Commit Graph

6 Commits

Author SHA1 Message Date
Robert Osfield
ed57c8718c Added ability to populate a local vertex cache for when one computes final vertex position in a vertex shader but still want to the Primitive functors to work with the transformed positions.
git-svn-id: http://svn.openscenegraph.org/osg/OpenSceneGraph/trunk@14655 16af8721-9629-0410-8352-f15c8da7e697
2015-01-12 10:30:50 +00:00
Robert Osfield
98bd058317 Fixed warnings 2009-01-07 10:32:59 +00:00
Robert Osfield
f4afa427a7 From Roland Smeenk, "Attached you will find a large set of small typo fixes (mainly in the comments)." 2007-12-10 17:30:18 +00:00
Robert Osfield
1b1c5bbdd1 Added support for new double Vec*Array classes in various functors. 2007-12-04 14:46:46 +00:00
Robert Osfield
02b31fdcd9 From Peter Hrenka, fixes regarding line-strips and -loops. 2007-05-24 10:15:50 +00:00
Robert Osfield
30a06a033e From Peter Hrenka, (note from Robert Osfield, renamed GenericPrimitiveFunctor mention below to TemplatePrimitiveFunctor).
"Since we desperately needed a means for picking Lines
and Points I implemented (hopefully!) proper geometrical tests
for the PolytopeIntersector.

First of all I implemented a new "GenericPrimiteFunctor"
which is basically an extended copy TriangleFunctor which also
handles Points, Lines and Quads through suitable overloads of
operator(). I would have liked to call it "PrimitiveFunctor"
but that name was already used...
I used a template method to remove redundancy in the
drawElements method overloads. If you know of platforms where
this will not work I can change it to the style used
in TriangleFunctor.

In PolytopeIntersector.cpp I implemented a
"PolytopePrimitiveIntersector" which provides the needed
overloads for Points, Lines, Triangles and Quads to
the GenericPrimitiveFunctor. This is then used in the
intersect method of PolytopeIntersector.

Implementation summary:
- Points: Check distance to all planes
- Lines: Check distance of both ends against each plane.
  If both are outside -> line is out
  If both are in -> continue checking
  One is in, one is out -> compute intersection point (candidate)
  Then check all candidates against all other polytope
  planes. The remaining candidates are the proper
  intersection points of the line with the polytope.
- Triangles: Perform Line-Checks for all edges of the
  triangle as above. If there is an proper intersection
  -> done.
  In the case where there are more than 2 polytope
  plane to check against we have to check for the case
  where the triangle encloses the polytope.
  In that case the intersection lines of the polytope
  planes are computed and checked against the triangle.
- Quads: handled as two triangles.

This is implementation is certainly not the fastest.
There are certainly ways and strategies to improve it.


I also enabled the code for PolytopeIntersector
in osgkeyboardmouse and added keybindings to
switch the type of intersector ('p') and the picking
coordinate system ('c') on the fly. Since the
PolytopeIntersector does not have a canonical
ordering for its intersections (as opposed to
the LineSegementIntersector) I chaged the
implementation to toggle all hit geometries.


I tested the functionality with osgkeyboardmouse
and several models and it seems to work for
polygonal models. Special nodes such as billboards
do not work.


The next thing on my todo-list is to implement
a an improved Intersection-Structure for the
PolytopeIntersector. We need to know
which primitives where hit (and where).

"
2007-05-23 11:05:59 +00:00