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What's the easiest way of doing this? I fail at math, and i found pretty complicate formulaes over the internet... im hoping if theres some simpler one?

I just need to know if a sphere is overlapping a cube, i dont care about which point it does that etc.

I'm also hoping it would take advantage of the fact that both shapes are symmetric.

Edit: the cube is aligned straight in the x,y,z axises

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If you don't post the complicated ones, how can we know if we have a simpler one? –  Puppy Jan 2 '11 at 15:21
Well, i thought you could make up some simple formula on top of your head. but if you cant, then i dont think its possible to make it simpler than the complicated ones i found... –  Newbie Jan 2 '11 at 15:25
Likely the complications are mostly due to considering the potential orientations of the cube. If the faces of the cube are parallel to coordinate planes, then the ideas are pretty simple to explain. In your case is the orientation of the cube variable? –  hardmath Jan 2 '11 at 15:34
oh, i forgot to mention that fact as well, so the cube indeed isnt rotated at all, sides are always going straight in the x,y,z axises –  Newbie Jan 2 '11 at 15:35
@Newbie, do you want to know whether cube and sphere intersect, or if cube is completely inside the sphere? –  Dialecticus Jan 2 '11 at 15:52

2 Answers 2

up vote 12 down vote accepted

Looking at half-spaces is not enough, you have to consider also the point of closest approach:

Borrowing Adam's notation:

Assuming an axis-aligned cube and letting C1 and C2 be opposing corners, S the center of the sphere, and R the radius of the sphere, and that both objects are solid:

inline float squared(float v) { return v * v; }
bool doesCubeIntersectSphere(vec3 C1, vec3 C2, vec3 S, float R)
    float dist_squared = R * R;
    /* assume C1 and C2 are element-wise sorted, if not, do that now */
    if (S.X < C1.X) dist_squared -= squared(S.X - C1.X);
    else if (S.X > C2.X) dist_squared -= squared(S.X - C2.X);
    if (S.Y < C1.Y) dist_squared -= squared(S.Y - C1.Y);
    else if (S.Y > C2.Y) dist_squared -= squared(S.Y - C2.Y);
    if (S.Z < C1.Z) dist_squared -= squared(S.Z - C1.Z);
    else if (S.Z > C2.Z) dist_squared -= squared(S.Z - C2.Z);
    return dist_squared > 0;
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what does C1,C2,S mean? i assume R = radius of the sphere? –  Newbie Jan 2 '11 at 15:39
x = C1.X is the left-most face of the cube, C2.X is the right-most face, C1.Y is the bottom-most face, C2.Y is the top-most face, C1.Z is the farthest face, C2.Z is the nearest face. S.{X, Y, Z} are the coordinates of the center of the sphere. –  Ben Voigt Jan 2 '11 at 15:42
what is the initial value of dist? its not declared there –  Newbie Jan 2 '11 at 15:50
I think OP wants to know if cube is inside sphere, not the other way around. –  Dialecticus Jan 2 '11 at 15:50
@mr_jigsaw: Simply change squared to abs. I think. –  Ben Voigt Oct 17 '14 at 3:44

Jim Arvo has an algorithm for this in Graphics Gems 2 which works in N-Dimensions. I believe you want "case 3" at the bottom of this page: http://www.ics.uci.edu/~arvo/code/BoxSphereIntersect.c which cleaned up for your case is:

bool BoxIntersectsSphere(Vec3 Bmin, Vec3 Bmax, Vec3 C, float r) {
  float r2 = r * r;
  dmin = 0;
  for( i = 0; i < 3; i++ ) {
    if( C[i] < Bmin[i] ) dmin += SQR( C[i] - Bmin[i] );
    else if( C[i] > Bmax[i] ) dmin += SQR( C[i] - Bmax[i] );     
  return dmin <= r2;
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isnt this exactly same as Ben Voigt's answer? (just wondering why this got upvote but his didnt). –  Newbie Jan 2 '11 at 16:24
@Newbie: I voted for it because it has a reference, but yes the code is the same –  Roman L Jan 2 '11 at 17:05
Mine doesn't give a reference because I didn't use one. I have the formula for distance in Euclidean space memorized and the rest was simple geometry. –  Ben Voigt Jan 2 '11 at 18:47
Could you give a page number or section name? –  mezhaka Mar 8 '13 at 10:43
If you want to know what this does, is it finds the point on the AABB dmin that is closest to the sphere. It then checks that dmin is inside the sphere. –  bobobobo Jul 23 '13 at 14:37

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