package algs42;
import stdlib.*;
import algs13.Queue;
import algs13.Stack;
import algs44.DirectedEdge;
import algs44.EdgeWeightedDigraph;
/* ***********************************************************************
 *  Compilation:  javac DepthFirstOrder.java
 *  Execution:    java DepthFirstOrder filename.txt
 *  Dependencies: Digraph.java Queue.java Stack.java StdOut.java
 *                EdgeWeightedDigraph.java DirectedEdge.java
 *  Data files:   http://algs4.cs.princeton.edu/42directed/tinyDAG.txt
 *                http://algs4.cs.princeton.edu/42directed/tinyDG.txt
 *
 *  Compute preorder and postorder for a digraph or edge-weighted digraph.
 *  Runs in O(E + V) time.
 *
 *  % java DepthFirstOrder tinyDAG.txt
 *     v  pre post
 *  --------------
 *     0    0    8
 *     1    3    2
 *     2    9   10
 *     3   10    9
 *     4    2    0
 *     5    1    1
 *     6    4    7
 *     7   11   11
 *     8   12   12
 *     9    5    6
 *    10    8    5
 *    11    6    4
 *    12    7    3
 *  Preorder:  0 5 4 1 6 9 11 12 10 2 3 7 8
 *  Postorder: 4 5 1 12 11 10 9 6 0 3 2 7 8
 *  Reverse postorder: 8 7 2 3 0 6 9 10 11 12 1 5 4
 *
 *************************************************************************/

public class DepthFirstOrder {
        private final boolean[] marked;          // marked[v] = has v been marked in dfs?
        private final int[] pre;                 // pre[v]    = preorder  number of v
        private final int[] post;                // post[v]   = postorder number of v
        private final Queue<Integer> preorder;   // vertices in preorder
        private final Stack<Integer> revPost;    // vertices in preorder
        private final Queue<Integer> postorder;  // vertices in postorder
        private int preCounter;            // counter or preorder numbering
        private int postCounter;           // counter for postorder numbering

        // depth-first search preorder and postorder in a digraph
        public DepthFirstOrder(Digraph G) {
                pre    = new int[G.V()];
                post   = new int[G.V()];
                revPost   = new Stack<>();
                postorder = new Queue<>();
                preorder  = new Queue<>();
                marked    = new boolean[G.V()];
                for (int v = 0; v < G.V(); v++)
                        if (!marked[v]) dfs(G, v);
        }

        // depth-first search preorder and postorder in an edge-weighted digraph
        public DepthFirstOrder(EdgeWeightedDigraph G) {
                pre    = new int[G.V()];
                post   = new int[G.V()];
                revPost   = new Stack<>();
                postorder = new Queue<>();
                preorder  = new Queue<>();
                marked    = new boolean[G.V()];
                for (int v = 0; v < G.V(); v++)
                        if (!marked[v]) dfs(G, v);
        }

        // run DFS in digraph G from vertex v and compute preorder/postorder
        private void dfs(Digraph G, int v) {
                marked[v] = true;
                pre[v] = preCounter++;
                preorder.enqueue(v);
                for (int w : G.adj(v)) {
                        if (!marked[w]) {
                                dfs(G, w);
                        }
                }
                postorder.enqueue(v);
                revPost.push(v);
                post[v] = postCounter++;
                return;
        }

        // run DFS in edge-weighted digraph G from vertex v and compute preorder/postorder
        private void dfs(EdgeWeightedDigraph G, int v) {
                marked[v] = true;
                pre[v] = preCounter++;
                preorder.enqueue(v);
                for (DirectedEdge e : G.adj(v)) {
                        int w = e.to();
                        if (!marked[w]) {
                                dfs(G, w);
                        }
                }
                postorder.enqueue(v);
                revPost.push(v);
                post[v] = postCounter++;
        }

        public int pre(int v) {
                return pre[v];
        }

        public int post(int v) {
                return post[v];
        }

        // return vertices in postorder as an Iterable
        public Iterable<Integer> post() {
                return postorder;
        }

        // return vertices in preorder as an Iterable
        public Iterable<Integer> pre() {
                return preorder;
        }

        // return vertices in reverse postorder as an Iterable
        public Iterable<Integer> reversePost() {
                return revPost;
        }


        // check that pre() and post() are consistent with pre(v) and post(v)
        private boolean check(Digraph G) {

                // check that post(v) is consistent with post()
                int r = 0;
                for (int v : post()) {
                        if (post(v) != r) {
                                StdOut.println("post(v) and post() inconsistent");
                                return false;
                        }
                        r++;
                }

                // check that pre(v) is consistent with pre()
                r = 0;
                for (int v : pre()) {
                        if (pre(v) != r) {
                                StdOut.println("pre(v) and pre() inconsistent");
                                return false;
                        }
                        r++;
                }

                return true;
        }

        public static void main(String[] args) {
                args = new String[] { "data/tinyDG.txt" };

                In in = new In(args[0]);
                Digraph G = DigraphGenerator.fromIn(in);

                DepthFirstOrder dfs = new DepthFirstOrder(G);
                StdOut.println("   v  pre post");
                StdOut.println("--------------");
                for (int v = 0; v < G.V(); v++) {
                        StdOut.format("%4d %4d %4d\n", v, dfs.pre(v), dfs.post(v));
                }

                StdOut.print("Preorder:  ");
                for (int v : dfs.pre()) {
                        StdOut.print(v + " ");
                }
                StdOut.println();

                StdOut.print("Postorder: ");
                for (int v : dfs.post()) {
                        StdOut.print(v + " ");
                }
                StdOut.println();

                StdOut.print("Reverse postorder: ");
                for (int v : dfs.reversePost()) {
                        StdOut.print(v + " ");
                }
                StdOut.println();


        }

}