java实现图(无向图)数据结构

/******************************************************************************
 *  Compilation:  javac Graph.java        
 *  Execution:    java Graph input.txt
 *  Dependencies: Bag.java In.java StdOut.java
 *  Data files:   http://algs4.cs.princeton.edu/41graph/tinyG.txt
 *
 *  A graph, implemented using an array of sets.
 *  Parallel edges and self-loops allowed.
 *
 *  % java Graph tinyG.txt
 *  13 vertices, 13 edges 
 *  0: 6 2 1 5 
 *  1: 0 
 *  2: 0 
 *  3: 5 4 
 *  4: 5 6 3 
 *  5: 3 4 0 
 *  6: 0 4 
 *  7: 8 
 *  8: 7 
 *  9: 11 10 12 
 *  10: 9 
 *  11: 9 12 
 *  12: 11 9 
 *
 *  % java Graph mediumG.txt
 *  250 vertices, 1273 edges 
 *  0: 225 222 211 209 204 202 191 176 163 160 149 114 97 80 68 59 58 49 44 24 15 
 *  1: 220 203 200 194 189 164 150 130 107 72 
 *  2: 141 110 108 86 79 51 42 18 14 
 *  ...
 *  
 ******************************************************************************/

package edu.princeton.cs.algs4;


/**
 *  The Graph class represents an undirected graph of vertices
 *  named 0 through V - 1.
 *  It supports the following two primary operations: add an edge to the graph,
 *  iterate over all of the vertices adjacent to a vertex. It also provides
 *  methods for returning the number of vertices V and the number
 *  of edges E. Parallel edges and self-loops are permitted.
 *  

* This implementation uses an adjacency-lists representation, which * is a vertex-indexed array of {@link Bag} objects. * All operations take constant time (in the worst case) except * iterating over the vertices adjacent to a given vertex, which takes * time proportional to the number of such vertices. *

* For additional documentation, see Section 4.1 * of Algorithms, 4th Edition by Robert Sedgewick and Kevin Wayne. * * @author Robert Sedgewick * @author Kevin Wayne */ public class Graph { private static final String NEWLINE = System.getProperty("line.separator"); private final int V; private int E; private Bag[] adj; /** * Initializes an empty graph with V vertices and 0 edges. * param V the number of vertices * * @param V number of vertices * @throws IllegalArgumentException if V < 0 */ public Graph(int V) { if (V < 0) throw new IllegalArgumentException("Number of vertices must be nonnegative"); this.V = V; this.E = 0; adj = (Bag[]) new Bag[V]; for (int v = 0; v < V; v++) { adj[v] = new Bag(); } } /** * Initializes a graph from an input stream. * The format is the number of vertices V, * followed by the number of edges E, * followed by E pairs of vertices, with each entry separated by whitespace. * * @param in the input stream * @throws IndexOutOfBoundsException if the endpoints of any edge are not in prescribed range * @throws IllegalArgumentException if the number of vertices or edges is negative */ public Graph(In in) { this(in.readInt()); int E = in.readInt(); if (E < 0) throw new IllegalArgumentException("Number of edges must be nonnegative"); for (int i = 0; i < E; i++) { int v = in.readInt(); int w = in.readInt(); addEdge(v, w); } } /** * Initializes a new graph that is a deep copy of G. * * @param G the graph to copy */ public Graph(Graph G) { this(G.V()); this.E = G.E(); for (int v = 0; v < G.V(); v++) { // reverse so that adjacency list is in same order as original Stack reverse = new Stack(); for (int w : G.adj[v]) { reverse.push(w); } for (int w : reverse) { adj[v].add(w); } } } /** * Returns the number of vertices in this graph. * * @return the number of vertices in this graph */ public int V() { return V; } /** * Returns the number of edges in this graph. * * @return the number of edges in this graph */ public int E() { return E; } // throw an IndexOutOfBoundsException unless 0 <= v < V private void validateVertex(int v) { if (v < 0 || v >= V) throw new IndexOutOfBoundsException("vertex " + v + " is not between 0 and " + (V-1)); } /** * Adds the undirected edge v-w to this graph. * * @param v one vertex in the edge * @param w the other vertex in the edge * @throws IndexOutOfBoundsException unless both 0 <= v < V and 0 <= w < V */ public void addEdge(int v, int w) { validateVertex(v); validateVertex(w); E++; adj[v].add(w); adj[w].add(v); } /** * Returns the vertices adjacent to vertex v. * * @param v the vertex * @return the vertices adjacent to vertex v, as an iterable * @throws IndexOutOfBoundsException unless 0 <= v < V */ public Iterable adj(int v) { validateVertex(v); return adj[v]; } /** * Returns the degree of vertex v. * * @param v the vertex * @return the degree of vertex v * @throws IndexOutOfBoundsException unless 0 <= v < V */ public int degree(int v) { validateVertex(v); return adj[v].size(); } /** * Returns a string representation of this graph. * * @return the number of vertices V, followed by the number of edges E, * followed by the V adjacency lists */ public String toString() { StringBuilder s = new StringBuilder(); s.append(V + " vertices, " + E + " edges " + NEWLINE); for (int v = 0; v < V; v++) { s.append(v + ": "); for (int w : adj[v]) { s.append(w + " "); } s.append(NEWLINE); } return s.toString(); } /** * Unit tests the Graph data type. */ public static void main(String[] args) { In in = new In(args[0]); Graph G = new Graph(in); StdOut.println(G); } }


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