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-The current NURBS implementation has no trimming facilities yet.
-
-The code is not well commented.
-
-1) Normal calculus fails for special cases of NURBS (independent
-  of the NURBS modules)
-  Those cases arise when for u or v, some control points
-  for a fixed value of that parameter form the same point.
-  Imagine a Bezier patch degenerated into a "triangle".
-
-  v ^          0,1,2        order=3
-    |            *
-    |
-    |       3*  4*  5*
-    |
-    |    6*     7*     8*
-    |
-    |
-    +------------------------> u
-
-  The calculus of du derivative at triple point (0,1 and 2) will fail.
-  As a result, the normal vector will be 0.
-  The eval2.c code has to be changed to handle the above situation.
-
-2) Adjacent NURBS surfaces ("sharing" the same control points along
-  the "joining" edge) will be sampled with the same factor.
-  This prevents the formation of "cracks".
-  When the control polygon of the "shared" edge is not the same,
-  cracks might appear.
-
-The sampling tolerance is sometimes not respected!
-A NURBS object is broken into Bezier curves/surfaces. If one of such
-Bezier objects has a local high curvature with other portions of it
-relatively flat then the high curvature part will be sampled more dense that
-its flatter regions.
-The flat regions might be tesselated into quads having sides of length
-greater than the current sampling tolernace setting.
-I believe such behaviour is acceptable, though not along the concept of
-sampling tolerance.
-
-February 20, 1996.
-
-Bogdan.