programming-examples/java/Data_Structures/DepthFirstPaths.java

 

import edu.princeton.cs.introcs.In;
import edu.princeton.cs.introcs.StdOut;

/*************************************************************************
 *  Compilation:  javac DepthFirstPaths.java
 *  Execution:    java DepthFirstPaths G s
 *  Dependencies: Graph.java Stack.java StdOut.java
 *  Data files:   http://algs4.cs.princeton.edu/41undirected/tinyCG.txt
 *
 *  Run depth first search on an undirected graph.
 *  Runs in O(E + V) time.
 *
 *  %  java Graph tinyCG.txt
 *  6 8
 *  0: 2 1 5 
 *  1: 0 2 
 *  2: 0 1 3 4 
 *  3: 5 4 2 
 *  4: 3 2 
 *  5: 3 0 
 *
 *  % java DepthFirstPaths tinyCG.txt 0
 *  0 to 0:  0
 *  0 to 1:  0-2-1
 *  0 to 2:  0-2
 *  0 to 3:  0-2-3
 *  0 to 4:  0-2-3-4
 *  0 to 5:  0-2-3-5
 *
 *************************************************************************/

/**
 *  The  DepthFirstPaths  class represents a data type for finding
 *  paths from a source vertex  s  to every other vertex
 *  in an undirected graph.
 *   
 *  This implementation uses depth-first search.
 *  The constructor takes time proportional to  V  +  E ,
 *  where  V  is the number of vertices and  E  is the number of edges.
 *  It uses extra space (not including the graph) proportional to  V .
 *   
 *  For additional documentation, see <a href="/algs4/41graph">Section 4.1</a> of
 *   Algorithms, 4th Edition  by Robert Sedgewick and Kevin Wayne.
 *
 *  @author Robert Sedgewick
 *  @author Kevin Wayne
 */
public class DepthFirstPaths {
    private boolean[] marked;    // marked[v] = is there an s-v path?
    private int[] edgeTo;        // edgeTo[v] = last edge on s-v path
    private final int s;         // source vertex

    /**
     * Computes a path between  s  and every other vertex in graph  G .
     * @param G the graph
     * @param s the source vertex
     */
    public DepthFirstPaths(Graph G, int s) {
        this.s = s;
        edgeTo = new int[G.V()];
        marked = new boolean[G.V()];
        dfs(G, s);
    }

    // depth first search from v
    private void dfs(Graph G, int v) {
        marked[v] = true;
        for (int w : G.adj(v)) {
            if (!marked[w]) {
                edgeTo[w] = v;
                dfs(G, w);
            }
        }
    }

    /**
     * Is there a path between the source vertex  s  and vertex  v ?
     * @param v the vertex
     * @return  true  if there is a path,  false  otherwise
     */
    public boolean hasPathTo(int v) {
        return marked[v];
    }

    /**
     * Returns a path between the source vertex  s  and vertex  v , or
     *  null  if no such path.
     * @param v the vertex
     * @return the sequence of vertices on a path between the source vertex
     *    s  and vertex  v , as an Iterable
     */
    public Iterable<Integer> pathTo(int v) {
        if (!hasPathTo(v)) return null;
        Stack<Integer> path = new Stack<Integer>();
        for (int x = v; x != s; x = edgeTo[x])
            path.push(x);
        path.push(s);
        return path;
    }

    /**
     * Unit tests the  DepthFirstPaths  data type.
     */
    public static void main(String[] args) {
        In in = new In(args[0]);
        Graph G = new Graph(in);
        int s = Integer.parseInt(args[1]);
        DepthFirstPaths dfs = new DepthFirstPaths(G, s);

        for (int v = 0; v < G.V(); v++) {
            if (dfs.hasPathTo(v)) {
                StdOut.printf("%d to %d:  ", s, v);
                for (int x : dfs.pathTo(v)) {
                    if (x == s) StdOut.print(x);
                    else        StdOut.print("-" + x);
                }
                StdOut.println();
            }

            else {
                StdOut.printf("%d to %d:  not connected\n", s, v);
            }

        }
    }

}
Initial commit 5 years ago

			`import edu.princeton.cs.introcs.In;`
			`import edu.princeton.cs.introcs.StdOut;`

			`/*************************************************************************`
			`* Compilation: javac DepthFirstPaths.java`
			`* Execution: java DepthFirstPaths G s`
			`* Dependencies: Graph.java Stack.java StdOut.java`
			`* Data files: http://algs4.cs.princeton.edu/41undirected/tinyCG.txt`
			`*`
			`* Run depth first search on an undirected graph.`
			`* Runs in O(E + V) time.`
			`*`
			`* % java Graph tinyCG.txt`
			`* 6 8`
			`* 0: 2 1 5`
			`* 1: 0 2`
			`* 2: 0 1 3 4`
			`* 3: 5 4 2`
			`* 4: 3 2`
			`* 5: 3 0`
			`*`
			`* % java DepthFirstPaths tinyCG.txt 0`
			`* 0 to 0: 0`
			`* 0 to 1: 0-2-1`
			`* 0 to 2: 0-2`
			`* 0 to 3: 0-2-3`
			`* 0 to 4: 0-2-3-4`
			`* 0 to 5: 0-2-3-5`
			`*`
			`*************************************************************************/`

			`/**`
			`* The DepthFirstPaths class represents a data type for finding`
			`* paths from a source vertex s to every other vertex`
			`* in an undirected graph.`
			`*`
			`* This implementation uses depth-first search.`
			`* The constructor takes time proportional to V + E ,`
			`* where V is the number of vertices and E is the number of edges.`
			`* It uses extra space (not including the graph) proportional to V .`
			`*`
			`* For additional documentation, see <a href="/algs4/41graph">Section 4.1</a> of`
			`* Algorithms, 4th Edition by Robert Sedgewick and Kevin Wayne.`
			`*`
			`* @author Robert Sedgewick`
			`* @author Kevin Wayne`
			`*/`
			`public class DepthFirstPaths {`
			`private boolean[] marked; // marked[v] = is there an s-v path?`
			`private int[] edgeTo; // edgeTo[v] = last edge on s-v path`
			`private final int s; // source vertex`

			`/**`
			`* Computes a path between s and every other vertex in graph G .`
			`* @param G the graph`
			`* @param s the source vertex`
			`*/`
			`public DepthFirstPaths(Graph G, int s) {`
			`this.s = s;`
			`edgeTo = new int[G.V()];`
			`marked = new boolean[G.V()];`
			`dfs(G, s);`
			`}`

			`// depth first search from v`
			`private void dfs(Graph G, int v) {`
			`marked[v] = true;`
			`for (int w : G.adj(v)) {`
			`if (!marked[w]) {`
			`edgeTo[w] = v;`
			`dfs(G, w);`
			`}`
			`}`
			`}`

			`/**`
			`* Is there a path between the source vertex s and vertex v ?`
			`* @param v the vertex`
			`* @return true if there is a path, false otherwise`
			`*/`
			`public boolean hasPathTo(int v) {`
			`return marked[v];`
			`}`

			`/**`
			`* Returns a path between the source vertex s and vertex v , or`
			`* null if no such path.`
			`* @param v the vertex`
			`* @return the sequence of vertices on a path between the source vertex`
			`* s and vertex v , as an Iterable`
			`*/`
			`public Iterable<Integer> pathTo(int v) {`
			`if (!hasPathTo(v)) return null;`
			`Stack<Integer> path = new Stack<Integer>();`
			`for (int x = v; x != s; x = edgeTo[x])`
			`path.push(x);`
			`path.push(s);`
			`return path;`
			`}`

			`/**`
			`* Unit tests the DepthFirstPaths data type.`
			`*/`
			`public static void main(String[] args) {`
			`In in = new In(args[0]);`
			`Graph G = new Graph(in);`
			`int s = Integer.parseInt(args[1]);`
			`DepthFirstPaths dfs = new DepthFirstPaths(G, s);`

			`for (int v = 0; v < G.V(); v++) {`
			`if (dfs.hasPathTo(v)) {`
			`StdOut.printf("%d to %d: ", s, v);`
			`for (int x : dfs.pathTo(v)) {`
			`if (x == s) StdOut.print(x);`
			`else StdOut.print("-" + x);`
			`}`
			`StdOut.println();`
			`}`

			`else {`
			`StdOut.printf("%d to %d: not connected\n", s, v);`
			`}`

			`}`
			`}`

			`}`