# Transform Java 7 code that filters collection by distance into stream

I have a working code that takes a collection and applies a filter based on a certain distance.

For example, the second point in the list has to be at least 1KM apart from the first, and any items in between those two are removed. The input is already sorted.

``````private List<Point> filterByMinimumDistance(List<Point> points, double minDistance) {
Point reference = points.get(0);
List<Point> filtered = new ArrayList<>();
filtered.add(reference);
for (Point point : points) {
double distance = getDistance(reference, point);
if (distance >= minDistance) {
reference = point;
filtered.add(point);
}
}
return filtered;
}

private double getDistance(Point p1, Point p2) {
double dx = p1.getX() - p2.getX();
double dy = p1.getY() - p2.getY();
return Math.sqrt(dx * dx + dy * dy);
}
``````

So far I haven't been able to come up with something that replaces this with a fancier stream solution. Any help would be appreciated. Thanks!

• Why do you want to do this? Just because it's "fancier"...? – Michael Sep 5 '17 at 15:16
• @Michael Not because of that, but it would improve on my skills. I'm just trying to learn here – victorantunes Sep 5 '17 at 15:17
• A semantic suggestion: The first point in the list is different than the rest: it shouldn't be part of the list. Pass it in as a separate parameter. – Nathan Merrill Sep 5 '17 at 15:20
• Actually, after reading your code again, you are assigning a new `reference` if the distance is larger than the minimum. What's the actual algorithm here trying to do? – Nathan Merrill Sep 5 '17 at 15:25
• I think this is not a good candidate for using a stream. A stream should not rely on side effects from previous iterations. – Michael Sep 5 '17 at 15:36

## 1 Answer

Well you could create a custom collector for these points:

`````` private static Collector<Point, ?, List<Point>> customCollector(double minDistance) {

class Acc {

private Point reference = null;

private List<Point> filtered = new ArrayList<>();

void accumulate(Point elem) {
if (reference == null) {
reference = elem;
}

double distance = getDistance(reference, elem);

if (distance >= minDistance) {
reference = elem;
filtered.add(elem);
}
}

Acc combine(Acc other) {
throw new UnsupportedOperationException("Not for parallel");
}

List<Point> finisher() {
return filtered;
}

private double getDistance(Point p1, Point p2) {
double dx = p1.getX() - p2.getX();
double dy = p1.getY() - p2.getY();
return Math.sqrt(dx * dx + dy * dy);
}

}

return Collector.of(Acc::new, Acc::accumulate, Acc::combine, Acc::finisher);
}
``````

Usage would be :

``````points.stream().collect(customCollector(minDistance));
``````

Also I might have to think a bit more about the `combiner` here as I am not quite sure it could be correctly implemented like this:

``````Acc combine(Acc other) {
filtered.addAll(other.filtered);
return this;
}
``````
• It really does seem like a lot of trouble. Though, I wouldn't bother with the combiner, since parallelizing this would break the constraint that requires the points to be in sequential order. But thanks for the answer! I wasn't sure of how to implement a custom collector, but you sure pointed me in the correct direction – victorantunes Sep 5 '17 at 16:26
• @victorantunes sequential or parallel does not influence the order of the results btw, I would still add a combiner once I'm done thinking about it – Eugene Sep 5 '17 at 16:28
• It's a shame that `Collector` doesn't really lend itself to being directly implemented and that you need the static method. – Michael Sep 6 '17 at 10:30