My challenge is to find the shortest path between two points A and B in a cartesian plan, tracing the path across the other points, respecting the following:
1) There's no edges (disconnected graph);
2) The distance between two "neighbors" points cannot be greater than a specified value (For example P16->B).

In this case:

   P1      P2      P3      P4      P5
   P8      P9      P16                 B
       P10                     P15
           P11     P12     P13     P14

the path should be:


My first try was to iterate over all nodes, creating edges and after this, applying the dijkstra algorithm. But it seems to be very slow for big graphs.

for(Point ori : points)
    for(Point dest : points)
        if(!ori.equals(dest) && distance(ori, dest) <= maxDistance))

List<Point> path = dijkstra(points, pointA, pointB);

There's another best solution?

  • Why isn't the answer the shorter path A->P1->P9->P16->B? – Jim Garrison Jan 25 '18 at 20:47
  • 1
    Or the even shorter path A->P1->B (assuming the points are laid out in a representation of their actual positions). Or even shorter: A->B? The problem is underspecified unless you know what paths between points are permitted and which are not, and if all paths are permitted, then any path that deviates from A->B will of necessity be longer. – Jim Garrison Jan 25 '18 at 21:01
  • Because in this example I try to explain that the path cannot have edges with size greater than the max permitted between two points. P1 is too far from B. – elias Jan 25 '18 at 22:00
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    The only obvious optimization is to interleave Dijkstra with reachable neighbor identification, although this probably wouldn't save a huge amount of time. – Jim Garrison Jan 25 '18 at 22:32
  • 1
    You could build a kD-tree or quadtree of the points, and for each point search for neighbors contained in a circle with radius equal to the maximum distance; Here is an example. This will reduce the graph-building time complexity from O(n^2) to O(n log n) (for relatively sparse point-sets) – meowgoesthedog Jan 25 '18 at 22:41

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