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I have values for the following variables::

x0,y0,z0 = coords of the first selection (intended to be center of sphere)

x1,y1,z1 = coords of the second selection (intended to be an outmost point for the sphere)

ishollow = boolean value indicating if the sphere should be hollow

The result must draw, the best it can, a perfect sphere. Here is an example:

  • 3D space is 100x100x100
  • point 50,50,50 is selected first (i.e. x0 = 50; y0 = 50, z0 = 50)
  • point 76,67,84 is selected second (i.e. x1 = 76; y1 = 67, z1 = 84)
  • sphere is drawn with first point as center and second point as the greatest distance of any point in the sphere from the center
  • sphere must be made up of points plotted with function markpointt(x,y,z,hollowmark)
  • sphere must be hollow if ishollow = true. to make it hollow i need to specify if hollowmark is true, if so the point still needs to be placed but it overrides any existing points with a black point

I was unsure of where to start, can you point me in the direction to identify the mathimatical functions to code such a process? Thank you for your assistance in advance.

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It seems that you expect to have code written for you rather than having SO help you with the code you have written. –  High Performance Mark Dec 16 '10 at 15:37
I was more looking for the maths behind this, thats why I have not included any other reference to the code other than in the title of the question. I am sure that there is a name for the calculations I need to make, but without knowing the correct terms I have experienced a lack of relative search engine results. Just need to know the direction and I can walk the path. –  SystemX17 Dec 16 '10 at 15:43
You've listed a set of requirements. I don't see a question anywhere in here. What's the question? –  Eric Lippert Dec 16 '10 at 16:02
I have updated this so that the question is no longer only implied. –  SystemX17 Dec 17 '10 at 0:25

2 Answers 2

up vote 1 down vote accepted

The first quantity you have to compute is the radius of the sphere. This is simple, using your notation radius = sqrt((x1-x0)^2+(y1-yo)^2+(z1-z0)^2).

Next, to 'colour in' the entire sphere, you could simply loop through every voxel in your 100 x 100 x 100 space and test whether or not it is within the sphere, colouring it accordingly. There are lots of ways to make this operation more efficient, for example you could first figure out the axis-aligned bounding box for the sphere and only iterate over the points in that box. You could do all your computations in one octant of the space, then use reflection to colour in the other octants.

Drawing a hollow sphere will be rather more challenging, the radius of your sphere will, in general, be a real number, not an integer, so there won't be a nicely arranged one voxel thick shell of voxels around the centre. Instead, the naive-est algorithm (test that a voxel is exactly at the specified distance from the sphere's centre) might result in no voxels being included in the shell. You'll have to allow some tolerance in your tests for whether or not a voxel is in the shell, inside it or outside it. I expect that you'll find it quite tricky to define the tolerance such that you never have the shell two voxels thick at any point while simultaneously being zero voxels thick at other points.

If you're finding the conceptualisation of all this a little mind-bending, work it all out for a circle in 2D before tackling the 3rd dimension.

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Thanks, that is actually exactly what I was after and your explained it so I can understand. –  SystemX17 Dec 17 '10 at 0:26

Distance between points = Sphere Radius.

(Center Position) & (Sphere Radius) is all you need. You can check if a point is within the sphere if its distance to the center is less than the radius.

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