I have a collection of 1*1 polygons, each of which is defined by its boundary (a set of four points) and I use the function **area()** below in my code example to create these. I wish to combine such adjacent squares into a single polygon, with this polygon also defined in terms of its boundary points.

I wish to do this in a brute force fashion where I begin by adding two adjacent 1*1 squares to create a larger polygon using the function **join()** below and continue in this fashion in order to grow the polygon. So the first argument of join is the polygon so far and the second argument is an adjecent 1*1 square which I wish to add to the polygon. The return value is the boundary of the new polygon, **current** joined with the new 1*1.

Here's what I've come with so far:

```
def join(current, new):
""" current is the polygon, new the 1*1 square being added to it"""
return get_non_touching_part_of_boundary(current, new) + get_non_touching_part_of_boundary(new, current)
def get_non_touching_part_of_boundary(this, other):
for i,point in enumerate(this):
if point not in other and this[i-1] in other:
break # start of non touching boundary from a clockwise perspective
non_touching_part_of_boundary = []
for point in this[i:] + this[:i]:
if not point in other:
non_touching_part_of_boundary.append(point)
return non_touching_part_of_boundary
def area(point):
""" boundary defined in a clockwise fashion """
return [point,(point[0],point[1]+1),(point[0]+1,point[1]+1),(point[0]+1,point[1])]
a = area((0,1)) # a assigned a 1*1 polygon
a = join(a, area((0,2))) # a assigned a 2*1 polygon
a = join(a, area((1,2)))
a = join(a, area((2,2)))
a = join(a, area((2,1)))
a = join(a, area((2,0)))
print(a)
```

This gives me the following polygon shape (with the numbers representing the order in which which its composing squares are added):

```
234
1 5
6
```

The printed output of the code above gives:

```
[(2, 2), (1, 2), (1, 1), (0, 1), (0, 3), (3, 3), (3, 0), (2, 0)]
```

this is the minimum number of points required to defined the boundary of the polygon.

But if I add one more square to this shape via **a = join(a, area((1,0)))** and thereby creating a hole, my algorithm falls to pieces:

```
234
1 5
76
```

Here's another polygon that my algorithm can't handle:

```
123
64
5
```

Can anyone help me? I'd like the holes in the polygon to be listed in a separate list.

Thank!