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// Exercise 4.3.9 4.3.17 (Solution published at http://algs4.cs.princeton.edu/)
package algs43;
import stdlib.*;
import algs13.Bag;
import algs13.Stack;
/**
 *  The {@code EdgeWeightedGraph} class represents an undirected graph of vertices
 *  named 0 through V-1, where each edge has a real-valued weight.
 *  It supports the following operations: add an edge to the graph,
 *  in the graph, iterate over all of the neighbors incident to a vertex.
 *  Parallel edges and self-loops are permitted.
 *  <p>
 *  For additional documentation, see <a href="http://algs4.cs.princeton.edu/43mst">Section 4.3</a> of
 *  <i>Algorithms, 4th Edition</i> by Robert Sedgewick and Kevin Wayne.
 */

public class EdgeWeightedGraph {
  private final int V;
  private int E;
  private final Bag<Edge>[] adj;

  /**
   * Create an empty edge-weighted graph with V vertices.
   */
  @SuppressWarnings("unchecked")
  public EdgeWeightedGraph(int V) {
    if (V < 0) throw new Error("Number of vertices must be nonnegative");
    this.V = V;
    this.E = 0;
    adj = new Bag[V];
    for (int v = 0; v < V; v++) {
      adj[v] = new Bag<>();
    }
  }

  /**
   * Create a random edge-weighted graph with V vertices and E edges with no parallel edges or self loops.
   * The expected running time is proportional to V + E.
   */
  public EdgeWeightedGraph(int V, int E) { this (V, E, false); }
  /**
   * Create a random edge-weighted graph with V vertices and E edges.
   * The expected running time is proportional to V + E.
   */
  public EdgeWeightedGraph(int V, int E, boolean allowParallelEdgesAndSelfLoops) {
    this(V);
    if (E < 0) throw new Error("Number of edges must be nonnegative");
    if (allowParallelEdgesAndSelfLoops) {
      for (int i = 0; i < E; i++) {
        int v = (int) (Math.random() * V);
        int w = (int) (Math.random() * V);
        double weight = Math.round(100 * Math.random()) / 100.0;
        Edge e = new Edge(v, w, weight);
        addEdge(e);
      }
    } else {
      if (E > V*(V-1)/2) throw new Error("Number of edges must be less than V*(V-1)/2");
      newEdge: while (E>0) {
        int v = (int) (Math.random() * V);
        int w = (int) (Math.random() * V);
        if (v == w) continue;
        for (Edge e: adj[v])
          if (w == e.other (v))
            continue newEdge;
        double weight = Math.round(100 * Math.random()) / 100.0;
        Edge e = new Edge(v, w, weight);
        addEdge(e);
        E--;
      }
    }
  }
  /**
   * Create a weighted graph from input stream.
   */
  public EdgeWeightedGraph(In in) {
    this(in.readInt());
    int E = in.readInt();
    for (int i = 0; i < E; i++) {
      int v = in.readInt();
      int w = in.readInt();
      double weight = in.readDouble();
      Edge e = new Edge(v, w, weight);
      addEdge(e);
    }
  }

  /**
   * Copy constructor.
   */
  public EdgeWeightedGraph(EdgeWeightedGraph 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<Edge> reverse = new Stack<>();
      for (Edge e : G.adj[v]) {
        reverse.push(e);
      }
      for (Edge e : reverse) {
        adj[v].add(e);
      }
    }
  }

  /**
   * Return the number of vertices in this graph.
   */
  public int V() {
    return V;
  }

  /**
   * Return the number of edges in this graph.
   */
  public int E() {
    return E;
  }


  /**
   * Add the edge e to this graph.
   */
  public void addEdge(Edge e) {
    int v = e.either();
    int w = e.other(v);
    adj[v].add(e);
    adj[w].add(e);
    E++;
  }


  /**
   * Return the edges incident to vertex v as an Iterable.
   * To iterate over the edges incident to vertex v, use foreach notation:
   * {@code for (Edge e : graph.adj(v))}.
   */
  public Iterable<Edge> adj(int v) {
    return adj[v];
  }

  /**
   * Return all edges in this graph as an Iterable.
   * To iterate over the edges, use foreach notation:
   * {@code for (Edge e : graph.edges())}.
   */
  public Iterable<Edge> edges() {
    Bag<Edge> list = new Bag<>();
    for (int v = 0; v < V; v++) {
      int selfLoops = 0;
      for (Edge e : adj(v)) {
        if (e.other(v) > v) {
          list.add(e);
        }
        // only add one copy of each self loop
        else if (e.other(v) == v) {
          if (selfLoops % 2 == 0) list.add(e);
          selfLoops++;
        }
      }
    }
    return list;
  }



  /**
   * Return a string representation of this graph.
   */
  public String toString() {
    String NEWLINE = System.getProperty("line.separator");
    StringBuilder s = new StringBuilder();
    s.append(V + " " + E + NEWLINE);
    for (int v = 0; v < V; v++) {
      s.append(v + ": ");
      for (Edge e : adj[v]) {
        s.append(e + "  ");
      }
      s.append(NEWLINE);
    }
    return s.toString();
  }

  /**
   * Save a graphviz representation of the graph.
   * See <a href="http://www.graphviz.org/">graphviz.org</a>.
   */
  public void toGraphviz(String filename) {
    GraphvizBuilder gb = new GraphvizBuilder ();
    for (int v = 0; v < V; v++) {
      gb.addNode (v);
      boolean showSelfLoop = false;
      for (Edge e : adj[v]) {
        int w = e.other(v);
        if (v < w) // only once each edge
          gb.addLabeledEdge (v, w, e.weight ());
        if (v == w) {
          showSelfLoop = !showSelfLoop;
          if (showSelfLoop)
            gb.addLabeledEdge (v, w, e.weight ());
        }
      }
    }
    gb.toFileUndirected (filename);
  }


  /**
   * Test client.
   */
  public static void main(String[] args) {
    //args = new String [] { "data/tinyEWG.txt" };
    args = new String [] { "20", "40" };

    EdgeWeightedGraph G;
    if (args.length == 1) {
      In in = new In(args[0]);
      G = new EdgeWeightedGraph(in);
    } else {
      int V = Integer.parseInt (args[0]);
      int E = Integer.parseInt (args[1]);
      G = new EdgeWeightedGraph(V, E, false);
    }
    StdOut.println(G);
    G.toGraphviz ("g.png");
  }

}