# Java Iterating Through 2D-Array

I have a 2D array in Java like so:

``````int 2d_arr[5][5];
``````

Take, for example, the board that looks like this:

``````1 1 1 1 1
0 1 1 1 1
1 1 2 1 0
0 1 1 1 1
0 0 1 1 1
``````

Starting from the 2 in the 3rd row, I want to be able to move in every direction (Up, down, left, right, and diagonals). In code, how do I traverse the array in every direction till I find a 0?

My theoretical idea would be to iterate in every direction sequentially. For example, start by going up, so I would check all the values on the line above 2

``````1
1
2
``````

Since I didn't find any zeros, check the top right diagonal

``````   1
1
2
``````

Still no 0s, so go onto the right. As soon as I find my first 0, break.

Attempt: I actually know how to do to this with a bunch of if and for loops, but I am looking for a way to edit that code to a simpler and easier to read version

But I'm new to java so I don't know the best way to go about this. Any ideas?

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Have you tried anything at all? (Helpful links for asking better questions: How to Ask, FAQ) –  Doorknob Mar 24 '13 at 21:53
Why are you starting at the 2? Do you need to find the closest 0 to the 2? –  Junebugs in July Mar 24 '13 at 21:57
yah, the two is the important piece. I need to find any zeros in it's 8 directions if there are any. –  Richard Mar 24 '13 at 22:00
so you need to know the position of the first zero found, need to know how many directions you can go in to find the 0, or need a true/false answer about whether there is a zero in any of the 8 directions? –  Junebugs in July Mar 24 '13 at 22:09
just need a true/false where there are any 0s in any 8 directions. Don't even need to go through all 8 directions, just return true for the first zero found. –  Richard Mar 24 '13 at 22:16

A TwoD Iterator would obviously be a good start. I expect you could do the rest yourself without much effort.

Finding the first zero in your scenario would involve iterating through each`Direction` and iterating across the board in that direction until the iteration ends or you find your zero.

Doing a spiral search would involve starting an iterator in each direction and doing a step and check on each one in turn until one returns a point where a zero can be found.

``````public class TwoDIteratorTest {

// An ubiquitous Point class
static class Point {
final int x;
final int y;

public Point(int x, int y) {
this.x = x;
this.y = y;
}

@Override
public String toString() {
return "{" + x + "," + y + "}";
}
}

// All possible directions.
enum Direction {
North(0, 1),
NorthEast(1, 1),
East(1, 0),
SouthEast(1, -1),
South(0, -1),
SouthWest(-1, -1),
West(-1, 0),
NorthWest(-1, 1);
private final int dx;
private final int dy;

Direction(int dx, int dy) {
this.dx = dx;
this.dy = dy;
}

// Step that way
public Point step(Point p) {
return new Point(p.x + dx, p.y + dy);
}
}

static class TwoDIterator implements Iterable<Point> {
// Where we are now
Point i;
// Direction to move in.
private final Direction step;
// Limits.
private final Point min;
private final Point max;
// Next position to go to.
Point next = null;

// Normal constructor.
public TwoDIterator(Point start, Direction step, Point min, Point max) {
i = next = start;
this.step = step;
this.min = min;
this.max = max;
}

// Some simplified constructors
public TwoDIterator(int x, int y, Direction step, Point min, Point max) {
this(new Point(x, y), step, min, max);
}

public TwoDIterator(int x, int y, Direction step, int minx, int miny, int maxx, int maxy) {
this(new Point(x, y), step, new Point(minx, miny), new Point(maxx, maxy));
}

// The iterator.
@Override
public Iterator<Point> iterator() {
return new Iterator<Point>() {
// hasNext calculates next if necessary and checks it against the stabliched limits.
@Override
public boolean hasNext() {
if (next == null) {
// Step one.
next = step.step(i);
// Stop at limits.
if (next.x < min.x
|| next.x > max.x
|| next.y < min.y || next.y > max.y) {
next = null;
}
}
return next != null;
}

@Override
public Point next() {
if (hasNext()) {
// Make our move.
i = next;
next = null;
return i;
}
return null;
}

@Override
public void remove() {
throw new UnsupportedOperationException("Not supported.");
}
};
}
}

public void test() {
// Test all directions.
for (Direction d : Direction.values()) {
System.out.print(d + " - ");
for (Point p : new TwoDIterator(0, 0, d, -5, -5, 5, 5)) {
System.out.print(p + ",");
}
System.out.println();
}
}

public static void main(String[] args) throws InterruptedException {
new TwoDIteratorTest().test();
}
}
``````
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