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Here is an example 3D geometry.

dat=Import["ExampleData/747.3ds.gz", ImageSize -> Medium]

Now if one wants to get a BSplineFunction for this 3D geometry what is the easiest way to do it?

I can see the parts in Mathematica using the following command.

parts = Length[(dat // First // Last)];

and here comes the 3D points after extraction.

ListPointPlot3D[Flatten[Map[((dat // First // Last)[[#]] /. 
  GraphicsComplex[a_, b_] -> List[a]) &, Range[parts]], 1]]

I hope there is a general method so that we can form a BSpline function from any 3D graphics complex. I suppose the general method will be able to convert Mathematica 3D representations in continuous BSplines representation.

Now we will elaborate according to the example given by belisarius.

v={{0,0,0},{2,0,0},{2,2,0},{0,2,0},{1,1,2}};
i={{1,2,5},{2,3,5},{3,4,5},{4,1,5}};
Graphics3D[{Opacity[.5],GraphicsComplex[v,Polygon[i]]}]

enter image description here

We can simply form the input for the BSpline surface for this example.

dat = Table[Map[v[[#]] &, i[[j]]], {j, 1, Length[i]}];

Now let's see the surface that comes out if we consider the underlying vertices.

Show[
     (* Vertices *)
     ListPointPlot3D[v,PlotStyle->{{Black,PointSize[.03]}}],
     (* The 3D solid *)
     Graphics3D[{Opacity[.4],GraphicsComplex[v,Polygon[i]]}],
     (* The BSpline surface *)
     Graphics3D[{Opacity[.9],FaceForm[Red,Yellow],
                 BSplineSurface[dat, SplineDegree-> {1,2},SplineClosed->{True,False}]}
                ],
     Boxed-> False,Axes-> None
    ]

enter image description here

Once this surface is formed I thought it will be possible to make a BSplineFunction in some way. But what I get is completely different from the above surface.

func = BSplineFunction[dat, SplineDegree -> {1, 2},SplineClosed -> {True, False}];
Plot3D[func[x, y], {x, 0, 1}, {y, 0, 1}, Mesh -> None,PlotRange -> All]

enter image description here

So am I making some conceptual mistake here?

share|improve this question
    
Before I forget: PlatoManiac, welcome on StackOverflow! Don't forget to vote for answer(s) below that you like and, if one of them answers your question to your satisfaction, please accept it by using the check-mark next to the answer. You can change your choice whenever you like. – Sjoerd C. de Vries Jun 7 '11 at 13:26
    
@Sjoerd Actually you are right! The answer is still not there. We still did not find how to form this type of BSpline for much more complex 3D imports like the Boing model. – PlatoManiac Jun 7 '11 at 14:16

I think your question needs further clarification.

The .3DS are mainly Polygon sets like this one:

v = {{0, 0, 0}, {2, 0, 0}, {2, 2, 0}, {0, 2, 0}, {1, 1, 2}};
i = {{1, 2, 5}, {2, 3, 5}, {3, 4, 5}, {4, 1, 5}};
Graphics3D[{Opacity[.5], GraphicsComplex[v, Polygon[i]]}]

enter image description here

So, it is not obvious how to get Spline surfaces to model this.

Perhaps you can elaborate a little with this example.

HTH!

share|improve this answer

Minor detail: Your spline is a bit warped and that's because of your choice of SplineDegree. For the pyramid case I'd choose {2,1} instead of {1,2}. That will give you a cone instead of the soft-ice cone you now have. Of course, that's all rather arbitrary and beauty is in the eye of the beholder.

enter image description here

Now for your question why a 3D plot of the BSplineFunction doesn't give the same results as a Graphics3D of a BSplineSurface with the same control points. The problem is that you assume that the two parameters in the BSplineFunction correspond to x and y of a Cartesian coordinate system. Well, they don't. Those parameters are part of an internal parametric description of the surface, in which varying these two parameters yields a set of 3D points, so you have to use ParametricPlot3D here.

So, if you change your Plot3D into ParametricPlot3D you'll see all is fine.

I hope this answers you final question. Does this also answer your question how to convert a 3D polygon based model to a spline based model? One of the problems you face is that a spline doesn't usually go through its control points, as a kind of interpolating function.

share|improve this answer
    
+1 Yep, the ParametricPlot is the main issue – Dr. belisarius Jun 7 '11 at 13:42
    
There are similar constructs with the interpolating property. I think the name of the beasts are Catmull-Rom or something like that – Dr. belisarius Jun 7 '11 at 13:44
    
I am sorry!!! I made the mistake in hurry. I always use ParametricPlot3D for BSpline visualization. Not sleeping last night and editing the post this morning might be the reason. Thanks anyways!! – PlatoManiac Jun 7 '11 at 13:57
    
However I will now try applying the same trick with the Boeing 3DS model. The GraphicsComplex in that case seems to be more complex than the pyramid we were playing so far. – PlatoManiac Jun 7 '11 at 13:59

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