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I came across this interview question

Many irregularly shaped objects are moving in random directions. Provide a data structure and algorithm to detect collisions. Remember that the number of objects is in the millions.

I am assuming that every object would have an x and y coordinate. Other assumptions are most welcome. Also a certain kind of tree should be used, I suppose, but I am clueless about the algorithm.

Any suggestions?

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3  
I would expect these objects to have more than one x and y coordinate, not just one as you mention/expect. Did you post the question verbatim? I guess not, since quite some details are missing, IMO. For example, what is an "irregular shape" exactly? –  Bart Kiers Mar 22 '11 at 8:57
    
If we assume that each object has only one coordinate, I would assume that it represents the center of the object. Thus we would need additional data to represent the shape of the object. Or we could maybe use more coordinates and thereby represent both the shape and position of the entire object. But this maybe isn't the most efficient solution... –  gablin Mar 22 '11 at 9:07
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4 Answers 4

up vote 3 down vote accepted

I would have a look at the Plane Sweep Algorithm or the Bently-Ottmann Algorithm. It uses plane sweep to determine in O(n log(n)) time (and O(n) space) the intersection of lines on a euclidian plane.

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"irregularly shaped" vs. line intersection? It could be a solution in 2D but you can do better than O(n log n). In 3D it does not work. –  knivil Mar 22 '11 at 9:32
    
@knivil - The algorithm can be extended to work in 3D space, that's why it's called PLANE sweep and not line sweep. The algorithms were for reference. –  Nico Huysamen Mar 22 '11 at 9:56
    
But it is still O(n log n). –  knivil Mar 22 '11 at 10:00
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Most likely what you want is to sub-divide the plane with a space-filling-curve like a z-curve or a hilbert-curve and thus reducing the complexity of a 2D problem to a 1D problem. Look for quadtree.

Link: http://dmytry.com/texts/collision_detection_using_z_order_curve_aka_Morton_order.html

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Why downvote? Could you explain please? –  Phpdna Mar 22 '11 at 9:46
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There are many solutions to this problem. First: Use bounding boxes or circles (balls in 3D). If the bounding boxes do not intersect then no further tests are needed. Second: Subdivide your space. You do not have to test every object against all other objects (that is O(n^2)). You can have an average complexity of O(n) with quadtrees.

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I guess there should be a loop which takes reference of 1 object find co-ordinates and then checks with rest of all other objects to see if there is any collision. I am not sure how good my solution is for millions of objects. Psuedo-code:

For each irregular shaped object1    

int left1, left2;
int right1, right2;
int top1, top2;
int bottom1, bottom2;
bool bRet = 1; // No collision

left1 = object1->x;
right1 = object1->x + object1->width;
top1 = object1->y;
bottom1 = object1->y + object1->height;

For each irregular shaped object2
{
    left2 = object2->x;
    right2 = object2->x + object2->width;
    top2 = object2->y;
    bottom2 = object2->y + object2->height;

    if (bottom1 < top2) bRet =0;
    if (top1 > bottom2) bRet = 0;

    if (right1 < left2) bRet = 0;
    if (left1 > right2) bRet = 0;
}

return  bRet;
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Don't know how 'irregular' these shapes are. Sounds more like rectangles. –  gablin Mar 22 '11 at 9:10
    
the above algo by NatashaD is completely wrong don't follow it. You need to give a range of objects space and check if obj1 range is in obj2 rang and vice versa then collision occurred else not. –  Jawad Amjad Sep 27 '11 at 12:13
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