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I'm trying to write a program that handles detection of various objects. The objects have an origin, width, height, and velocity. Is there a way to set up a data structure/algorithm so that every object isn't checking with every other object?

Some sample code of the problem I'm trying to avoid:

for (int i = 0; i < ballCount; i++)  
    for (int j = i + 1; j < ballCount; j++)  
        if (balls[i].colliding(balls[j]))  
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I don't think you can make it much easier than what you are currently doing, however you can make it a lot faster. Is that what you are asking? –  Mark Byers Jul 6 '12 at 22:04

2 Answers 2

up vote 1 down vote accepted

As mentioned by other answer(s), you can use a quadtree structure to make your collision detection faster.

I would recommend the GEOS open-source C++ library, which has a good quadtree implementation. Here are the docs for their quadtree class.

So your pseudo code would look like this:

Quadtree quadtree;
// Create and populate the quadtree.
// Change it whenever the balls move.

// Here's the intersection loop:
for (int i=0; i<ballCount; ++i) {
    Envelope envelope = ...;  // Get the bounds (envelope) of ball i
    std::vector<void*> possiblyIntersectingBalls;
    quadtree.query(envelope, possiblyIntersectingBalls);
    // Now loop over the members of possiblyIntersectingBalls to check
    // if they really intersect, since quadtree only checks bounding
    // box intersection.
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You can use a quadtree to quickly find all rectangles that intersect with another rectangle. If you need to handle non-rectangular shapes, you can first find objects whose bounding boxes intersect.

Some common uses of quadtrees

  • ...
  • Efficient collision detection in two dimensions
  • ...
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