This patch enables jump table lowering in the RISC-V backend.
In addition to the test case included, the new lowering was
tested by compiling the OCaml runtime and running it under qemu.
Differential Revision: https://reviews.llvm.org/D92097
ScalarEvolution should be able to handle both constant and variable trip
counts using getURemExpr, so we do not have to handle them separately.
This is a small simplification of a56280094e.
Reviewed By: gilr
Differential Revision: https://reviews.llvm.org/D93677
Change `makeFlagToValueNormalizer` so that one specialization converts all integral/enum arguments into `uint64_t` and forwards them to the more generic version.
This makes it easy to replace the custom `FlagToValueNormalizer` struct with a lambda, which is the common approach in other (de)normalizers.
Finally, drop custom `is_int_convertbile` in favor of `llvm::is_integral_or_enum`.
Reviewed By: dexonsmith
Differential Revision: https://reviews.llvm.org/D93628
These patch implements a few non-functional-changes:
* switch to using test fixtures for better code sharing
* rename some variables (e.g. to communicate their purpose a bit better)
This patch doesn't change _what_ is being tested.
Differential Revision: https://reviews.llvm.org/D93544
The macOS name mangling adds another underscore. Therefore, on macOS
the __atomic_* functions are actually ___atomic_* in libcompiler_rt.dylib.
To handle this case, prepend the asm() argument with __USER_LABEL_PREFIX__
in the same way that atomic.c does.
Reviewed By: ldionne
Differential Revision: https://reviews.llvm.org/D92833
On macOS 10.14 /usr/lib/system/libcompiler_rt.dylib contains all the
`__atomic_load*`, etc. functions but does not include the `__atomic_is_lock_free`
function. The lack of this function causes the non-lockfree-atomics feature
to be set to false even though large atomic operations are actually
supported, it's just the is_lock_free() function that is missing.
This is required so that the !non-lockfree-atomics feature can be used
to XFAIL tests that require runtime library support (D88818).
Reviewed By: #libc, ldionne
Differential Revision: https://reviews.llvm.org/D91911
On subtargets that have a red zone, we will copy the stack pointer to the base
pointer in the prologue prior to updating the stack pointer. There are no other
updates to the base pointer after that. This suggests that we should be able to
restore the stack pointer from the base pointer rather than loading it from the
back chain or adding the frame size back to either the stack pointer or the
frame pointer.
This came about because functions that call setjmp need to restore the SP from
the FP because the back chain might have been clobbered
(see https://reviews.llvm.org/D92906). However, if the stack is realigned, the
restored SP might be incorrect (which is what caused the failures in the two
ASan test cases).
This patch was tested quite extensivelly both with sanitizer runtimes and
general code.
Differential revision: https://reviews.llvm.org/D93327
Allocate a Buffer in the JSONTransport to be used when sending messages to the client.
This gets reused each time a message is sent, reducing in fewer malloc, which is always a bonus.
Reviewed By: sammccall
Differential Revision: https://reviews.llvm.org/D93531
Previously you just two hex numbers you had to decode manually.
This change adds a predicate formatter for extension flags
to produce failure messages like:
```
[ RUN ] AArch64CPUTests/AArch64CPUTestFixture.testAArch64CPU/2
<...>llvm/unittests/Support/TargetParserTest.cpp:862:
Failure
Expected extension flags: +fp-armv8, +crc, +crypto (0xe)
Got extension flags: +fp-armv8, +neon, +crc, +crypto (0x1e)
[ FAILED ] AArch64CPUTests/AArch64CPUTestFixture.testAArch64CPU/2,
where GetParam() = "cortex-a34", "armv8-a", <...>
```
From there you can take the feature name and map it back
to the enum in ARM/AArch64TargetParser.def.
(which isn't perfect but you've probably got both files
open if you're editing these tests)
Note that AEK_NONE is not meant to be user facing in the compiler
but here it is part of the tests. So failures may show an
extension "none" where the normal target parser wouldn't.
The formatter is implemented as a template on ARM::ISAKind
because the predicate formatters assume all parameters are used
for comparison.
(e.g. PRED_FORMAT3 is for comparing 3 values, not having 3
arguments in general)
Reviewed By: MarkMurrayARM
Differential Revision: https://reviews.llvm.org/D93448
When __builtin_dynamic_object_size returns a non-constant expression, it cannot
be -1 since that is an invalid return value for object size. However since
passes running after the substitution don't know this, they are unable to
optimize away the comparison and hence the comparison and branch stays in there.
This change generates an appropriate call to llvm.assume to help the optimizer
folding the test.
glibc is considering adopting __builtin_dynamic_object_size for additional
protection[1] and this change will help reduce branching overhead in fortified
implementations of all of the functions that don't have the __builtin___*_chk
type builtins, e.g. __ppoll_chk.
Also remove the test limit-max-iterations.ll because it was deemed unnecessary
during review.
[1] https://sourceware.org/pipermail/libc-alpha/2020-November/120191.html
Differential Revision: https://reviews.llvm.org/D93015
This patch turns updates VPInstruction to manage the value it defines
using VPDef. The VPValue is used during VPlan construction and
codegeneration instead of the plain IR reference where possible.
Reviewed By: gilr
Differential Revision: https://reviews.llvm.org/D90565
I am investigating sinking instructions back into the loop under high
register pressure. This is just a first NFC step to add some debug
messages that allows tracing of the decision making.
Currently using DW_OP_implicit_value in fragments produces invalid DWARF
expressions. (Such a case can occur in complex floats, for example.)
This problem manifests itself as a missing DW_OP_piece operation after
the last fragment. This happens because the function for printing
constant float value skips printing the accompanying DWARF expression,
as that would also print DW_OP_stack_value (which is not desirable in
this case). However, this also results in DW_OP_piece being skipped.
The reason that DW_OP_piece is missing only for the last piece is that
the act of printing the next fragment corrects this. However, it does
that for the wrong reason -- the code emitting this DW_OP_piece thinks
that the previous fragment was missing, and so it thinks that it needs
to skip over it in order to be able to print itself.
In a simple scenario this works out, but it's likely that in a more
complex setup (where some pieces are in fact missing), this logic would
go badly wrong. In a simple setup gdb also seems to not mind the fact
that the DW_OP_piece is missing, but it would also likely not handle
more complex use cases.
For this reason, this patch disables the usage of DW_OP_implicit_value
in the frament scenario (we will use DW_OP_const*** instead), until we
figure out the right way to deal with this. This guarantees that we
produce valid expressions, and gdb can handle both kinds of inputs
anyway.
Differential Revision: https://reviews.llvm.org/D92013
This uses the same approach as the debug info tests to avoid needing to
explicitly spell out the two kinds of tests. I convert a handful of
tests to the new mechanism. The rest will be converted in follow-up
patches.
Also convert the test function to use EXPECT_EQ and
remove the special case for the AEK_NONE extension.
This means that each test is marked as failing separatley
and the accumultated EXPECT failures are printed next
to that test, with its parameters.
Before they would be hidden by the "pass &=" pattern
and failures would print in one block since it was a
"single" test.
Example of the new failure messages:
```
ARMCPUTestsPart1/ARMCPUTestFixture.ARMCPUTests/6
[==========] Running 1 test from 1 test case.
[----------] Global test environment set-up.
[----------] 1 test from ARMCPUTestsPart1/ARMCPUTestFixture
[ RUN ] ARMCPUTestsPart1/ARMCPUTestFixture.ARMCPUTests/6
/work/open_source/nightly-llvm/llvm-project/llvm/unittests/Support/TargetParserTest.cpp:66:
Failure
Expected: params.ExpectedFlags
Which is: 3405705229
To be equal to: default_extensions
Which is: 1
[ FAILED ] ARMCPUTestsPart1/ARMCPUTestFixture.ARMCPUTests/6, where
GetParam() = "arm8", "armv4", "none", 0xcafef00d, "4" (0 ms)
```
Reviewed By: MarkMurrayARM
Differential Revision: https://reviews.llvm.org/D93392
After discussion in `D93482` we found that the some of the clauses were not
following the common OmpClause convention.
The benefits of using OmpClause:
- Functionalities from structure checker are mostly aligned to work with
`llvm::omp::Clause`.
- The unparsing as well can take advantage.
- Homogeneity with OpenACC and rest of the clauses in OpenMP.
- Could even generate the parser with TableGen, when there is homogeneity.
- It becomes confusing when to use `flangClass` and `flangClassValue` inside
TableGen, if incase we generate parser using TableGen we could have only a
single `let expression`.
This patch makes `OmpDistScheduleClause` clause part of `OmpClause`.
The unparse function for `OmpDistScheduleClause` is adapted since the keyword
and parenthesis are issued by the corresponding unparse function for
`parser::OmpClause::DistSchedule`.
Reviewed By: clementval, kiranktp
Differential Revision: https://reviews.llvm.org/D93644
After discussion in `D93482` we found that the some of the clauses were not
following the common OmpClause convention.
The benefits of using OmpClause:
- Functionalities from structure checker are mostly aligned to work with
`llvm::omp::Clause`.
- The unparsing as well can take advantage.
- Homogeneity with OpenACC and rest of the clauses in OpenMP.
- Could even generate the parser with TableGen, when there is homogeneity.
- It becomes confusing when to use `flangClass` and `flangClassValue` inside
TableGen, if incase we generate parser using TableGen we could have only a
single `let expression`.
This patch makes `OmpNoWait` clause part of `OmpClause`.
Reviewed By: clementval, kiranktp
Differential Revision: https://reviews.llvm.org/D93643
When the trip-count is provably divisible by the maximal/chosen VF, folding the
loop's tail during vectorization is redundant. This commit extends the existing
test for constant trip-counts to any trip-count known to be divisible by
maximal/selected VF by SCEV.
Differential Revision: https://reviews.llvm.org/D93615
After discussion in `D93482` we found that the some of the clauses were not
following the common OmpClause convention.
The benefits of using OmpClause:
- Functionalities from structure checker are mostly aligned to work with
`llvm::omp::Clause`.
- The unparsing as well can take advantage.
- Homogeneity with OpenACC and rest of the clauses in OpenMP.
- Could even generate the parser with TableGen, when there is homogeneity.
- It becomes confusing when to use `flangClass` and `flangClassValue` inside
TableGen, if incase we generate parser using TableGen we could have only a
single `let expression`.
This patch makes `OmpProcBindClause` clause part of `OmpClause`.
The unparse function is dropped as the unparsing is done by `WALK_NESTED_ENUM`
for `OmpProcBindClause`.
Reviewed By: clementval, kiranktp
Differential Revision: https://reviews.llvm.org/D93642
This diff addresses the issue of the ever increasing memory usage of clangd. The key to understand what happens is to use `malloc_stats()`: malloc arenas keep getting bigger, although the actual memory used does not. It seems some operations while bulding the indices (both dynamic and background) create this problem. Specifically, 'FileSymbols::update' and 'FileSymbols::buildIndex' seem especially affected.
This diff adds a call to `malloc_trim()` periodically in
ClangdLSPServer.
Fixes: https://github.com/clangd/clangd/issues/251
Fixes: https://github.com/clangd/clangd/issues/115
Reviewed By: sammccall
Differential Revision: https://reviews.llvm.org/D93452
After discussion in `D93482` we found that the some of the clauses were not
following the common OmpClause convention.
The benefits of using OmpClause:
- Functionalities from structure checker are mostly aligned to work with
`llvm::omp::Clause`.
- The unparsing as well can take advantage.
- Homogeneity with OpenACC and rest of the clauses in OpenMP.
- Could even generate the parser with TableGen, when there is homogeneity.
- It becomes confusing when to use `flangClass` and `flangClassValue` inside
TableGen, if incase we generate parser using TableGen we could have only a
single `let expression`.
This patch makes `OmpDefaultClause` clause part of `OmpClause`.
The unparse function is dropped as the unparsing is done by `WALK_NESTED_ENUM`
for `OmpDefaultClause`.
Reviewed By: clementval, kiranktp
Differential Revision: https://reviews.llvm.org/D93641
After discussion in `D93482` we found that the some of the clauses were not
following the common OmpClause convention.
The benefits of using OmpClause:
- Functionalities from structure checker are mostly aligned to work with
`llvm::omp::Clause`.
- The unparsing as well can take advantage.
- Homogeneity with OpenACC and rest of the clauses in OpenMP.
- Could even generate the parser with TableGen, when there is homogeneity.
- It becomes confusing when to use `flangClass` and `flangClassValue` inside
TableGen, if incase we generate parser using TableGen we could have only a
single `let expression`.
This patch makes `allocate` clause part of `OmpClause`.The unparse function for
`OmpAllocateClause` is adapted since the keyword and parenthesis are issued by
the corresponding unparse function for `parser::OmpClause::Allocate`.
Reviewed By: clementval
Differential Revision: https://reviews.llvm.org/D93640
Define vector compare intrinsics and lower them to V instructions.
We work with @rogfer01 from BSC to come out this patch.
Authored-by: Roger Ferrer Ibanez <rofirrim@gmail.com>
Co-Authored-by: Hsiangkai Wang <kai.wang@sifive.com>
Differential Revision: https://reviews.llvm.org/D93368
Define vleff intrinsics and lower to V instructions.
We work with @rogfer01 from BSC to come out this patch.
Authored-by: Roger Ferrer Ibanez <rofirrim@gmail.com>
Co-Authored-by: Zakk Chen <zakk.chen@sifive.com>
Reviewed By: craig.topper
Differential Revision: https://reviews.llvm.org/D93516
When LegalizeType procedure widens a masked_gather, set MemoryType's EltNum equal to Result's EltNum.
As I mentioned in https://reviews.llvm.org/D91092, in previous code, If we have a v17i32's masked_gather in avx512, we widen it to a v32i32's masked_gather with a v17i32's MemoryType. When the SplitVecRes_MGATHER process this v32i32's masked_gather, GetSplitDestVTs will assert fail since what you are going to split is v17i32.
Reviewed By: craig.topper
Differential Revision: https://reviews.llvm.org/D93610
Add basis of CSKY MCTargetDesc and it's enough to compile and link but doesn't yet do anything particularly useful.
Once an ASM parser and printer are added in the next two patches, the whole thing can be usefully tested.
Differential Revision: https://reviews.llvm.org/D93372
I'm not exactly sure what this is, but it appears to be a tool for reporting
internal issues at Apple. These files haven't been meaningfully updated in
12 years, and it doesn't seem like there is any reason to keep them in tree.
Reviewed By: NoQ
Differential Revision: https://reviews.llvm.org/D93565
Private extern symbols are used for things scoped to the linkage unit.
They cause duplicate symbol errors (so they're in the symbol table,
unlike TU-scoped truly local symbols), but they don't make it into the
export trie. They are created e.g. by compiling with
-fvisibility=hidden.
If two weak symbols have differing privateness, the combined symbol is
non-private external. (Example: inline functions and some TUs that
include the header defining it were built with
-fvisibility-inlines-hidden and some weren't).
A weak private external symbol implicitly has its "weak" dropped and
behaves like a regular strong private external symbol: Weak is an export
trie concept, and private symbols are not in the export trie.
If a weak and a strong symbol have different privateness, the strong
symbol wins.
If two common symbols have differing privateness, the larger symbol
wins. If they have the same size, the privateness of the symbol seen
later during the link wins (!) -- this is a bit lame, but it matches
ld64 and this behavior takes 2 lines less to implement than the less
surprising "result is non-private external), so match ld64.
(Example: `int a` in two .c files, both built with -fcommon,
one built with -fvisibility=hidden and one without.)
This also makes `__dyld_private` a true TU-local symbol, matching ld64.
To make this work, make the `const char*` StringRefZ ctor to correctly
set `size` (without this, writing the string table crashed when calling
getName() on the __dyld_private symbol).
Mention in CommonSymbol's comment that common symbols are now disabled
by default in clang.
Mention in -keep_private_externs's HelpText that the flag only has an
effect with `-r` (which we don't implement yet -- so this patch here
doesn't regress any behavior around -r + -keep_private_externs)). ld64
doesn't explicitly document it, but the commit text of
http://reviews.llvm.org/rL216146 does, and ld64's
OutputFile::buildSymbolTable() checks `_options.outputKind() ==
Options::kObjectFile` before calling `_options.keepPrivateExterns()`
(the only reference to that function).
Fixes PR48536.
Differential Revision: https://reviews.llvm.org/D93609
This defines vmadd, vmacc, vnmsub, and vnmsac intrinsics and
lower to V instructions.
Authored-by: Roger Ferrer Ibanez <rofirrim@gmail.com>
Co-Authored-by: ShihPo Hung <shihpo.hung@sifive.com>
Differential Revision: https://reviews.llvm.org/D93632
This is a follow-up patch of D87045.
The patch implements "loop-nest mode" for `LPMUpdater` and `FunctionToLoopPassAdaptor` in which only top-level loops are operated.
`createFunctionToLoopPassAdaptor` decides whether the returned adaptor is in loop-nest mode or not based on the given pass. If the pass is a loop-nest pass or the pass is a `LoopPassManager` which contains only loop-nest passes, the loop-nest version of adaptor is returned; otherwise, the normal (loop) version of adaptor is returned.
Reviewed By: Whitney
Differential Revision: https://reviews.llvm.org/D87531
This is a temporary fix until figuring out how to correct the forward
declare in mlir/include/mlir/Support/LLVM.h
Differential Revision: https://reviews.llvm.org/D93666
When doing select-to-zext/sext transformations, we should
not handle TrueVal and FalseVal of i1 type otherwise it
would result in zext/sext i1 to i1.
Reviewed By: spatel
Differential Revision: https://reviews.llvm.org/D93272
GCC made the switch on 2018-04-10 ("rs6000: Enable -fasynchronous-unwind-tables by default").
In Clang, FreeBSD/NetBSD powerpc have already defaulted to -fasynchronous-unwind-tables.
This patch defaults Generic_GCC powerpc (which affects Linux) to use -fasynchronous-unwind-tables.
Reviewed By: #powerpc, nemanjai
Differential Revision: https://reviews.llvm.org/D92054
Change Summary:
* Clarify that release manager can commit without code owner approval
(but are still highly encouraged to get approval).
* Clarify that there is no official release criteria.
* Document what types of changes are allowed in each release phase.
This is update is based on the RFC submitted here:
http://lists.llvm.org/pipermail/llvm-dev/2020-May/141730.html
Reviewed By: hans
Differential Revision: https://reviews.llvm.org/D93493
I am experimenting with turning backends into loadable modules and in
that scenario, target specific command line arguments won't be available
until after the targets are initialized.
Also, most other tools initialize targets before parsing arguments.
Reviewed By: wlei
Differential Revision: https://reviews.llvm.org/D93348
Nandor Licker