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So I am trying to write a simple method which takes in set of four coordinates and decide whether they form a square or not.My approach is start with a point and calculate the distance between the other three points and the base point.From this we can get the two sides which have same value and the one which is a diagonal.Then I use Pythagoras theorem to find if the sides square is equal to the diagonal.If it is the isSquare method return true else false.The thing I want to find out is there some cases I might be missing out on or if something is wrong with the approach.Thanks for the all the help.

public class CoordinatesSquare {

public static boolean isSquare(List<Point> listPoints) {
    if (listPoints != null && listPoints.size() == 4) {
        int distance1 = distance(listPoints.get(0), listPoints.get(1));
        int distance2 = distance(listPoints.get(0), listPoints.get(2));
        int distance3 = distance(listPoints.get(0), listPoints.get(3));

        if (distance1 == distance2) {
            // checking if the sides are equal to the diagonal
            if (distance3 == distance1 + distance2) {
                return true;

        } else if (distance1 == distance3) {
            // checking if the sides are equal to the diagonal
            if (distance2 == distance1 + distance3) {
                return true;

    return false;

private static int distance(Point point, Point point2) {
    return (int) (Math.pow(point2.x - point.x, 2) + (Math.pow(point2.y
            - point.y, 2)));

public static void main(String args[]) {
    List<Point> pointz = new ArrayList<Point>();
    pointz.add(new Point(2, 2));
    pointz.add(new Point(2, 4));
    pointz.add(new Point(4, 2));
    pointz.add(new Point(4, 4));

//Point Class
 public class Point {
Integer x;
Integer y;
boolean isVisited;

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

public boolean equals(Object obj) {
    if(obj!=null && obj.getClass().equals(this.getClass())){
        return ((Point) obj).x.equals(this.x)&&((Point) obj).y.equals(this.y);
    return false;

share|improve this question
are you sure you want to round the distance between points to integers? –  Thilo Aug 1 '13 at 23:35
FYI: Point classes already exist in java with methods like distance already defined. Point2D which has int and double implementations –  Java Devil Aug 1 '13 at 23:43
Thanks @Thilo now that I think about it I should have used double. –  luckysing_noobster Aug 1 '13 at 23:47
Re: rounding: actually, since this is the square of the distance, int should be fine. Better not to use Math.pow in the first place, stay in the realm of integer calculation. –  Thilo Aug 1 '13 at 23:50
You want to make it clear (at least in your function name) that you are calculating the square of the distance, not the distance. –  Teepeemm Aug 2 '13 at 0:41

7 Answers 7

You know, you can do the same check much easier. You just have to check two things: "four points make a parallelogram" and "one of its angles is right".

First is true when P3 = P1 + (P2-P1) + (P4-P1)

And the second when (P2-P1)*(P4-P1) = 0

Where A*B is a dot product (A.x * B.x + A.y * B.y)

The only catch here is computational error. You can't expect floats to be exactly equal, so instead of A=B you should consider using something like abs(A-B) < E where E is small enough for your case.

share|improve this answer
you need to be sure that p1, p2 are not adjacent. nonetheless, +1 –  collapsar Aug 2 '13 at 9:59
To make sure the points are in the right order, see stackoverflow.com/q/18084065/752320 –  Geobits Aug 6 '13 at 16:24

Here's a corner case:

What if dist1 is the diagonal distance of the square? (I'm assuming the 4 points are in arbitrary order.)

You probably need to do another check for the distances:

if(dist1 == dist2){
    //do stuff
else if(dist1 == dist3){
    //do stuff
else if(dist2 == dist3){
    //do stuff
else return false;
share|improve this answer
That makes sense.Thanks for pointing it out!! –  luckysing_noobster Aug 1 '13 at 23:50

Your function doesn't take everything into account. You're only checking one point against the others. jwpat7 mentions this, so here's an example:

bad square!

Assume the points are in this order: (red, yellow, green, blue), and each block on the grid is one.

Your distance1 and distance2 will both be equal to 4, so you're essentially saying that the last point can be any point where distance3 = 8. This is the blue line. If the last point is anywhere on that line, you just approved it as square.

You can fix this easily by doing the same check , but using the next coordinate as the 'base', instead of 0. If your check passes for two points, it's definitely a square.


You can check if it's not a square. In a valid square, there are only two valid distances, side length(s), and diagonal length(d).

Since you're using squared distance, d = s * 2

If any distance(there are only six) does not equal either d or s, it cannot be a square. If all six do, it must be a square.

The advantage is that if you check to prove it is a square, you have to do all six distance checks. If you want to prove it's not a square, you can just stop after you find a bad one.

So, it depends on your data. If you're expecting more squares than non-squares, you might want to check for squareness. If you expect more non-squares, you should check for non-squareness. That way you get a better average case, even though the worst case is slower.

public static boolean isSquare(List<Point> points){
    if(points == null || points.size() != 4)
        return false;
    int dist1 = sqDistance(points.get(0), points.get(1));
    int dist2 = sqDistance(points.get(0), points.get(2));
    if(dist1 == dist2){ //if neither are the diagonal
        dist2 = sqDistance(points.get(0), points.get(3));
    int s = Math.min(dist1, dist2);
    int d = s * 2;

    for(int i=0;i<points.size;i++){
        for(int j=i+1;j<points.size();j++){
            int dist = sqDistance(points.get(i), points.get(j));
            if(dist != s && dist != d))
                return false;
    return true;
share|improve this answer

If you add an else if(dist2 == dist3){...} alternative (as suggested in another answer also) then it is true that your isSquare method will recognize a square when the four points form a square. However, your code will also report some non-squares as being squares. For example, consider the set of points {(0,0), (1,1), (0,-1), (-1,0)}. Then your distance1,2,3 values are 2, 1, 1, respectively, which will satisfy the tests in the dist2 == dist3 case.

Any non-degenerate quadrilateral has a total of six inter-corner distances. Knowing five of those distances constrains the remaining distance to either of two values; that is, it doesn't uniquely constrain it. So I imagine that a square-testing method based on inter-corner distances will have to compute and test all six of them.

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You are not using the Pythagorean Theorem correctly. The Pythagorean Theorem states that the sum of the squares of two legs is the square of the diagonal, and you are interpreting it to mean that the sum of the two legs is equal to the diagonal. You should use this for the Pythagorean Theorem testing:

if (distance3 == Math.sqrt(distance1*distance1 + distance2*distance2)) {
    return true;
share|improve this answer
In fact, he does - his distance Function actually Computes the square distance. –  collapsar Aug 1 '13 at 23:41
@collapsar I didn't see that –  tbodt Aug 1 '13 at 23:42
the distance method squares the distance. –  luckysing_noobster Aug 1 '13 at 23:46

Does this make sense?


function isSquare(p1,p2,p3,p4){
  if ((areACorner(p1,p2,p3) && areACorner(p4,p2,p3))
   || (areACorner(p1,p2,p4) && areACorner(p3,p2,p4))
   || (areACorner(p1,p3,p4) && areACorner(p2,p3,p4))) return true

  return false

function areACorner(p1,p2,p3){
  //pivot point is p1
  return Math.abs(p2.y - p1.y) == Math.abs(p3.x - p1.x) 
      && Math.abs(p2.x - p1.x) == Math.abs(p3.y - p1.y)




share|improve this answer

One can simply check the difference between the coordinates.

Here's a visual representation of my thoughts:

      b ___
  |    /\
a |   /  \
  |  /    \3
    1\    / |
      \  /  | a
       \/   |

It's not entirely clear from the picture, but c is the difference in x between 2 and 3, while b is the difference between 3 and 4 (these will only be the same for a 45-degree rotated square).

We simply need to check that that the a's and b's are the same, and then check that c equals a for all possible squares (c = a is to ensure it really is a square, otherwise it can be any rectangle).

So, the function will look something like this: (untested)

static boolean isSquare2(Point p1, Point p2, Point p3, Point p4)
  return p2.y - p1.y == p3.y - p4.y &&
         p2.x - p1.x == p3.x - p4.x &&
         p2.y - p1.y == p3.x - p2.x;

This function will then need to be called for each permutation of points and if any of them returns true, we've got a square. Wait, what? There are a ton of those! That's not very efficient. Fear not though, we can do a lot better.

Due to the fact that it doesn't really matter which point we put in the first position and that all possibilities of a point the second position will cover all possibilities of that point in the fourth position (i.e. p1 -> p2 -> p3 -> p4 is the same square as p1 -> p4 -> p3 -> p2), we are left with a staggering 3 possibilities:

p1 -> p2 -> p3 -> p4, p1 -> p2 -> p4 -> p3 and p1 -> p3 -> p2 -> p4.

So just call the function for those.

If we're restricted to axis-aligned squares:

One can simply check that the respective coordinates match.

For a performance boost, the additional function can be removed and the whole thing can simplified (or rather complicated) to a single statement, but that won't be very readable.

Code (untested):

public static boolean isSquare(List<Point> list)
  if (list == null || list.size() != 4)
    return false;
  Point p1 = list.get(0),
        p2 = list.get(1),
        p3 = list.get(2),
        p4 = list.get(3);
  if (p1.x == p2.x)
    return isSquare2(p1, p2, p3, p4);
  else if (p1.x == p3.x)
    return isSquare2(p1, p3, p2, p4);
  else if (p1.x == p4.x)
    return isSquare2(p1, p4, p2, p3);
    return false;

// assumes p1 and p2 have the same x and checks the other coordinates
private static boolean isSquare2(Point p1, Point p2, Point p3, Point p4)
  if (p3.x != p4.x)
    return false;
  if (p1.y == p3.y)
    return p2.y == p4.y;
  else if (p1.y == p4.y)
    return p2.y == p3.y;
  return false;
share|improve this answer

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