Add a JDK installed in vs2015 image to PATH, so java tests can be run
JDK appear to be installed in several places, so we can always pick a
different one:
C:\java\jdk\jdk1.8.0_102\bin\
C:\Program Files\Java\jdk1.8.0_102\bin
C:\Program Files (x86)\Java\jdk1.8.0_102\bin
This allows each implementation (gnu-like) and msvc to be implemented in
their respective classes rather than through an if tree in the CCompiler
class. This is cleaner abstraction and allows us to clean up the Fortran
compiler, which was calling CCompiler bound methods without an instance.
ICC doesn't use the same -fprofile-generate/-fprofile-use that GCC and
Clang use, instead it has -prof-gen and -prof-use. I've gone ahead and
added the threadsafe option to -prof-gen, as meson currently doesn't
have a way to specify that level of granularity and GCC and Clang's
profiles are threadsafe.
part of using ICC is configuring LD_LIBRARY_PATH so that you can link
with several Intel specific .so's. Currently meson blanket overrides the
LD_LIBRARARY_PATH in several tests which breaks them. Instead prepend
the test dir td LD_LIBRARY_PATH. Fixes 6 tests with ICC.
This commit adds a nice decorator helper for skipping tests when they
require the compiler to implement a specific base option, and uses it to
turn off b_sanitize tests, which fixes some tests on ICC.
Since the last appveyor image update which also included a msys2 update
test_meson_installed() fails for the msys2 mingw jobs complaining that
the install path isn't included in PYTHONPATH.
It complains that "site-packages\" isn't included in "site-packages" ignoring
that the separator should be ignored here. Work around the issue by making
sure that the path set as PYTHONPATH always ends with os.sep.
Because we need to inherit them in some cases, and python's
keyword-or-positional arguments make this really painful, especially
with inheritance. They do this in two ways:
1) If you want to intercept the arguments you need to check for both a
keyword and a positional argument, because you could get either. Then
you need to make sure that you only pass one of those down to the
next layer.
2) After you do that, if the layer below you decides to do the same
thing, but uses the other form (you used keyword by the lower level
uses positional or vice versa), then you'll get a TypeError since two
layers down got the argument as both a positional and a keyword.
All of this is bad. Fortunately python 3.x provides a mechanism to solve
this, keyword only arguments. These arguments cannot be based
positionally, the interpreter will give us an error in that case.
I have made a best effort to do this correctly, and I've verified it
with GCC, Clang, ICC, and MSVC, but there are other compilers like Arm
and Elbrus that I don't have access to.
samu prints a different message when the build is a no-op, so make
assertBuildIsNoop consider that as well.
Also, if compile_commands.json cannot be found, just skip the test. This
seems reasonable since meson just produces a warning if `ninja -t compdb`
fails.
Finally, only capture stdout in run_meson_command_tests.py, since the
backend may print messages the tests don't recognize to stderr.
Fixes#3405.