A hash table works fairly well as an approximate intersection test. Hash tables are used as part of a more sophisticated algorithm for detecting collisions in ODE.

Logically, this test divides the space into a regular grid. Each grid cell is labeled with a list of objects that intersect that cell. The grid is initialized by scanning all objects. I don't know javascript, so I'll use python-ish pseudocode.

```
for each ob in objects:
for each x in [floor(ob.x_min / grid_size) .. floor(ob.x_max / grid_size)]:
for each y in [floor(ob.y_min / grid_size) .. floor(ob.y_max / grid_size)]:
hashtable[hash(x, y)].append(ob)
```

To find collisions with a given object, look up near-collisions in the hash table and then apply an exact collision test to each one.

```
near_collisions = []
for each x in [floor(ob.x_min / grid_size) .. floor(ob.x_max / grid_size)]:
for each y in [floor(ob.y_min / grid_size) .. floor(ob.y_max / grid_size)]:
near_collisions = near_collisions ++ hashtable[hash(x, y)]
remove duplicates from near_collisions
for each ob2 in near_collisions:
if exact_collision_test(ob, ob2):
do_something
```