We are considering to make -fsanitize-memory-param-retval enabled by default so probably this patch is unnneded.
Reviewed By: #libc, EricWF
Differential Revision: https://reviews.llvm.org/D123979
Delete the output streams coming from
CompilerInstance::createOutputFile() and friends once writes are
finished. Concretely, replacing `OS->flush()` with `OS.reset()` in:
- `ExtractAPIAction::EndSourceFileAction()`
- `PrecompiledPreambleAction::setEmittedPreamblePCH()`
- `cc1_main()'s support for `-ftime-trace`
This fixes theoretical bugs related to proxy streams, which may have
cleanups to run in their destructor. For example, a proxy that
CompilerInstance sometimes uses is `buffer_ostream`, which wraps a
`raw_ostream` lacking pwrite support and adds it. `flush()` does not
promise that output is complete; `buffer_ostream` needs to wait until
the destructor to forward anything so that it can service later calls to
`pwrite()`. If the destructor isn't called then the proxied stream
hasn't received any content.
This also protects against some logic bugs, triggering a null
dereference on a later attempt to write to the stream.
No tests, since in practice these particular code paths never use
use `buffer_ostream`; you need to be writing a binary file to a
pipe (such as stdout) to hit it, but `-extract-api` writes a text file
and the other two use computed filenames that will never (in practice)
be a pipe. This is effectively NFC, for now.
But I have some other patches in the works that add guard rails,
crashing if the stream hasn't been destructed by the time the
CompilerInstance is told to keep the output file, since in most cases
this is a problem.
Differential Revision: https://reviews.llvm.org/D124635
The patch is straightforward except the tiny fix in BugReporterVisitors.cpp
that suppresses a default note for "Assuming pointer value is null" when
a note tag from the checker is present. This is probably the right thing to do
but also definitely not a complete solution to the problem of different sources
of path notes being unaware of each other, which is a large and annoying issue
that we have to deal with. Note tags really help there because they're nicely
introspectable. The problem is demonstrated by the newly added getenv() test.
Differential Revision: https://reviews.llvm.org/D122285
MSVC and Itanium mangling use different mangling numbers
for function-scope structs, which causes inconsistent
mangled kernel names in device and host compilations.
This patch uses Itanium mangling number for structs
in for mangling device side names in CUDA/HIP host
compilation on Windows to fix this issue.
A state is added to ASTContext to indicate whether the
current name mangling is for device side names in host
compilation. Device and host mangling number
are encoded/decoded as upper and lower half of 32 bit
unsigned integer to fit into the original mangling number
field for AST. Diagnostic will be emitted if a manglining
number exceeds limit.
Reviewed by: Artem Belevich, Reid Kleckner
Differential Revision: https://reviews.llvm.org/D122734
Fixes: SWDEV-328515
This reverts commit a15b66e76d.
This causes linker to crash at assertion: `Assertion failed: !Expr->isComplex(), file C:\b\s\w\ir\cache\builder\src\third_party\llvm\llvm\lib\CodeGen\LiveDebugValues\InstrRefBasedImpl.cpp, line 907`.
This patch is fixing two issues for both CS and non-CS.
1) For external-call-internal, the head samples of the the internal function should be recorded.
2) avoid ignoring LBR after meeting the interrupt branch for CS profile
LBR parser is shared between CS and non-CS, we found it's error-prone while dealing with artificial branch inside LBR parser. Since artificial branch is mainly used for CS profile unwinding, this patch tries to simplify LBR parser by decoupling artificial branch code from it, the concept of artificial branch is removed and split into two transitional branches(internal-to-external, external-to-internal). Then we leave all the processing of external branch to unwinder.
Specifically for unwinder, remembering that we introduce external frame in https://reviews.llvm.org/D115550. We can just take external address as a regular address and reuse current unwind function(unwindCall, unwindReturn). For a normal case, the external frame will match an external LBR, and it will be filtered out by `unwindLinear` without losing any context.
The data also shows that the interrupt or standalone LBR pattern(unpaired case) does exist, we choose to handle it by clearing the call stack and keeping unwinding. Here we leverage checking in `unwindLinear`, because a standalone LBR, no matter its type, since it doesn’t have other part to pair, it will eventually cause a wrong linear range, like [external, internal], [internal, external]. Then set the state to invalid there.
Reviewed By: hoy, wenlei
Differential Revision: https://reviews.llvm.org/D118177
This is to improve maintenance a bit and remove need to maintain the additional option and related code-paths.
Differential Revision: https://reviews.llvm.org/D124558
This patch fixes a crash when using process launch -t to launch the
inferior from a TTY. The issue is that on Darwin, Host.mm is calling
ConnectionFileDescriptor::Connect without a socket_id_callback_type. The
overload passes nullptr as the function ref, which gets called
unconditionally as the socket_id_callback.
One potential way to fix this is to change all the lambdas to include a
null check, but instead I went with an empty lambda.
Differential revision: https://reviews.llvm.org/D124535
Since D110065, the 'R' profile support is added to LLVM. It turns the
`generic` cpu into the intersection of v8-a and v8-r. However, this
makes some backward compatibility problems. The original patch makes
the clang driver implicitly pass -march=armv8-a when only the triple
is specified. Since it only applies to clang, other tools like
llvm-objdump still faces the backward compatibility problem.
This patch applies the same idea to MC related tools by enabling '+v8a'
feature when nothing is specified (both CPU and FS are empty) for
MCSubtargetInfo creation.
This patch should fix PR53956.
Reviewed by: labrinea
Differential Revision: https://reviews.llvm.org/D124319
The relocation value is calculated using the formula S + A - P,
the verification of the value is performed by inversely calculating the location address
Reviewed By: Amir
Differential Revision: https://reviews.llvm.org/D124270
This patch permits Swing Modulo Scheduling for ARM targets
turns it on by default for the Cortex-M7. The t2Bcc
instruction is recognized as a loop-ending branch.
MachinePipeliner is extended by adding support for
"unpipelineable" instructions. These instructions are
those which contribute to the loop exit test; in the SMS
papers they are removed before creating the dependence graph
and then inserted into the final schedule of the kernel and
prologues. Support for these instructions was not previously
necessary because current targets supporting SMS have only
supported it for hardware loop branches, which have no
loop-exit-contributing instructions in the loop body.
The current structure of the MachinePipeliner makes it difficult
to remove/exclude these instructions from the dependence graph.
Therefore, this patch leaves them in the graph, but adds a
"normalization" method which moves them in the schedule to
stage 0, which causes them to appear properly in kernel and
prologues.
It was also necessary to be more careful about boundary nodes
when iterating across successors in the dependence graph because
the loop exit branch is now a non-artificial successor to
instructions in the graph. In additional, schedules with physical
use/def pairs in the same cycle should be treated as creating an
invalid schedule because the scheduling logic doesn't respect
physical register dependence once scheduled to the same cycle.
Reviewed By: dmgreen
Differential Revision: https://reviews.llvm.org/D122672
We weren't properly returning the result of the constraint,
which leads to errors when actually trying to use the generated
C++.
Differential Revision: https://reviews.llvm.org/D124586
We currently aren't handling this properly, and in the case
of a string block just crash. This commit adds proper error handling
and detection for eof.
Differential Revision: https://reviews.llvm.org/D124585
SourceMgr generally uses 1-based locations, whereas the LSP is zero based.
This commit corrects this conversion and also enhances the conversion from SMLoc
to SMRange to support string tokens.
Differential Revision: https://reviews.llvm.org/D124584
We currently emit an error during verification if a pdl.operation with non-inferrable
results is used within a rewrite. This allows for catching some errors during compile
time, but is slightly broken. For one, the verification at the PDL level assumes that
all dialects have been loaded, which is true at run time, but may not be true when
the PDL is generated (such as via PDLL). This commit fixes this by not emitting the
error if the operation isn't registered, i.e. it uses the `mightHave` variant of trait/interface
methods.
Secondly, we currently don't verify when a pdl.operation has no explicit results, but the
operation being created is known to expect at least one. This commit adds a heuristic
error to detect these cases when possible and fail. We can't always capture when the user
made an error, but we can capture the most common case where the user expected an
operation to infer its result types (when it actually isn't possible).
Differential Revision: https://reviews.llvm.org/D124583
pdl.attribute currently has a syntax ambiguity that leads to the incorrect parsing
of pdl.attribute operations with locations that don't also have a constant value. For example:
```
pdl.attribute loc("foo")
```
The above IR is treated as being a pdl.attribute with a constant value containing the location,
`loc("foo")`, which is incorrect. This commit changes the syntax to use `= <constant-value>` to
clearly distinguish when the constant value is present, as opposed to just trying to parse an attribute.
Differential Revision: https://reviews.llvm.org/D124582
This allows for inferring the result types of operations in certain situations by using the type of
an operand. This commit allowed for automatically supporting type inference for many more
operations with no additional effort, e.g. nearly all Arithmetic operations now support
result type inferrence with no additional changes.
Differential Revision: https://reviews.llvm.org/D124581
This allows for using attribute types in result type inference for use with
InferTypeOpInterface. This was a TODO before, but it isn't much
additional work to properly support this. After this commit,
arith::ConstantOp can now have its InferTypeOpInterface implementation automatically
generated.
Differential Revision: https://reviews.llvm.org/D124580
This is a common extension, though semantics differ across
compilers. I've chosen to interpret the CHARACTER data
as if it were an arbitrary-precision integer value and
format or read it as such. This matches Intel's compilers
and nvfortran. (GNU Fortran can't handle lengths > 1 and XLF
seems to get the enddianness wrong.)
This patch generalizes the previous implementations of
B/O/Z input and output so that they'll work for arbitrary data
in memory, and then uses them for all B/O/Z input/output,
including (now) CHARACTER.
Differential Revision: https://reviews.llvm.org/D124547
The result is a data bag, this makes sure it's signaled to a user that
the data can't be mutated when, for example, doing something like:
auto &R = FAM.getResult<FunctionPropertiesAnalysis>(F)
...
R.Uses++
I would ideally like to eliminate 'requiredOperandCount' as a bit of
verification that should be in the client side, but it is much more
widely used than I expected. Just tidy some pieces up around it given
we can't drop it immediately.
NFC.
Differential Revision: https://reviews.llvm.org/D124629
A record may have more than just FieldDecls in it. If so, then we're
likely to drop them if we only randomize the FieldDecls.
We need to be careful about anonymous structs/unions. Their fields are
made available in the RecordDecl as IndirectFieldDecls, which are listed
after the anonymous struct/union. The ordering doesn't appear to be
super important, however we place them unrandomized at the end of the
RecordDecl just in case. There's also the possiblity of
StaticAssertDecls. We also want those at the end.
All other non-FieldDecls we place at the top, just in case we get
something like:
struct foo {
enum e { BORK };
enum e a;
};
Link: https://github.com/KSPP/linux/issues/185
Reviewed By: aaron.ballman
Differential Revision: https://reviews.llvm.org/D123958
For the AIX linker, under default options, global or weak symbols which
have no visibility bits set to zero (i.e. no visibility, similar to ELF
default) are only exported if specified on an export list provided to
the linker. So AIX has an additional visibility style called
"exported" which indicates to the linker that the symbol should
be explicitly globally exported.
This change maps "dllexport" in the LLVM IR to correspond to XCOFF
exported as we feel this best models the intended semantic (discussion
on the discourse RFC thread: https://discourse.llvm.org/t/rfc-adding-exported-visibility-style-to-the-ir-to-model-xcoff-exported-visibility/61853)
and allows us to enable writing this visibility for the AIX target
in the assembly path.
Reviewed By: DiggerLin
Differential Revision: https://reviews.llvm.org/D123951
Given a shuffle feeding a commutative reduction, the lane ordering of
the shuffle will not alter the result. This is also true if there are a
number of operations between the reduction and the shuffle, providing
they only operate lane-wise. This patch searches for cases like that in
Vector Combine, allowing us to check the cost of the shuffle vs an
in-order identity shuffle and replace the order if possible. This only
handles a single shuffle at the moment to keep things simple, and is
able to ignore splats that produce results where every result is the
same.
This is a more powerful version of a combine that already happens in
instrcombine, capable of optimizing more cases by looking through more
instructions and being able to cost the shuffle.
Differential Revision: https://reviews.llvm.org/D123494
tree-sitter grammar file that tries to closely matches LangRef (it could use
some tweaking and cleanup, but kept fairly basic). Also updated LangRef in
places where found some issues while doing the nearly direct transcription.
This only adds a grammar file, not all the other parts (npm etc) that
accompanies it. Those I'll propose for separate repo like we do for vscode
extension.
Reviewed By: rriddle
Differential Revision: https://reviews.llvm.org/D124352
The asm parser had a notional distinction between parsing an
operand (like "%foo" or "%4#3") and parsing a region argument
(which isn't supposed to allow a result number like #3).
Unfortunately the implementation has two problems:
1) It didn't actually check for the result number and reject
it. parseRegionArgument and parseOperand were identical.
2) It had a lot of machinery built up around it that paralleled
operand parsing. This also was functionally identical, but
also had some subtle differences (e.g. the parseOptional
stuff had a different result type).
I thought about just removing all of this, but decided that the
missing error checking was important, so I reimplemented it with
a `allowResultNumber` flag on parseOperand. This keeps the
codepaths unified and adds the missing error checks.
Differential Revision: https://reviews.llvm.org/D124470
This patch changes `Environment::join`, in the case that two values at the same
location are not (pointer) equal, to structurally compare indirection values
(pointers and references) for equivalence (that is, equivalent pointees) before
resorting to merging.
This change makes join consistent with equivalence, which also performs
structural comparison. It also fixes a bug where the values are `ReferenceValue`
but the merge creates a non-reference value. This case arises when the
`ReferenceValue`s were created to represent an lvalue, so the "reference-ness"
is not reflected in the type. In this case, the pointees will always be
equivalent, because lvalues at the same code location point to the location of a
fixed declaration, whose location is itself stable across blocks.
We were unable to reproduce a unit test for this latter bug, but have verified
the fix in the context of a larger piece of code that triggers the bug.
Differential Revision: https://reviews.llvm.org/D124540
Need to emit final update of the inscan reduction variables. For
worksharing loops, the reduction values are stored in the temp array,
need to copy the last element to the original var at the end of the
construct.
Differential Revision: https://reviews.llvm.org/D121156
In MASM, if a QWORD symbol is passed to a jmp or call instruction in
64-bit mode or a DWORD or WORD symbol is passed in 32-bit mode, then
MSVC's assembler recognizes that as an indirect call. Additionally, if
the operand is qualified as a ptr, then that should also be an indirect
call.
Furthermore, in 64-bit mode, such operands are implicitly rip-relative
(in fact, MSVC's assembler ml64.exe does not allow explicitly specifying
rip as a base register.)
To keep this patch managable, this patch does not include:
* error messages for wrong operand types (e.g. passing a QWORD in 32-bit
mode)
* resolving indirect calls if the symbol is declared after it's first
use (llvm-ml currently only runs a single pass).
* imlementing the extern keyword (required to resolve
https://crbug.com/762167.)
This patch is likely missing a bunch of edge cases, so please do point
them out in the review.
Reviewed By: epastor, hans, MaskRay
Committed By: epastor (on behalf of ayzhao)
Differential Revision: https://reviews.llvm.org/D124413
Introduced masks where they are not added and improved target dependent
cost models to avoid returning of the incorrect cost results after
adding masks.
Differential Revision: https://reviews.llvm.org/D100486
This improves opportunities to use bset/bclr/binv. Unfortunately,
there are no W versions of these instrcutions so this isn't always
a clear win. If we use SLLW we get free sign extend and shift masking,
but need to put a 1 in a register and can't remove an or/xor. If
we use bset/bclr/binv we remove the immediate materializationg and
logic op, but might need a mask on the shift amount and sext.w.
Reviewed By: luismarques
Differential Revision: https://reviews.llvm.org/D124096
The structure ArgPart and alias OffsetAndArgPart have been moved
into the anonymous namespace. NFC.
Reviewed By: aeubanks
Differential Revision: https://reviews.llvm.org/D124617
The condition should be 'ArgParts.size() > MaxElements', so that if we
have exactly 3 elements in the 'ArgParts' vector, the promotion should
be allowed because the 'MaxElement' threshold is not exceeded yet.
The default value for 'MaxElement' has been decreased to 2 in order
to avoid an actual change in argument promoting behavior. However,
this changes byval argument transformation behavior by allowing
adding not more than 2 arguments to the function instead of 3 allowed
before.
Reviewed By: aeubanks
Differential Revision: https://reviews.llvm.org/D124178
