One can simply check the difference between the coordinates.

Here's a visual representation of my thoughts:

```
c
b ___
___2
| /\
a | / \
| / \3
1\ / |
\ / | a
\/ |
4___
b
```

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);
else
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;
}
```

`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