I have an unsorted list of rectangles (described as pair of lower left and upper right coordinates). I am looking for an efficient algorithm to compress this list by replacing neighboring or overlapping bboxes.

Here are my code, I am sorting all bboxes along vertical axis, try to compress and sorting result along horizontal axis and compress again. This is suboptimal but fast enough.

```
(** boundingbox, (x0,y0) means left down, (x1,y1) right upper edge *)
type bbox_t = { x0 : int; y0 : int; x1 : int; y1 : int; }
let _test_if_compressable a b =
assert(a.x0 >= 0);
assert(a.y0 >= 0);
assert(b.x0 >= 0);
assert(b.y0 >= 0);
assert(a.x1 >= a.x0);
assert(a.y1 >= a.y0);
assert(b.x1 >= b.x0);
assert(b.y1 >= b.y0);
let same_x_ab = (a.x0 == b.x0) && (a.x1 == b.x1) in
let same_y_ab = (a.y0 == b.y0) && (a.y1 == b.y1) in
(same_x_ab && same_y_ab) ||
(same_x_ab && (a.y1 >= (b.y0-1)) && (a.y0 <= b.y0)) ||
(same_x_ab && (b.y1 >= (a.y0-1)) && (b.y0 <= a.y0)) ||
(same_y_ab && (a.x1 >= (b.x0-1)) && (a.x0 <= b.x0)) ||
(same_y_ab && (b.x1 >= (a.x0-1)) && (b.x0 <= a.x0))
;;
(* compresses list of bboxes by joining bboxes of same dimension
* @param sort1 primary sorting function (hsort)
* @param sort2 secondary sorting function (vsort)
* @param bboxlst list of bboxes
* @return list of bboxes
*)
let compress_bboxes sort1 sort2 bboxlst =
let rec compr lst newlst =
let _calc_new bbox1 bbox2 =
let miny = min bbox1.y0 bbox2.y0
and maxy = max bbox1.y1 bbox2.y1
and minx = min bbox1.x0 bbox2.x0
and maxx = max bbox1.x1 bbox2.x1
in
{x0=minx; y0=miny; x1=maxx; y1=maxy}
in
match lst with
[] -> List.rev newlst
| hd::[] -> List.rev (hd::newlst)
| hd1::hd2::tl when hd1 = hd2 -> compr tl (hd1::newlst)
| hd1::hd2::tl when _test_if_compressable hd1 hd2 -> let b = _calc_new hd1 hd2 in compr tl (b::newlst)
| hd1::hd2::tl ->
compr (hd2::tl) (hd1::newlst)
in
let newxlst = compr (sort1 bboxlst) [] in
let newylst = compr (sort2 newxlst) [] in
newylst
;;
```

Another solution is a greedy one, but very low:

```
let first_partition e lst =
let rec _first_partition accu =
function
[] -> None
| hd::tl when not (_test_if_compressable hd e) ->
_first_partition (hd::accu) tl
| hd::tl -> Some (hd, (List.rev_append accu tl))
in
_first_partition [] lst
in
let rec _compr accu =
function
[] -> List.rev accu
| hd::tl ->
match (first_partition hd tl) with
None -> _compr (hd::accu) tl
| Some (c,r) -> let newbbox = get_surrounding_bbox [c;hd] in
_compr (newbbox::accu) r
in
_compr [] lst (* call this repeately to improve compression *)
```

Do you have additional hints? The algorithm must not compress perfectly, but should be fast and reduce the size of resulting rectangles (bboxes). Could anybody help?