The cell derivative/gradient functions were all designed with scalars in
mind. Although the field type is templated and you could pass in a
vector type for the field, many of these classes would perform the
computation incorrectly. These changes specifically support derivatives
of vector types.
The shape array in CellSetExplicit was changed a while ago to be of type
vtkm::UInt8. However, the shape types remained at vtkm::IdComponent. I
can think of no reason why they should not be the same type.
Change the VTKM_CONT_EXPORT to VTKM_CONT. (Likewise for EXEC and
EXEC_CONT.) Remove the inline from these macros so that they can be
applied to everything, including implementations in a library.
Because inline is not declared in these modifies, you have to add the
keyword to functions and methods where the implementation is not inlined
in the class.
8dadf560 Add in support for vector fields to Gradient worklet.
d53f43fb CellDerivaties now support computing the derivatives of vtkm::Vec fields.
b4378c85 Allow vtkm::Matrix to support T values which are vtkm::Vec.
9caabf97 vtkm::Vec now supports +=, -=, *=, and /=.
Acked-by: Kitware Robot <kwrobot@kitware.com>
Acked-by: Kenneth Moreland <kmorel@sandia.gov>
Merge-request: !608
This usage of raw_referenc_cast returns a const PortalValue which is than
assigned too. So to work around the problem we need to mark operator= on
the class as const.
There were many tests that created code paths for every base and Vec
type that VTK-m supports (up to 4 components). Although this is
admirable, it is also excessive, and our compile times for the tests are
very long.
To shorten compile times, remove the TryAllTypes method. Replace it with
a version of TryTypes that uses a default list of "exemplar" set of
integers, floats, and Vecs.
The UnitTestParametricCoordinates test uses a pseudorandom number
generator to create some random set of parametric coordinates, convert
to world coordinates, and then back to parametric coordinates.
This has been working fine except that the world coordinate to parametric
coordinate conversion is not extremely precise for some cell shapes. (It
would not be cost effective to make it more precise.) Because of this,
the test_equal for this comparison has a pretty high threshold.
While looking at a dashboard I happened across a failure for this test.
It turns out that one of the parametric coordinates created for the
pyramid test for seed 1465529014 was just outside of this threshold, but
otherwise correct. I raised the threshold a little to try to prevent
this error.
ThreadIndicies constructor was templated on the invocation type, which created
thousand's of versions of that symbol which all had the same behavior. So now
remove that and move that logic into a Worklet function since it requires
the invocation info.
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.
All the other math functions are in the vtkm package. This one was in
vtkm::exec because it uses a callback method. This can be problematic on
CUDA the the declaration of NewtonsMethod does not match the callback
method. However, we now have a VTKM_SUPPRESS_EXEC_WARNINGS macro that
allows a VTKM_EXEC_CONT_EXPORT function (like NewtonsMethod) to call
either a VTKM_EXEC_EXPORT or VTKM_CONT_EXPORT without a warning.