Some slight refactoring for the dependency classes and
I switched the elbrus compiler to the GnuLikeCompiler.
This is also the correct use according to the documentation
of GnuLikeCompiler.
This puts appropriate default options across buildtype for Intel and
Intel-Cl compilers, for C, C++ and Fortran. Prior to this PR, the
behavior of Intel compilers vs. GNUlike was not the same, in
particular, debug traceback available by default for GNUlike compilers
was not present with Intel compilers.
Fixes PR #6166 and more specifically commit 4e460f04f3 that tried to
make sure the type of a key variable is a string but checked the type of
the value instead. Extends test common/228's limited coverage,
its only test case had (surprise) a string value. Also avoid reserved
python keyword 'dict' and potentially confusing string 'key'.
Implements #5231 for real.
This is returning the inverse of the correct value, which happens to
work out because in general the compilers that a link.exe-like linker is
paired with accepts the same arguments.
This dumps xild on mac and linux. After a lot of reading and banging my
head I've discovered we (meson) don't care about xild, xild is only
useful if your invoke ld directly (not through icc/icpc) and you want to
do ipo/lto/wpo. Instead just make icc report what it's actually doing,
invoking ld or ld64 (for linux and mac respectively) directly. This
allows us to get -fuse-ld working on linux.
Since I spent three days banging my head against this it seems
reasonable that other people might also run into this problem. It can
happen if you're trying to use microsoft's link.exe, but also have the
dmd bin directory at the tail of your %PATH%, among other reasons.
Since we pass the whole compiler class (as a type()) we don't need to
also pass it's LINKER_PREFIX attribute, we can just get it from the
type we're passing.
Rather than trying to figure out if we're using MSVC based on
environment variables, then trying to get the C compiler and test some
attributes, get the C compiler and see if it's MSVC. This is much more
reliable and we were already doing it anyway.
Scalapack uses a library stack that can be challenging to manage.
Not least of all since many Scalapacks ship with broken / incomplete
pkg-config files and CMake FindScalapack.cmake
This resolves those issues for typical Scalapack setups including:
* Linux: Intel MKL or OpenMPI + Netlib
* MacOS: Intel MKL or OpenMPI + Netlib
* Windows: Intel MKL (OpenMPI not available on Windows)
Visual Studio refuses to open projects that present duplicated
items, for example:
<ItemGroup>
<CLInclude Include="glib-enumtypes.h"/>
<CLInclude Include="glib-enumtypes.h"/>
</ItemGroup>
Note that MSBuild handles duplicated items without any issue,
this is useful only for compatibility with the VS IDE.
See pull request mesonbuild#6151
Fixes issue mesonbuild#6147
This PR refactors the old output_target_map, which was a
raw dict, into it's own class. This makes the access to
the map more uniform and robust (at the cost of more lines
of code).
Additionally relative paths to the build directory are
now also tracked for outputs. This is neccessary to
corretcly distingluish files with the same name, that are
in different directories.
The linker implementation split up introduced a regression: since the
AppleDynamicLinker subclass doesn't expose PIE support, builds using
that feature just plainly fail.
Add back support for it using the default and supported -pie flag.
507cf47507cf47 broke the combination of clone-recursive without depth.
Because it passed depth (as None) to git.
To fix this the depth option is now generated once as a list when depth is set
and else set to an empty list and unpacked into the argument this when
needed. This reduces duplication and allows code to work the same for
both cases.
This addresses various real-world problems with HDF5 pkg-config, including
* hdf*.pc with package versions as part of the filename
* malformed hdf*.pc missing the commonly-used HDF5 HL module
---
Additionally, this refactors more complicated dependencies such as
HDF5 and OpenMPI. This may help us deduplicate internal dependency
code in the future.
HDF5 selftest: improve platform-agnostic test
ci: init demo github action for HDF5 framework
ci Actions: hold off on MSYS2 for now [skip ci]
hdf5: ensure C libraries always included
ci: mac hdf5--use clang+gfortran
When lrelease-qtN is missing, upgrade the error message from the
cryptic:
meson.build:75:4: ERROR: Tried to use not-found external program in "command"
to the meaningful:
meson.build:75:4: ERROR: qt.compile_translations: lrelease-qt5 not found
Issue found and tested with "test cases/frameworks/4 qt/"