These asserts are consolidated into the unified Assert.h. Also made some
minor edits to add asserts where appropriate and a little bit of
reconfiguring as found.
Now that ScatterCounting is implemented, we can use that to implement a
good part of the triangle generation in the isosurface algorithm. This
changes the worklet from a basic map to a topology map, which also
reduces a lot of code.
The ArrayHandle classes all exclusively work in the control environment.
However, CUDA likes to add __device__ to constructors, destructors, and
assignment operators it automatically adds. This in turn causes warnings
about the __device__ function using host-only classes (like
boost::shared_ptr). Solve this problem by adding explicit methods for
all of these.
Implemented this by wrapping up all these default objects in a macro.
This also solved the problem of other constructors that are necessary
for array handles such as a constructor that takes the base array
handle.
Under CUDA, the default constructors and destructors created are exported
as __host__ and __device__, which causes problems because they used a boost
pointer that only works on the host. The explicit copy constructors and
destructors do the same thing as the default ones except declared to only
work on the host.
Remove the const from the ValueType of the delegate portal in
ArrayPortalGroupVec. This was creating a Vec with a const type, which
was immutable, which was problematic when trying to create the Vec in
the first place.