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package algs15.perc;
import stdlib.*;
import java.awt.Font;

/* **************************************************************************
 *  Compilation:  javac PercolationVisualizer.java
 *  Execution:    java PercolationVisualizer input.txt
 *  Dependencies: Percolation.java StdDraw.java In.java
 *
 *  This program takes the name of a file as a command-line argument.
 *  From that file, it
 *
 *    - Reads the grid size N of the percolation system.
 *    - Creates an N-by-N grid of sites (intially all blocked)
 *    - Reads in a sequence of sites (row i, column j) to open.
 *
 *  After each site is opened, it draws full sites in light blue,
 *  open sites (that aren't full) in white, and blocked sites in black,
 *  with with site (0, 0) in the upper left-hand corner.
 *
 ****************************************************************************/
public class PercolationVisualizer {
  // delay in miliseconds (controls animation speed)
  private static int delay = 100;

  // draw N-by-N percolation system
  public static void draw(Percolation perc, int N) {
    StdDraw.clear();
    StdDraw.setPenColor(StdDraw.BLACK);
    StdDraw.setXscale(0, N);
    StdDraw.setYscale(0, N);
    StdDraw.filledSquare(N/2.0, N/2.0, N/2.0);

    // draw N-by-N grid
    int opened = 0;
    for (int row = 0; row < N; row++) {
      for (int col = 0; col < N; col++) {
        if (perc.isFull(row, col)) {
          StdDraw.setPenColor(StdDraw.BOOK_LIGHT_BLUE);
          opened++;
        }
        else if (perc.isOpen(row, col)) {
          StdDraw.setPenColor(StdDraw.WHITE);
          opened++;
        }
        else
          StdDraw.setPenColor(StdDraw.BLACK);
        StdDraw.filledSquare(col + 0.5, N - row - 0.5, 0.45);
      }
    }

    // write status text
    StdDraw.setFont(new Font("SansSerif", Font.PLAIN, 12));
    StdDraw.setPenColor(StdDraw.BLACK);
    StdDraw.text(.25*N, -N*.025, opened + " open sites");
    if (perc.percolates()) StdDraw.text(.75*N, -N*.025, "percolates");
    else                   StdDraw.text(.75*N, -N*.025, "does not percolate");

  }

  // file input
  private static void simulateFromFile(String filename) {
    In in = new In(filename);
    int N = in.readInt();
    Percolation perc = new Percolation(N);

    // turn on animation mode
    StdDraw.show(0);

    // repeatedly read in sites to open and draw resulting system
    PercolationVisualizer.draw(perc, N);
    StdDraw.show(delay);
    while (!in.isEmpty()) {
      int i = in.readInt();
      int j = in.readInt();
      perc.open(i, j);
      PercolationVisualizer.draw(perc, N);
      StdDraw.show(delay);
      //if (i==0 && !perc.isFull (i, j)) StdOut.format("yikes: %d %d\n", i, j);
    }
    PercolationVisualizer.draw(perc, N);
    StdDraw.show(delay);
  }

  // random input
  private static void simulateFromRandom(int N) {
    // repeatedly generate sites at random and draw resulting system
    Percolation perc = new Percolation(N);

    // turn on animation mode
    StdDraw.show(0);

    // repeatedly open sites until system percolates and draw resulting system
    PercolationVisualizer.draw(perc, N);
    StdDraw.show(delay);
    while (!perc.percolates()) {
      int i = StdRandom.uniform(N);
      int j = StdRandom.uniform(N);
      if (!perc.isOpen(i, j)) {
        perc.open(i, j);
        PercolationVisualizer.draw(perc, N);
        StdDraw.show(delay);
        //if (i==0 && !perc.isFull (i, j)) StdOut.format("yikes: %d %d\n", i, j);
      }
    }
  }

  public static void main(String[] args) {
    //        delay = 500; args = new String[] { "src/algs15/perc/perc-input1.txt" };
    //        delay = 500; args = new String[] { "src/algs15/perc/perc-input1-no.txt" };
    //        delay = 500; args = new String[] { "src/algs15/perc/perc-input2.txt" };
    //        delay = 500; args = new String[] { "src/algs15/perc/perc-input2-no.txt" };
    //        delay = 500; args = new String[] { "src/algs15/perc/perc-input3.txt" };
    //        delay = 500; args = new String[] { "src/algs15/perc/perc-input4.txt" };
    //        delay = 200; args = new String[] { "src/algs15/perc/perc-input5.txt" };
    //        delay = 100; args = new String[] { "src/algs15/perc/perc-input6.txt" };
    //        delay = 100; args = new String[] { "src/algs15/perc/perc-input7.txt" };
    //        delay = 100; args = new String[] { "src/algs15/perc/perc-input8.txt" };
    //        delay = 100; args = new String[] { "src/algs15/perc/perc-input8-no.txt" };
    //        delay = 100; args = new String[] { "src/algs15/perc/perc-input10.txt" };
    //        delay = 100; args = new String[] { "src/algs15/perc/perc-input10-no.txt" };
    //        delay = 100; args = new String[] { "src/algs15/perc/perc-input20.txt" };
    //        delay = 0;   args = new String[] { "src/algs15/perc/perc-input50.txt" };
    //        delay = 0;   args = new String[] { "src/algs15/perc/perc-greeting57.txt" };
    //        delay = 100; args = new String[] { "src/algs15/perc/perc-snake13.txt" };
    //        delay = 0;   args = new String[] { "src/algs15/perc/perc-snake101.txt" };
    //        delay = 10;  args = new String[] { "src/algs15/perc/perc-heart25.txt" };
            delay = 100; args = new String[] { "10" };

    if (args.length >= 2) throw new RuntimeException("Command line argument should be a filename or integer");
    else if (args.length == 0) simulateFromRandom(10);
    else {
      try {
        int N = Integer.parseInt(args[0]);
        simulateFromRandom(N);
      }
      catch (NumberFormatException e) {
        String filename = args[0];
        simulateFromFile(filename);
      }
    }
  }
}