There are numerous scripts and configuration files defined in the CI setup
and elsewhere that were missing the copyright statement. Add more types
of files to check in the CopyrightStatement test, and update the files
with the appropriate statement.
* ci-arch-tags-1.9:
gitlab-ci: use arch-specific tags for OS selection
gitlab-ci: add missing feature tag for doxygen submission
gitlab-ci: use arch-specific tags for OS selection
The reason why we did not support shared libraries when CUDA compiles
were on is that virtual methods require a special linking step to pull
together all virtual methods that might be called. I other words, you
cannot call a virtual CUDA method defined inside a library. This
requirement goes away when virtuals are removed.
Also removed the necessity of using seprable compilation with cuda.
Again, this is only needed when a CUDA function is defined in one
translation unit and used in another. Now we can enforce that all
translation units define their own CUDA functions.
Also, suppress warnings in cuda/internal/ExecutionPolicy.h
This is where we call the thrust algorithms. There must be some loop
where it, on some code path, calls back a host function. This must be in
an execution path that never happens. The thrust version has its own
suppress, but that does not seem to actually suppress the warning (it
just means that the warning does not tell you where the actual call is).
Get around the problem by suppressing the warnings in VTK-m.
Co-authored-by: Kenneth Moreland <morelandkd@ornl.gov>
Co-authored-by: Vicente Adolfo Bolea Sanchez <vicente.bolea@kitware.com>
Signed-off-by: Vicente Adolfo Bolea Sanchez <vicente.bolea@kitware.com>
This limitation is caused by the fact that VTK-m caches compiler
location during the build stage for these tests, and this fails
on the test image as the compiler might not exist or is in a
different path
A single gitlab-runner can run multiple test stages
concurrently on the same hardware. When we have 3
jobs asking for 100% of the cpu's we get a 300%
reduction in performance caused by task switching
Problem was that CMake 3.12 was the CMake version used in the
build image, and test image was using 3.13. This was a problem
as the install test invocation aren't backwards convertible and
therefore failed.