I would store the points as objects with two attributes: x and y, and a comparative function, which sorts them on one attribute or the other, using the remaining attribute as a tie breaker:

```
function Point(x, y){
this.x = x;
this.y = y;
this.compareTo =function(otherPoint){
if(otherPoint.x != this.x)
return this.x-otherPoint.x;
return this.y-otherPoint.y;
}
}
points[n] = new Point(someX, someY);
```

Then, you can use a sorting algorithm (such as QuickSort - with *O(n log(n))*) to sort them, and a simple insertion sort to keep them sorted as Points come and go. When you need to use your rectangle select, you can simply do a binary search across them (*O(log(n))*) to find the boundaries of the first attribute(say, `x`

), then again across that smaller set to find the boundaries of the secont attribute(say, `y`

), and the remaining set will be the ones you're looking for, making your search time (*O(4 log(n)*) worst case, and your your insert time linear(worst case). Not too shabby, if I do say so myself.