MemProfUnitTest now depends on libcxx but the dependency is not
explicitly expressed in build system, causing build races. This patch
addresses this issue.
Differential Revision: https://reviews.llvm.org/D114267
The predicate IsCoarray() needs to be in libFortranEvaluate so that
IsSaved() can call it without breaking the shared library build.
Pushed without pre-commit review as I'm moving code around and
the fix to the shared build is confirmed.
This enables Intel intrinsics support on FreeBSD.
Thanks to @pkubaj who noticed this feature was missing
Reviewed By: jsji
Differential Revision: https://reviews.llvm.org/D113451
[NFC] As part of using inclusive language within the llvm project, this patch
replaces master with main in `2007-04-02-RegScavengerAssert.ll`.
Reviewed By: dblaikie
Differential Revision: https://reviews.llvm.org/D114276
This reverts commit 3028bca6a9.
For some reason using FallbackModel works with CMake and does not work
with bazel. Using `ExternalModel` works. I will check what's going on
and resubmit tomorrow.
[NFC] As part of using inclusive language within the llvm project, this patch
replaces master with controller in these tests.
Reviewed By: rjmccall
Differential Revision: https://reviews.llvm.org/D114108
Remove the interface from op defs in MemRefOps.td and make it an external model.
This is the first PR of many that will move bufferization-related ops, interfaces, passes to Dialect/Bufferize.
RFC: https://llvm.discourse.group/t/rfc-dialect-for-bufferization-related-ops/4712
It is still debated if the comprehensive bufferization has to be moved there as well, so for now I am just moving the "gradual" bufferization.
Differential Revision: https://reviews.llvm.org/D114147
The update script ( utils/update_test_checks.py ) warns against this
because it can conflict with the default FileCheck names given to
anonymous values in the IR.
The test specified amd64-unknown-freebsd40.0 rather than 14.0. Since
40 is greater than 14 the test (for behaviour new in FreeBSD 14) worked
despite the typo.
Fixes: 699d47472c
Reviewed by: dim (in D77776)
This reverts commit a9e236bed8.
This broke the Windows build:
mlir\include\mlir/Dialect/X86Vector/Transforms.h(28): error C2061: syntax error: identifier 'uint'
Follup-up to D107533, where we replaced local syms with non-local.
It doesn't make sense to replace local symbol with lazy.
Differential Revision: https://reviews.llvm.org/D110040
This does not include `std::compare_*_fallback`; those are coming later.
There's still an open question of how to implement std::strong_order
for `long double`, which has 80 value bits and 48 padding bits on x86-64,
and which is presumably *not* IEEE 754-compliant on PPC64 and so on.
So that part is left unimplemented.
Differential Revision: https://reviews.llvm.org/D110738
Actually there's one functional change here, which is that users can
no longer depend on <random> to include all of C++20 <concepts>. That
inclusion is so new that we believe nobody should be depending on it
yet, even in the presence of Hyrum's Law. We keep the includes of <vector>,
<algorithm>, etc., so as not to break pre-C++20 Hyrum's Law users.
Differential Revision: https://reviews.llvm.org/D114281
This legacy option (available in other Fortran compilers with various
spellings) implies the SAVE attribute for local variables on subprograms
that are not explicitly RECURSIVE. The SAVE attribute essentially implies
static rather than stack storage. This was the default setting in Fortran
until surprisingly recently, so explicit SAVE statements & attributes
could be and often were omitted from older codes. Note that initialized
objects already have an implied SAVE attribute, and objects in COMMON
effectively do too, as data overlays are extinct; and since objects that are
expected to survive from one invocation of a procedure to the next in static
storage should probably be explicit initialized in the first place, so the
use cases for this option are somewhat rare, and all of them could be
handled with explicit SAVE statements or attributes.
This implicit SAVE attribute must not apply to automatic (in the Fortran sense)
local objects, whose sizes cannot be known at compilation time. To get the
semantics of IsSaved() right, the IsAutomatic() predicate was moved into
Evaluate/tools.cpp to allow for dynamic linking of the compiler. The
redundant predicate IsAutomatic() was noticed, removed, and its uses replaced.
GNU Fortran's spelling of the option (-fno-automatic) was added to
the clang-based driver and used for basic sanity testing.
Differential Revision: https://reviews.llvm.org/D114209
We cannot unconditionally generate memref.load ops for such cases;
need to check the source's type.
Reviewed By: nicolasvasilache
Differential Revision: https://reviews.llvm.org/D114376
MLIR supports recursive types but they could not be handled by the conversion
infrastructure directly as it would result in infinite recursion in
`convertType` for elemental types. Support this case by keeping the "call
stack" of nested type conversions in the TypeConverter class and by passing it
as an optional argument to the individual conversion callback. The callback can
then check if a specific type is present on the stack more than once to detect
and handle the recursive case.
This approach is preferred to the alternative approach of having a separate
callback dedicated to handling only the recursive case as the latter was
observed to introduce ~3% time overhead on a 50MB IR file even if it did not
contain recursive types.
This approach is also preferred to keeping a local stack in type converters
that need to handle recursive types as that would compose poorly in case of
out-of-tree or cross-project extensions.
Reviewed By: rriddle
Differential Revision: https://reviews.llvm.org/D113579
This is a near-universal language extension; external unit 0
is preconnected to the standard error output.
Differential Revision: https://reviews.llvm.org/D114298
In the test suite, we generally don't use printf or other reporting
utilities. It's not that it wouldn't be useful, it's just that some
platforms don't support IO.
Instead, we try to keep test cases small and self-contained so that
we can reasonably easily reproduce failures locally and debug them.
This patch removes printf in some of the last places in the test suite
that used it. The only remaining places are in a deque test and in the
filesystem tests. The filesystem tests are arguably fine to keep using
IO, since we're testing <filesystem>. The deque test will be handled
separately.
Differential Revision: https://reviews.llvm.org/D114282
This basically reverts 1778831a3d, which split them.
Since they were split 9 years ago, EmitGCCInlineAsmStr() grew a bunch of
features that usually weren't added to EmitMSInlineAsmStr(), and
that was usually a mistake. D71677, D113932, D114167 are all examples
of where things were backported to EmitMSInlineAsmStr().
The names were also not great. EmitMSInlineAsmStr() used to be called for `asm
inteldialect`, which clang produces for Microsoft-style __asm { ... } blocks as
well for GCC-style __asm__ / asm statements with -masm=intel. On the other hand,
EmitGCCInlineAsmStr() used to be called for `asm`, whic clang produces for
GCC-style __asm__ / asm statements with -masm=att (the default).
It's also less code (23 insertions, 188 deletions).
No behavior change.
Differential Revision: https://reviews.llvm.org/D114330
This makes a line in llvm/test/CodeGen/X86/asm-block-labels.ll pass
with `asm inteldialect` too.
I don't know if this is something one can hit in practice with inline
asm. The test is from 2007 (4646aa3e33) but in 2009 blockaddr was
introduced and e.g. `__asm__ __volatile__("brl %0" :: "X"(&&foo) : "memory");`
compiles to
call void asm sideeffect "brl $0", "X,..."(i8* blockaddress(@func, %1))
nowadays (thanks to jrtc27 for that example!).
(6c4d255bf3 switched clang to blockaddress on an opt-in basis,
e4801f7844 added docs for it, 31b132c0b7 added IR support.)
I half-heartedly tried to build clang 2.8 locally, but it didn't
just build. And 2.8 didn't have a prebuilt clang binary yet.
The motivation is to make EmitGCCInlineAsmStr() and EmitMSInlineAsmStr()
more alike, and maybe we should delete this code form EmitGCCInlineAsmStr()
instead. But since it's just 3 lines and it's reachable from LLVM IR,
let's do the safer thing for now.
Differential Revision: https://reviews.llvm.org/D114329
This patch has been tested in D70631, but it should be reviewed
separately.
Reviewed By: ldionne, #libc
Differential Revision: https://reviews.llvm.org/D114248
Make the SimpleSValBuilder capable to simplify existing IntSym
expressions based on a newly added constraint on the sub-expression.
Differential Revision: https://reviews.llvm.org/D113754
Most changes are rewording comments but there are some assertions that I rephrased.
Reviewed By: kparzysz
Differential Revision: https://reviews.llvm.org/D114132
Currently, we restore the return address register as the last restoring
instruction in the epilog. The next instruction is `ret` usually. It is
a use of return address register. In some microarchitectures, there is
load-to-use data hazard. To avoid the load-to-use data hazard, we could
separate the load instruction from its use as far as possible. In this
patch, we reverse the order of restoring callee-saved registers to
increase the distance of `load ra` and `ret` in the epilog.
Differential Revision: https://reviews.llvm.org/D113967
This change switches tsan to the new runtime which features:
- 2x smaller shadow memory (2x of app memory)
- faster fully vectorized race detection
- small fixed-size vector clocks (512b)
- fast vectorized vector clock operations
- unlimited number of alive threads/goroutimes
Depends on D112602.
Reviewed By: melver
Differential Revision: https://reviews.llvm.org/D112603
All runtime callbacks must be non-instrumented with the new tsan runtime
(it's now more picky with respect to recursion into runtime).
Disable instrumentation in Darwin tests as we do in all other tests now.
Differential Revision: https://reviews.llvm.org/D114348
This adds validation for consistency of ValueExprMap and
ExprValueMap, and fixes identified issues:
* Addrec construction directly wrote to ValueExprMap in a few places,
without updating ExprValueMap. Add a helper to ensures they stay
consistent. The adjustment in forgetSymbolicName() explicitly
drops the old value from the map, so that we don't rely on it
being overwritten.
* forgetMemoizedResultsImpl() was dropping the SCEV from
ExprValueMap, but not dropping the corresponding entries from
ValueExprMap.
Differential Revision: https://reviews.llvm.org/D113349
Using an lldb_private object in the bindings involves three steps
- wrapping the object in it's lldb::SB variant
- using swig to convert/wrap that to a PyObject
- wrapping *that* in a lldb_private::python::PythonObject
Our SBTypeToSWIGWrapper was only handling the middle part. This doesn't
just result in increased boilerplate in the callers, but is also a
functionality problem, as it's very hard to get the lifetime of of all
of these objects right. Most of the callers are creating the SB object
(step 1) on the stack, which means that we end up with dangling python
objects after the function terminates. Most of the time this isn't a
problem, because the python code does not need to persist the objects.
However, there are legitimate cases where they can do it (and even if
the use case is not completely legitimate, crashing is not the best
response to that).
For this reason, some of our code creates the SB object on the heap, but
it has another problem -- it never gets cleaned up.
This patch begins to add a new function (ToSWIGWrapper), which does all
of the three steps, while properly taking care of ownership. In the
first step, I have converted most of the leaky code (except for
SBStructuredData, which needs a bit more work).
Differential Revision: https://reviews.llvm.org/D114259
Haowei Wu