=[("length", "sum")])

    # test osm xml output from gdfs
    nodes, edges = ox.graph_to_gdfs(G)
    ox.save_graph_xml([nodes, edges])

    # test ordered nodes from way
    df = pd.DataFrame({
        "u": [54, 2, 5, 3, 10, 19, 20],
        "v": [76, 3, 8, 10, 5, 20, 15]
    })
    ordered_nodes = ox.io._get_unique_nodes_ordered_from_way(df)
    assert ordered_nodes == [2, 3, 10, 5, 8]

    ox.settings.all_oneway = default_all_oneway
コード例 #5
0
ファイル: test_osmnx.py プロジェクト: wonntann/osmnx
def test_osm_xml():
    # test loading a graph from a local .osm xml file
    node_id = 53098262
    neighbor_ids = 53092170, 53060438, 53027353, 667744075

    with bz2.BZ2File("tests/input_data/West-Oakland.osm.bz2") as f:
        handle, temp_filename = tempfile.mkstemp(suffix=".osm")
        os.write(handle, f.read())
        os.close(handle)

    for filename in ("tests/input_data/West-Oakland.osm.bz2", temp_filename):
        G = ox.graph_from_xml(filename)
        assert node_id in G.nodes

        for neighbor_id in neighbor_ids:
            edge_key = (node_id, neighbor_id, 0)
            assert neighbor_id in G.nodes
            assert edge_key in G.edges
            assert G.edges[edge_key]["name"] in ("8th Street", "Willow Street")

    os.remove(temp_filename)

    # test .osm xml saving
    default_all_oneway = ox.settings.all_oneway
    ox.settings.all_oneway = True
    G = ox.graph_from_point(location_point, dist=500, network_type="drive")
    ox.save_graph_xml(G, merge_edges=False)

    # test osm xml output merge edges
    ox.save_graph_xml(G, merge_edges=True, edge_tag_aggs=[("length", "sum")])

    # test osm xml output from gdfs
    nodes, edges = ox.graph_to_gdfs(G)
    ox.save_graph_xml([nodes, edges])

    # test ordered nodes from way
    df = pd.DataFrame({"u": [54, 2, 5, 3, 10, 19, 20], "v": [76, 3, 8, 10, 5, 20, 15]})
    ordered_nodes = ox.osm_xml._get_unique_nodes_ordered_from_way(df)
    assert ordered_nodes == [2, 3, 10, 5, 8]

    ox.settings.all_oneway = default_all_oneway