# Robust distance comparing predicate

I need a robust predicate defined by the following code:

``````CompareResult compareDistance(Point a, Point b, Point c, Point d) {
if (distance(a, b) > distance(c, d))
return Larger;
else if (distance(a, b) == distance(c, d))
return Equal;
else
return Smaller;
}
``````

Due to the floating point arithmetic limitations we can't compute `distance` exactly (even its square), so if we just directly implement this code, the predicate will not be robust. I tried to find it in CGAL library, but couldn't.

Somewhat close to the predicate I need is `compare_distance_to_point(Point p, Point q, Point r)` predicate. It returns `Smaller` if `distance(p, q) < distance(p, r)`, `Equal` if `distance(p, q) == distance(p, r)` and `Larger` otherwise. The first thought is to shift `c` and `d` by `(c - a)` vector, so we could call `compare_distance_to_point(a, b, d + (c - a))`, but this will violate robustness again. So, does anyone have an idea for adapting it?

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Check "Robust Adaptive Floating-Point Geometric Predicates" article at cs.cmu.edu/~quake/robust.html –  MBo Apr 11 '12 at 3:27

``` Kernel::Compare_distance_3 cmp;```
``` ```
```return cmp(a,b,c,d); ```