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路径分析之NetworkX实例

时间:2016-08-20 19:19:09      阅读:1597      评论:0      收藏:0      [点我收藏+]

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#!/usr/bin/env python
# -*- coding: utf-8 -*-
import networkx as nx
import numpy as np
import json
import matplotlib.pyplot as plt 
from shapely.geometry import asLineString, asMultiPoint


def get_path(n0, n1):
    """If n0 and n1 are connected nodes in the graph,
    this function will return an array of point
    coordinates along the line linking
    these two nodes."""

    return np.array(json.loads(nx_list_subgraph[n0][n1][Json])[coordinates])


def get_full_path(path):
    """
    Create numpy array line result
    :param path: results of nx.shortest_path function
    :return: coordinate pairs along a path
    """
    p_list = []
    curp = None
    for i in range(len(path)-1):
        p = get_path(path[i], path[i+1])
        if curp is None:
            curp = p
        if np.sum((p[0]-curp)**2) > np.sum((p[-1]-curp)**2):
            p = p[::-1, :]
        p_list.append(p)
        curp = p[-1]
    return np.vstack(p_list)


def write_geojson(outfilename, indata):
    """
    create GeoJSON file
    :param outfilename: name of output file
    :param indata:
    :return: a new GeoJSON file
    """

    with open(outfilename, "w") as file_out:
        file_out.write(json.dumps(indata))


if __name__ == __main__:

    # use Networkx to load a Noded shapefile
    # returns a graph where each node is a coordinate pair
    # and the edge is the line connecting the two nodes
    #点数据类转换为node,线转换为edge。坐标对作为keys,保持属性,线被简化为只保留起始点。
     nx_load_shp = nx.read_shp("../geodata/shp/e01_network_lines_3857.shp")

    # A graph is not always connected, so we take the largest connected subgraph
    # by using the connected_component_subgraphs function.
    #获取连接子图
     nx_list_subgraph = list(nx.connected_component_subgraphs(nx_load_shp.to_undirected()))[0]

    #获取所有节点
    # get all the nodes in the network
    nx_nodes = np.array(nx_list_subgraph.nodes())

    # output the nodes to a GeoJSON file to view in QGIS
    network_nodes = asMultiPoint(nx_nodes)
    write_geojson("../geodata/ch08_final_netx_nodes.geojson",
                  network_nodes.__geo_interface__)

    # this number represents the nodes position
    # in the array to identify the node
    start_node_pos = 30
    end_node_pos = 21

    #计算最短路径
     # Compute the shortest path. Dijkstra‘s algorithm.
    nx_short_path = nx.shortest_path(nx_list_subgraph,
                                     source=tuple(nx_nodes[start_node_pos]),
                                     target=tuple(nx_nodes[end_node_pos]),
                                     weight=distance)

    print(nx_short_path)
    # create numpy array of coordinates representing result path
    nx_array_path = get_full_path(nx_short_path)
    print("------------------------------------")
    print(nx_short_path)

    #将路径点连成线
    # convert numpy array to Shapely Linestring
    out_shortest_path = asLineString(nx_array_path)

    write_geojson("../geodata/ch08_final_netx_sh_path.geojson",
                  out_shortest_path.__geo_interface__)

    nx.draw(nx_list_subgraph)     #绘制网络G
    #plt.savefig("ba.png")    #输出方式1: 将图像存为一个png格式的图片文件
    plt.show()

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路径分析之NetworkX实例

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原文地址:http://www.cnblogs.com/gispathfinder/p/5790996.html

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