/* *****************************************************************************
* Compilation: javac-algs4 InteractivePercolationVisualizer.java
* Execution: java-algs4 InteractivePercolationVisualizer n
* Dependencies: PercolationVisualizer.java Percolation.java
*
* This program takes the grid size n as a command-line argument.
* Then, the user repeatedly clicks sites to open with the mouse.
* 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.
*
**************************************************************************** */
import edu.princeton.cs.algs4.StdDraw;
import edu.princeton.cs.algs4.StdOut;
public class InteractivePercolationVisualizer {
private static final int DELAY = 20;
public static void main(String[] args) {
// n-by-n percolation system (read from command-line, default n = 10)
int n = 10;
if (args.length == 1) n = Integer.parseInt(args[0]);
// turn on animation mode
StdDraw.enableDoubleBuffering();
// repeatedly open site specified by mouse click and draw system
StdOut.println(n);
Percolation percolation = new Percolation(n);
PercolationVisualizer.draw(percolation, n);
StdDraw.show();
while (true) {
// detected mouse click
if (StdDraw.isMousePressed()) {
// screen coordinates
double x = StdDraw.mouseX();
double y = StdDraw.mouseY();
// convert to (row, col)
int row = (int) (n - Math.floor(y) - 1);
int col = (int) (Math.floor(x));
// open site (i, col) provided it's in bounds
if (row >= 0 && row < n && col >= 0 && col < n) {
if (!percolation.isOpen(row, col)) {
StdOut.println(row + " " + col);
}
percolation.open(row, col);
}
// draw n-by-n percolation system
PercolationVisualizer.draw(percolation, n);
}
StdDraw.show();
StdDraw.pause(DELAY);
}
}
}
