Message ID | 20220628122741.93641-1-daniel.thompson@linaro.org (mailing list archive) |
---|---|
Headers | show |
Series | Enable clang tools for kernels build using gcc | expand |
The limitations of the compilation db are not limited to the kernel. Why shouldn't the change be made in the llvm project ? Tom On 6/28/22 5:27 AM, Daniel Thompson wrote: > This patch set makes it possible to use clang based tools, such as > the clangd completion engine, regardless of our choice of compiler > for the actual kernel build. > > Most of the fine details are included in the patch header for the > first patch (since we'd like them to appear in the kernel history so > they can help future archaeologists). > > Daniel Thompson (2): > clang-tools: Generate clang compatible output even with gcc builds > Makefile: Enable clang-tidy and clang-analyzer for gcc builds > > Makefile | 11 ++-- > scripts/clang-tools/gen_compile_commands.py | 71 ++++++++++++++++++++- > 2 files changed, 74 insertions(+), 8 deletions(-) > > > base-commit: a111daf0c53ae91e71fd2bfe7497862d14132e3e > -- > 2.35.1 >
On Tue, Jun 28, 2022 at 06:19:09AM -0700, Tom Rix wrote: > The limitations of the compilation db are not limited to the kernel. > > Why shouldn't the change be made in the llvm project ? I'd rather answer the question why should it be in the kernel ;-). That's somewhat easier to answer because the kernel does have some unusual properties: 1. It makes heavy use of kernel command line options, especially when compared to most user space components where the default compiler flags are something very simple ("-g -O2" plus include directories). 2. The kernel provides it's own tooling to generate the compilation database. For example, if tools like codechecker added features to their front end to mitigate this problem[1] the kernel wouldn't benefit from them anyway. 3. Rules like `make clang-analyzer` generate *and* consume the compilation database in a single pass. That makes it impossible to run fixup tools between generating the database and consuming it. However going back to the original question: > Why shouldn't the change be made in the llvm project ? clang can (and probably will) learn about some of the newer gcc options over time. However that doesn't actually help much since all that achieves is a game of whack-a-mole where clang has to constantly play catch up or the tooling will break. Some other aspects could be added to the various different projects that use the compilation database that would improve things (better automatic handling of --target for example). That sort of change should still peacefully coexist with an approach based on gen_compile_commands.json though. Daniel. [1] Currently they don't workaround it automatically. They just imply that you may have to "fine tune" compile_commands.json after generating it: https://codechecker.readthedocs.io/en/latest/usage/#step-7-fine-tune-analysis-configuration > On 6/28/22 5:27 AM, Daniel Thompson wrote: > > This patch set makes it possible to use clang based tools, such as > > the clangd completion engine, regardless of our choice of compiler > > for the actual kernel build. > > > > Most of the fine details are included in the patch header for the > > first patch (since we'd like them to appear in the kernel history so > > they can help future archaeologists). > > > > Daniel Thompson (2): > > clang-tools: Generate clang compatible output even with gcc builds > > Makefile: Enable clang-tidy and clang-analyzer for gcc builds > > > > Makefile | 11 ++-- > > scripts/clang-tools/gen_compile_commands.py | 71 ++++++++++++++++++++- > > 2 files changed, 74 insertions(+), 8 deletions(-) > > > > > > base-commit: a111daf0c53ae91e71fd2bfe7497862d14132e3e > > -- > > 2.35.1 > > >