Add all previous link components back to unblock bots for the moment.
In the meantime, I'm investigating the BUILD_SHARED_LIBS=ON build to
find out the minimal list of components needed.
Partially reverts 0a2be46cfd as it turned
out to cause redundant module rebuilds in multi-process incremental builds.
When a module was getting out of date, all compilation processes started at the
same time were marking it as `ToBuild`. So each process was building the same
module instead of checking if it was built by someone else and using that
result. In addition to the work duplication, contention on the same .pcm file
wasn't making builds faster.
Note that for a single-process build this change would cause redundant module
reads and validations. But reading a module is faster than building it and
multi-process builds are more common than single-process. So I'm willing to
make such a trade-off.
rdar://problem/54395127
Reviewed By: dexonsmith
Differential Revision: https://reviews.llvm.org/D72860
and document the shortcomings of LLDB's partially defined DW_OP_piece
handling.
This would manifest as "DW_OP_piece for offset foo but top of stack is
of size bar".
rdar://problem/46262998
Differential Revision: https://reviews.llvm.org/D72880
By switching to Scalars that are backed by explicitly-sized APInts we
can avoid a bug that increases the buffer reserved for a small piece
to the next-largest host integer type.
This manifests as "DW_OP_piece for offset foo but top of stack is of size bar".
Differential Revision: https://reviews.llvm.org/D72879
This adds an additional cli flag for the llvm-xray extract tool. This
is useful if you're more interested in consuming the mangled symbol
name, instead of the default now which is demangled.
Differential Revision: https://reviews.llvm.org/D72804
Add the link components back to unblock bots for the moment. In the
meantime, I'm investigating the BUILD_SHARED_LIBS=ON build to find
out the minimal list of components needed.
Previously, the gn build would create VCSRevision.h / VCSVersion.h
files with some LLD_REVISION / LLVM_REVISION / CLANG_REVISION but
by default wouldn't add a dependency on .git/logs/HEAD so that
the step doesn't rerun after every branch switch or every pull.
That's bad for deterministic builds, and having --version print
some arbitrarily old revision isn't great either.
Instead, move to the model that the cmake build (now) uses fairly
consistently: If llvm_append_vc_rev is set, include the revision,
else don't.
Since the GN build is focused on developers, set llvm_append_vc_rev
to false instead of true by default (different from the cmake build),
so that things don't rebuild after every branch switch and every
pull.
While here, also remove some pre-monorepo code.
Differential Revision: https://reviews.llvm.org/D72859
When LLVM_APPEND_VC_REV=OFF is set, the current git hash is no
longer embedded into binaries (mostly for --version output).
Without it, most binaries need to relink after every single
commit, even if they didn't change otherwise (due to, say,
a documentation-only commit).
LLVM_APPEND_VC_REV is ON by default, so this doesn't change the
default behavior of anything.
With this, all clients of GenerateVersionFromVCS.cmake honor
LLVM_APPEND_VC_REV.
Differential Revision: https://reviews.llvm.org/D72855
This is (more?) usable by GDB pretty printers and seems nicer to write.
There's one tricky caveat that in C++14 (LLVM's codebase today) the
static constexpr member declaration is not a definition - so odr use of
this constant requires an out of line definition, which won't be
provided (that'd make all these trait classes more annoyidng/expensive
to maintain). But the use of this constant in the library implementation
is/should always be in a non-odr context - only two unit tests needed to
be touched to cope with this/avoid odr using these constants.
Based on/expanded from D72590 by Christian Sigg.
Given the following situation:
x = G_FCONSTANT (something that can't be materialized)
G_STORE x, some_addr
We know that x must be materialized as at least a single mov. However, at the
time of selection, the G_STORE will have been regbankselected to a FPR store.
So, as a result, you'll get an unnecessary fmov into the G_STORE.
Storing a constant value in a GPR and a constant value in a FPR are the same.
So, whenever you see a G_FCONSTANT that feeds into only G_STORES, so might as
well make it a G_CONSTANT.
This adds a target-specific combine which changes G_FCONSTANTs feeding into
G_STOREs into G_CONSTANTs.
Differential Revision: https://reviews.llvm.org/D72814
The test is failing on our CI bots.
Seems like the order of results for one target is undefined.
(post-commit review)
Differential Revision: https://reviews.llvm.org/D72883
Summary:
MLIR unlike LLVM IR supports multidimensional vector types. Such types are
lowered to nested LLVM IR arrays wrapping an LLVM IR vector for the innermost
dimension of the MLIR vector. MLIR supports constants of such types using
ElementsAttr for values. Introduce support for converting ElementsAttr into
LLVM IR Constant Aggregates recursively. This enables translation of
multidimensional vector constants from MLIR to LLVM IR.
Differential Revision: https://reviews.llvm.org/D72846
We switched to C11 thread API on Fuchsia in ab9aefe, but further
testing showed that Fuchsia's C11 mutex implementation needs a few
improvements for this to be usable, so we temporarily switch back
to the pthread implementation until those issues are addressed.
Differential Revision: https://reviews.llvm.org/D72862
This case can be handled as a regular selection pattern, so move it
out of the weird post-isel folding code which doesn't have an exactly
equivalent place in GlobalISel.
I think it doesn't make much sense to do this optimization here
though, and it would be more useful in instcombine. There's not really
any new information that will be gained during lowering since these
inputs were known from the beginning.
This change has 2 components:
Target-independent: add a method getDwarfFrameBase to TargetFrameLowering. It
describes how the Dwarf frame base will be encoded. That can be a register (the
default), the CFA (which replaces NVPTX-specific logic in DwarfCompileUnit), or
a DW_OP_WASM_location descriptr.
WebAssembly: Allow WebAssemblyFunctionInfo::getFrameRegister to return the
correct virtual register instead of FP32/SP32 after WebAssemblyReplacePhysRegs
has run. Make WebAssemblyExplicitLocals store the local it allocates for the
frame register. Use this local information to implement getDwarfFrameBase
The result is that the DW_AT_frame_base attribute is correctly encoded for each
subprogram, and each param and local variable has a correct DW_AT_location that
uses DW_OP_fbreg to refer to the frame base.
Differential Revision: https://reviews.llvm.org/D71681
We lifted this code from InstCombine for general usage in:
rL369842
...but it's not safe as-is. There are no existing users that can
trigger this bug, but I discovered it via crashing several
regression tests when trying to use it for select folding in
InstSimplify.
ICmp requires (vector) integer types, so give up on anything that's
not integer or FP (pointers and ?) then bitcast the constants
before trying the match. That matches the definition of "equal or
undef" that I was looking for. If someone wants an FP-aware version
of equality (deal with NaN, -0.0), that could be a different mode
or different function.
Differential Revision: https://reviews.llvm.org/D72784
Before this patch, readability-identifier-naming contained a significant amount
of logic for (a) checking the style of identifiers, followed by (b) renaming/
applying fix-its. This patch factors out (b) into a separate base class so that
it can be reused by other checks that want to do renaming. This also cleans up
readability-identifier-naming significantly, since now it only needs to be
concerned with the interesting details of (a).
When the hardware and operating system support the ARM Memory Tagging
Extension, tag primary allocation granules with a random tag. The granules
either side of the allocation are tagged with tag 0, which is normally
excluded from the set of tags that may be selected randomly. Memory is
also retagged with a random tag when it is freed, and we opportunistically
reuse the new tag when the block is reused to reduce overhead. This causes
linear buffer overflows to be caught deterministically and non-linear buffer
overflows and use-after-free to be caught probabilistically.
This feature is currently only enabled for the Android allocator
and depends on an experimental Linux kernel branch available here:
https://github.com/pcc/linux/tree/android-experimental-mte
All code that depends on the kernel branch is hidden behind a macro,
ANDROID_EXPERIMENTAL_MTE. This is the same macro that is used by the Android
platform and may only be defined in non-production configurations. When the
userspace interface is finalized the code will be updated to use the stable
interface and all #ifdef ANDROID_EXPERIMENTAL_MTE will be removed.
Differential Revision: https://reviews.llvm.org/D70762
Introduce parsing, add a few instances of parameter use into GVN-PRE tests.
Reviewers: skatkov, asbirlea
Reviewed By: skatkov
Tags: #llvm
Differential Revision: https://reviews.llvm.org/D72752
`{clang,gcc} -nostdlib -r a.c` passes --dynamic-linker to the linker,
and the expected behavior is to ignore it.
If .interp is kept in the relocatable object file, a final link will get
PT_INTERP even if --dynamic-linker is not specified. glibc ld.so expects
to see PT_DYNAMIC and the executable will likely fail to run.
Ignore --dynamic-linker in -r mode as well as -shared.
This was assuming the narrow target was the source type. Respect the
requested type when these don't match by using intermediate
merges. This avoids producing very wide, illegal shift expansions.