Summary:
It appears polly makes use of the `CMAKE_RUNTIME_OUTPUT_DIRECTORY` variable
when configuring its lit test suite. Reverting this for now.
llvm-svn: 314551
Summary:
Three `CMAKE_.*_OUTPUT_DIRECTORY` variables used to be set in CMake and
referenced in various other parts of the project. However, in r198205
chapuni added a note to "don't set them anymore", and any remaining
references to them were subsequently removed in r198316 and r199592.
Now that the variables are no longer used anywhere, remove them, along
with the comments advising against using them any longer.
Test Plan:
I ran `check-all` and confirmed the tests built and passed.
Reviewers: beanz, chapuni
Reviewed By: beanz
Subscribers: mgorny
Differential Revision: https://reviews.llvm.org/D38389
llvm-svn: 314550
Config map is not exposed through the command line, so testing this
is somewhat tricky. But basically we need a test that if a custom
driver builds a config map and passes it to main, it gets respected.
A config map allows config files in the source tree to be mapped
to alternate config files in the build tree. This particular test
works by having two config files in separate directories, and
setting up a config map to have that redirects A/lit.site.cfg
to B/altconfig. Then, we print a message in A/lit.site.cfg
and B/altconfig and check that we do see the output from B
but don't see the output from A. Additionally we test that
the test suite specified by A's config map is properly discovered.
Differential Revision: https://reviews.llvm.org/D38105
llvm-svn: 313887
Many editors and Python-related diagnostics tools such as
debuggers break or fail in mysterious ways when python files
don't end in .py. This is especially true on Windows, but
still exists on other platforms. I don't want to be too heavy
handed in changing everything across the board, but I do want
to at least *allow* lit configs to have .py extensions. This
patch makes the discovery process first look for a config file
with a .py extension, and if one is not found, then looks for
a config file using the old method. So for existing users, there
should be no functional change.
Differential Revision: https://reviews.llvm.org/D37838
llvm-svn: 313849
This adds an LLVM_ENABLE_IR_PGO option to enable building llvm and its
tools with IR PGO instrumentation.
Usage: -DLLVM_BUILD_INSTRUMENTED=On -DLLVM_ENABLE_IR_PGO=On (both
options must be enabled)
Differential Revision: https://reviews.llvm.org/D38066
llvm-svn: 313770
Despite a strong CMake warning that this is an unsupported
libcxx build configuration, some bots still rely on being
able to check out lit and libcxx independently with no
LLVM sources, and then run lit against libcxx.
A previous patch broke that workflow, so this is making it work
again. Unfortunately, it breaks generation of the llvm-lit
script for libcxx, but we will just have to live with that until
a solution is found that allows libcxx to make more use of
llvm build pieces. libcxx can still run tests by using the
ninja check target, or by running lit.py directly against the
build tree or source tree.
Differential Revision: https://reviews.llvm.org/D38057
llvm-svn: 313763
The motivation is to be able to check sources outside the current
directory. See D31363 for example usage.
Differential Revision: https://reviews.llvm.org/D37859
llvm-svn: 313648
After speaking with the libcxx owners, they agreed that this is
a bug in the bot that needs to be fixed by the bot owners, and
the CMake changes are correct.
llvm-svn: 313643
This reverts commit 4ad71811d45268d81b60f27e3b8b2bcbc23bd7b9.
There is a bot that is checking out libcxx and lit with nothing
else and then running lit.py against the test tree. Since there's
no LLVM source tree, there's no LLVM CMake. CMake actually
reports this as a warning saying unsupported libcxx configuration,
but I guess someone is depending on it anyway.
llvm-svn: 313607
It looks like this is going to be non-trivial to get working
in both Py2 and Py3, so for now I'm reverting until I have time
to fully test it under Python 3.
llvm-svn: 313429
This is a resubmission of r313270. It broke standalone builds of
compiler-rt because we were not correctly generating the llvm-lit
script in the standalone build directory.
The fixes incorporated here attempt to find llvm/utils/llvm-lit
from the source tree returned by llvm-config. If present, it
will generate llvm-lit into the output directory. Regardless,
the user can specify -DLLVM_EXTERNAL_LIT to point to a specific
lit.py on their file system. This supports the use case of
someone installing lit via a package manager. If it cannot find
a source tree, and -DLLVM_EXTERNAL_LIT is either unspecified or
invalid, then we print a warning that tests will not be able
to run.
Differential Revision: https://reviews.llvm.org/D37756
llvm-svn: 313407
This patch is still breaking several multi-stage compiler-rt bots.
I already know what the fix is, but I want to get the bots green
for now and then try re-applying in the morning.
llvm-svn: 313335
To further reduce duplicate code, this patch introduces a module
that configs can simply import and get access to a lot of useful
functionality such as setting up paths, adding features that are
useful across all projects, and other utility-type functions.
For now this only updates llvm's suite to use this new library,
but subsequent patches will update other projects.
Differential Revision: https://reviews.llvm.org/D37778
llvm-svn: 313325
This patch simplifies LLVM's lit infrastructure by enforcing an ordering
that a site config is always run before a source-tree config.
A significant amount of the complexity from lit config files arises from
the fact that inside of a source-tree config file, we don't yet know if
the site config has been run. However it is *always* required to run
a site config first, because it passes various variables down through
CMake that the main config depends on. As a result, every config
file has to do a bunch of magic to try to reverse-engineer the location
of the site config file if they detect (heuristically) that the site
config file has not yet been run.
This patch solves the problem by emitting a mapping from source tree
config file to binary tree site config file in llvm-lit.py. Then, during
discovery when we find a config file, we check to see if we have a
target mapping for it, and if so we use that instead.
This mechanism is generic enough that it does not affect external users
of lit. They will just not have a config mapping defined, and everything
will work as normal.
On the other hand, for us it allows us to make many simplifications:
* We are guaranteed that a site config will be executed first
* Inside of a main config, we no longer have to assume that attributes
might not be present and use getattr everywhere.
* We no longer have to pass parameters such as --param llvm_site_config=<path>
on the command line.
* It is future-proof, meaning you don't have to edit llvm-lit.in to add
support for new projects.
* All of the duplicated logic of trying various fallback mechanisms of
finding a site config from the main config are now gone.
One potentially noteworthy thing that was required to implement this
change is that whereas the ninja check targets previously used the first
method to spawn lit, they now use the second. In particular, you can no
longer run lit.py against the source tree while specifying the various
`foo_site_config=<path>` parameters. Instead, you need to run
llvm-lit.py.
Differential Revision: https://reviews.llvm.org/D37756
llvm-svn: 313270
This was intended to be a generic CMake solution to a problem
shared across several projects. It turns out it doesn't interact
very well certain CMake configurations, and furthermore the
"problem" is actually not a problem, as the problematic code
is never executed to begin with. So this really isn't solving
anything.
llvm-svn: 313191
Some projects need to add conditional dependencies on other projects.
compiler-rt is already doing this, and I attempted to add this to
debuginfo-tests when I ran into the ordering problem, that you can't
conditionally add a dependency unless that dependency's CMakeLists.txt
has already been run (which would allow you to say if (TARGET foo).
The solution to this seems to be to determine very early on the entire
set of projects which is enabled. This is complicated by the fact that
there are multiple ways to enable projects, and different tree layouts
(e.g. mono-repo, out of -tree, external, etc). This patch attempts to
centralize all of this into one place, and then updates compiler-rt to
demonstrate as a proof of concept how this can simplify code.
Differential Revision: https://reviews.llvm.org/D37637
llvm-svn: 313091
Summary:
When repo is used with git, 'clang --version' option does not display
the correct revision information (i.e. git hash on TOP) as the following:
clang version 6.0.0 --->
clang version 6.0.0 (clang version) (llvm version)
This is because repo also creates .git/svn folder as git-svn does and
this makes repo with git uses "git svn info" command, which is only for
git-svn, to retrieve its revision information, making null for the info.
To correctly distinguish between git-svn and repo with git, the folder
hierarchy to specify for git-svn should be .git/svn/refs as the "git svn
info" command depends on the revision data in .git/svn/refs. This patch
in turn makes repo with git passes through to the third macro,
get_source_info_git, in get_source_info function, resulting in correctly
retrieving the revision information for repo with git using "git log ..."
command.
This patch is tested with git, svn, git-svn, and repo with git.
Reviewers: llvm-commits, probinson, rnk
Reviewed By: rnk
Subscribers: rnk, mehdi_amini, beanz, mgorny
Differential Revision: https://reviews.llvm.org/D35532
llvm-svn: 312864
FuzzMutate might not be the best place for these, but it makes more
sense than an entirely new library for now. This will make setting up
fuzz targets with consistent CLI handling easier.
llvm-svn: 312425
Summary:
Move version control macros, find_first_existing_file and
find_first_existing_vc_file to AddLLVM.cmake so they can be reused by sub projects
like clang.
Differential Revision: https://reviews.llvm.org/D36971
llvm-svn: 312419
This is needed for building LLVM on Android with new NDK (newer
than r15c) and API level < 24. Android C library (Bionic) didn't have
support for 64 bit file position until Android N.
Differential Revision: https://reviews.llvm.org/D37314
llvm-svn: 312389
This adds a dummy main so we can build and run the llvm-isel-fuzzer
functionality when we aren't building LLVM with coverage. The approach
here should serve as a template to stop in-tree fuzzers from
bitrotting (See llvm.org/pr34314).
Note that I'll probably move most of the logic in DummyISelFuzzer's
`main` to a library so it's easy to reuse it in other fuzz targets,
but I'm planning on doing that in a follow up that also consolidates
argument handling in our LLVMFuzzerInitialize implementations.
llvm-svn: 312338
The buildbots have shown that -Wstrict-prototypes behaves differently in GCC
and Clang so we should keep it disabled until Clang follows GCC's behaviour
llvm-svn: 312246
Clang 5 supports -Wstrict-prototypes. We should use it to catch any C
declarations that declare a non-prototype function.
rdar://33705313
Differential Revision: https://reviews.llvm.org/D36669
llvm-svn: 312240
This moves the cmake configuration for fuzzers in LLVM to a new macro,
add_llvm_fuzzer. This will make it easier to keep things consistent
while implementing llvm.org/pr34314.
I've also made a couple of minor functional changes here:
- the fuzzers now use add_llvm_executable rather than add_llvm_tool.
This means they won't create install targets and stuff like that,
because those made little sense for these fuzzers.
- I've grouped these under "Fuzzers" rather than in with "Tools" for
people who build with IDEs.
llvm-svn: 312200
Summary:
Plugins can (and should) be enabled under mingw if we are building
libLLVM.dll, so this is just a missed case. This allows LLVMgold.dll to
be built now under mingw.
Reviewers: llvm-commits, pirama, beanz, chapuni
Reviewed By: chapuni
Subscribers: chapuni, mgorny
Differential Revision: https://reviews.llvm.org/D37116
llvm-svn: 311973
This fixes an issue with the use of LLVM_PARALLEL_LINK_JOBS.
Original commit message:
macOS 10.13 added a new API (futimens). This API is only available on macOS 10.13
and later, but the cmake check we have in place only tests if the symbol is
present and ignores the availability attribute. Luckily we have new warning for
this and by making this warning an error the cmake check will return the correct
result.
See also rdar://problem/33992750.
Differential Revision: https://reviews.llvm.org/D37027
llvm-svn: 311965
macOS 10.13 added a new API (futimens). This API is only available on macOS 10.13
and later, but the cmake check we have in place only tests if the symbol is
present and ignores the availability attribute. Luckily we have new warning for
this and by making this warning an error the cmake check will return the correct
result.
See also rdar://problem/33992750.
Differential Revision: https://reviews.llvm.org/D37027
llvm-svn: 311949
Summary:
The `LLVM${c}Info` mask is listed twice in LLVM-Config.cmake. This results in the libraries such as LLVMARMInfo, LLVMAArch4Info, etc appearing twice in `extract_symbols.py` command line while building `clangShared`. `Extract_symbols.py` does not work well in such a case and completely ignores the symbols from the duplicated libraries. Thus, the LLVM(...)Info symbols do not get exported from `clangShared` and linking clang against it fails with unresolved dependencies.
Seems to be a mere copy-paste mistake.
Reviewers: beanz, chapuni
Reviewed By: chapuni
Subscribers: chapuni, aemerson, mgorny, kristof.beyls, llvm-commits, asl
Differential Revision: https://reviews.llvm.org/D36119
llvm-svn: 310590
Detect [/-][DU]NDEBUG in CMAKE_C_FLAGS* and pass them through to ocamlc.
This is necessary because their value might affect visibility of dump
functions in LLVM and ocamlc uses its own compiler and flags by default.
Differential Revision: https://reviews.llvm.org/D35898
llvm-svn: 309483
Install the OCaml dynamic libraries in the 'stubdirs' directory rather
than the llvm subdirectory in order to fix running executables created
by ocamlc. Otherwise, the executables fail to run being unable to locate
the libraries (unless the LLVM directory is explicitly added to
LD_LIBRARY_PATH).
The staging directories are not altered since they work for our
development setup anyway, and installing into two directories would
unnecessarily make the code more complex.
Differential Revision: https://reviews.llvm.org/D35995
llvm-svn: 309481
By creating a dummy of this target in LLVMConfig.cmake, projects that can build against out-of-tree LLVM can freely depend on the target without needing to have conditionals for if LLVM is in-tree or out-of-tree.
llvm-svn: 309389
Pass the values of CMAKE_C_FLAGS and CMAKE_C_FLAGS_${CMAKE_BUILD_TYPE}
as -ccopt to ocamlc. This enforces the specific flags used for the LLVM
build to be used for OCaml bindings as well, notably -O and -march
flags.
This also solves the issue of the user being unable to force specific
flags for OCaml bindings builds. Gentoo needs this to enforce -DNDEBUG
consistently between the LLVM build and the split OCaml bindings build.
Differential Revision: https://reviews.llvm.org/D35898
llvm-svn: 309320
-Werror may cause some of the CMake checks to fail, so we disable
it even if it's enabled for the build itself.
Differential Revision: https://reviews.llvm.org/D35924
llvm-svn: 309235
compile_commands.json file is very useful both for tooling and for
reproducible builds.
For files generated from recursive CMake invocation this information was
not previously generated.
Differential Review: https://reviews.llvm.org/D35219
llvm-svn: 308698