This changes makes it easier to update the Unicode data files used for
the Extended Graphme Clustering as added in D126971.
Reviewed By: ldionne, #libc
Differential Revision: https://reviews.llvm.org/D129668
The operation computes pow(b, p), where 'b' is floating point
and 'p' is a signed integer. The result's type matches 'b' type.
The operands must have the same shape.
Differential Revision: https://reviews.llvm.org/D129811
If computeKnownBits encounters a phi node, and we fail to determine any known bits through direct analysis, see if the incoming value is part of a branch condition feeding the phi.
Handle cases where icmp(IncomingValue PRED Constant) is driving a branch instruction feeding that phi node - at the moment this only handles EQ/ULT/ULE predicate cases as they are the most straightforward to handle and most likely for branch-loop 'max upper bound' cases - we can extend this if/when necessary.
I investigated a more general icmp(LHS PRED RHS) KnownBits system, but the hard limits we put on value tracking depth through phi nodes meant that we were mainly catching constants anyhow.
Fixes the pointless vectorization in PR38280 / Issue #37628 (excessive unrolling still needs handling though)
Differential Revision: https://reviews.llvm.org/D131838
Add:
- `EmulateInstructionRISCV`, which can be used for riscv32 and riscv64.
- Add unittests for EmulateInstructionRISCV.
Note: Compressed instructions set (RVC) was still not supported in this patch.
Reviewed By: DavidSpickett
Differential Revision: https://reviews.llvm.org/D131759
In this switch case we didn't handle possible errors in `ResumeThread()`, it's hard to get helpful information when it goes wrong.
Reviewed By: DavidSpickett
Differential Revision: https://reviews.llvm.org/D131946
Some architectures do not have a flag register (like riscv).
In this case, we should set it to `baton.m_register_values.end()` to avoid nullptr exception.
Reviewed By: DavidSpickett
Differential Revision: https://reviews.llvm.org/D131945
Currently we treat initializers with init_seg(compiler/lib) as similar
to any other init_seg, they simply have a global variable in the proper
section (".CRT$XCC" for compiler/".CRT$XCL" for lib) and are added to
llvm.used. However, this doesn't match with how LLVM sees normal (or
init_seg(user)) initializers via llvm.global_ctors. This
causes issues like incorrect init_seg(compiler) vs init_seg(user)
ordering due to GlobalOpt evaluating constructors, and the
ability to remove init_seg(compiler/lib) initializers at all.
Currently we use 'A' for priorities less than 200. Use 200 for
init_seg(compiler) (".CRT$XCC") and 400 for init_seg(lib) (".CRT$XCL"),
which do not append the priority to the section name. Priorities
between 200 and 400 use ".CRT$XCC${Priority}". This allows for
some wiggle room for people/future extensions that want to add
initializers between compiler and lib.
Fixes#56922
Reviewed By: rnk
Differential Revision: https://reviews.llvm.org/D131910
I introduced a patch to handle unqualified templated base class
initialization in MSVC compatibility mode:
https://reviews.llvm.org/rGc894e85fc64dd8d83b460de81080fff93c5ca334
We identified a problem with this patch in the case where the base class
is partially specialized, which can lead to triggering an assertion in
the case of a mix between types and values.
The minimal test case is:
template <typename Type, int TSize> class Vec {};
template <int TDim> class Index : public Vec<int, TDim> {
Index() : Vec() {}
};
template class Index<0>;
The detailed problem is that I was using the
`InjectedClassNameSpecialization`, to which the class template arguments
were then applied in order. But in the process, we were losing all the
partial specializations of the base class and creating an index mismatch
between the expected and passed arguments.
Patch By: frederic-tingaud-sonarsource
Reviewed By: rnk
Differential Revision: https://reviews.llvm.org/D130709
Static variables declared within a routine or lexical block should
be emitted with a non-qualified name. This allows the variables to
be visible to the Visual Studio watch window.
Differential Revision: https://reviews.llvm.org/D131400
Currently, we try to vectorize values, feeding into stores, only if
slp-vectorize-hor-store option is provided. We can safely enable
vectorization of the value operand of a single store in the basic block,
if the operand value is used only in store.
It should enable extra vectorization and should not increase compile
time significantly.
Fixes https://github.com/llvm/llvm-project/issues/51320
Differential Revision: https://reviews.llvm.org/D131894
One of our silent bots is currently failing:
https://lab.llvm.org/staging/#/builders/171/builds/169
With:
<...>/Debuginfod.cpp:298:23: error: no type named 'sleep_for' in namespace 'std::this_thread'
std::this_thread::sleep_for(Interval);
~~~~~~~~~~~~~~~~~~^
Add missing thread include to that file,
which is what all the other users of sleep_for do.
I think we are seeing this now because we disabled
llvm threading for this builder. Maybe debuginfod should account
for that but that's for another time.
Newer SDKs don't even provide libstdc++ headers, so it's effectively
never valid to build for libstdc++ unless the user explicitly asks
for it (in which case they will need to provide include paths and more).
This is a re-application of c5ccb78ade which had been reverted in
33171df9cc because it broke the Fuchsia CI bots. The issue was that
the test was XPASSing because it didn't fail anymore when the
CLANG_DEFAULT_CXX_LIB was set to libc++, which seems to be done for
Fuchsia. Instead, the test only fails if CLANG_DEFAULT_CXX_LIB is
set to libstdc++.
As a fly-by fix, also adjust the triple used by various tests to
something that is supported. Those tests were shown to fail on
internal bots.
Differential Revision: https://reviews.llvm.org/D131274
This should fix these build bot errors:
Step 6 (build-check-mlir-build-only) failure: build (failure)
C:\buildbot\mlir-x64-windows-ninja\llvm-project\llvm\lib\Transforms\Scalar\EarlyCSE.cpp(124): error C2220: the following warning is treated as an error
C:\buildbot\mlir-x64-windows-ninja\llvm-project\llvm\lib\Transforms\Scalar\EarlyCSE.cpp(124): warning C4996: 'llvm::Optional<llvm::fp::ExceptionBehavior>::getValue': Use value instead.
C:\buildbot\mlir-x64-windows-ninja\llvm-project\llvm\lib\Transforms\Scalar\EarlyCSE.cpp(129): warning C4996: 'llvm::Optional<llvm::RoundingMode>::getValue': Use value instead.
C:\buildbot\mlir-x64-windows-ninja\llvm-project\llvm\lib\Transforms\Scalar\EarlyCSE.cpp(1386): warning C4996: 'llvm::Optional<llvm::fp::ExceptionBehavior>::getValue': Use value instead.
C:\buildbot\mlir-x64-windows-ninja\llvm-project\llvm\lib\Transforms\Scalar\EarlyCSE.cpp(1388): warning C4996: 'llvm::Optional<llvm::RoundingMode>::getValue': Use value instead.
Previously we would only CSE constrained FP intrinsics in the default
floating point environment. Exception behavior of "strict" is still not
allowed since we are not allowed to remove any traps in that case.
There are no restrictions on CSE across function calls inside a function.
Differential Revision: https://reviews.llvm.org/D112256
This fixes some fallout from D131282. Currently, add_tablegen() will add the tablegen target to LLVM_EXPORTS and associates the install with LLVMExports. For non-standalone builds, this means that you end up with mlir-tblgen and clang-tblgen in LLVMExports.
However, these projects should instead be using MLIR_EXPORTS/MLIRTargets and CLANG_EXPORTS/ClangTargets. To fix this, add an extra EXPORT option and make use of get_target_export_arg() to create the correct export argument.
Reviewed By: ashay-github
Differential Revision: https://reviews.llvm.org/D131565
Currenlty all temporal loads are mapped to `LDP` or `LDR`. This patch will map all the non temporal 256-bit loads into `LDNP`. Future patches should address other non-temporal loads.
Reviewed By: fhahn, dmgreen
Differential Revision: https://reviews.llvm.org/D131773
There is an existing mechanism to escape strings, therefore the
functions created to escape Tag_also_compatible_with values are not
really needed. We can simply use the pre-existing utilities.
Reviewed By: pratlucas
Differential Revision: https://reviews.llvm.org/D131680
The ARM Attribute Parser used to parse the value of also_compatible_with
as it is, disregarding the way it is encoded.
This patch does a context aware parsing of the also_compatible_with
attribute. Additionally, some error handling is also done for incorrect
cases.
Reviewed By: pratlucas
Differential Revision: https://reviews.llvm.org/D130913
Previously, LegaizeDAG didn't check mask.compress's passthrough might be float, and this lead to getConstant crash since it doesn't support fp
Reviewed By: RKSimon
Differential Revision: https://reviews.llvm.org/D131947
This reverts commit 354fa0b480.
Returning as is. The patch was reverted due to a miscompile, but
this patch is not causing it. This patch made it possible to infer
some nuw flags in code guarded by `false` condition, and then someone
else to managed to propagate the flag from dead code outside.
Returning the patch to be able to reproduce the issue.
The latter has accuracy issues around 0. The lowering in MathToLLVM is kept for now.
Reviewed By: bkramer
Differential Revision: https://reviews.llvm.org/D131676
- Modify TokenAnnotator to work fine with java-style array declarations.
- Add test for aligning of java declarations.
Fixes#55931.
Differential Revision: https://reviews.llvm.org/D129628
I (lhames) accidentally pushed 5f300397c6 on
Kshitij Jain's behalf without updating the patch author first (my apologies
Kshitij!).
Re-applying with correct authorship.
https://reviews.llvm.org/D131347
Mark de Wever