According to the standard, pointers referring to the elements of a
`basic_string` may be invalidated if they are used as an argument to
any standard library function taking a reference to non-const
`basic_string` as an argument. This patch makes InnerPointerChecker warn
for these cases.
Differential Revision: https://reviews.llvm.org/D49656
llvm-svn: 338259
This patch adds predicated and unpredicated MOVPRFX instructions, which
can be prepended to SVE instructions that are destructive on their first
source operand, to make them a constructive operation, e.g.
add z1.s, p0/m, z1.s, z2.s <=> z1 = z1 + z2
can be made constructive:
movprfx z0, z1
add z0.s, p0/m, z0.s, z2.s <=> z0 = z1 + z2
The predicated MOVPRFX instruction can additionally be used to zero
inactive elements, e.g.
movprfx z0.s, p0/z, z1.s
add z0.s, p0/m, z0.s, z2.s
Not all instructions can be prefixed with the MOVPRFX instruction
which is why this patch also adds a mechanism to validate prefixed
instructions. The exact rules when a MOVPRFX applies is detailed in
the SVE supplement of the Architectural Reference Manual.
This is patch [1/2] in a series to add MOVPRFX instructions:
- Patch [1/2]: https://reviews.llvm.org/D49592
- Patch [2/2]: https://reviews.llvm.org/D49593
Reviewers: rengolin, SjoerdMeijer, samparker, fhahn, javed.absar
Reviewed By: SjoerdMeijer
Differential Revision: https://reviews.llvm.org/D49592
llvm-svn: 338258
Started crashing in r337453. See the added test case for the crash repro.
The fix reverts part of r337453 that causes the crash and does
not actually break anything when reverted.
llvm-svn: 338255
This makes it easier for someone to copy-paste this line, change the path, and run the command.
Differential Revision: https://reviews.llvm.org/D49201
llvm-svn: 338254
The combination of r338240 and r338242 causes the opt pass pipeline tests to
fail because of how r338242 makes BasicAA be invalidated more often. Adjust the
tests to reflect this.
llvm-svn: 338250
By using PhiValuesAnalysis we can get all the values reachable from a phi, so
we can be more precise instead of giving up when a phi has phi operands. We
can't make BaseicAA directly use PhiValuesAnalysis though, as the user of
BasicAA may modify the function in ways that PhiValuesAnalysis can't cope with.
For this optional usage to work correctly BasicAAWrapperPass now needs to be not
marked as CFG-only (i.e. it is now invalidated even when CFG is preserved) due
to how the legacy pass manager handles dependent passes being invalidated,
namely the depending pass still has a pointer to the now-dead dependent pass.
Differential Revision: https://reviews.llvm.org/D44564
llvm-svn: 338242
The machine verifier asserts with:
Assertion failed: (isMBB() && "Wrong MachineOperand accessor"), function getMBB, file ../include/llvm/CodeGen/MachineOperand.h, line 542.
It calls analyzeBranch which tries to call getMBB if the opcode is
JMP_1, but in this case we do:
JMP_1 @OUTLINED_FUNCTION
I believe we have to use TAILJMPd64 instead of JMP_1 since JMP_1 is used
with brtarget8.
Differential Revision: https://reviews.llvm.org/D49299
llvm-svn: 338237
Summary:
These instructions interact with hardware blocks outside the shader core,
and they can have "scalar" side effects even when EXEC = 0. We don't
want these scalar side effects to occur when all lanes want to skip
these instructions, so always add the execz skip branch instruction
for basic blocks that contain them.
Also ensure that we skip scalar stores / atomics, though we don't
code-gen those yet.
Reviewers: arsenm, rampitec
Subscribers: kzhuravl, wdng, yaxunl, dstuttard, tpr, t-tye, llvm-commits
Differential Revision: https://reviews.llvm.org/D48431
Change-Id: Ieaeb58352e2789ffd64745603c14970c60819d44
llvm-svn: 338235
The analyzer may consider a container region as dead while it still has live
iterators. We must defer deletion of the data belonging to such containers
until all its iterators are dead as well to be able to compare the iterator
to the begin and the end of the container which is stored in the container
data.
Differential Revision: https://reviews.llvm.org/D48427
llvm-svn: 338234
Code in `CC_ARM_AAPCS_Custom_Aggregate()` is responsible for handling
homogeneous aggregates for `CC_ARM_AAPCS_VFP`. When an aggregate ends up
fully on stack, the function tries to pack all resulting items of the
aggregate as tightly as possible according to AAPCS.
Once the first item was laid out, the alignment used for consecutive
items was the size of one item. This logic went wrong for 128-bit
vectors because their alignment is normally only 64 bits, and so could
result in inserting unexpected padding between the first and second
element.
The patch fixes the problem by updating the alignment with the item size
only if this results in reducing it.
Differential Revision: https://reviews.llvm.org/D49720
llvm-svn: 338233
Summary:
This patch makes clang-format indent the subsequent lines created by breaking a
long javadoc annotated line.
Reviewers: mprobst
Reviewed By: mprobst
Subscribers: acoomans, cfe-commits
Differential Revision: https://reviews.llvm.org/D49797
llvm-svn: 338232
Summary:
This change moves FDR mode to use `internal_mmap(...)` from
sanitizer_common instead of the internal allocator interface. We're
doing this to sidestep the alignment issues we encounter with the
`InternalAlloc(...)` functions returning pointers that have some magic
bytes at the beginning.
XRay copies bytes into the buffer memory, and does not require the magic
bytes tracking the other sanitizers use when allocating/deallocating
buffers.
Reviewers: kpw, eizan
Subscribers: llvm-commits
Differential Revision: https://reviews.llvm.org/D49972
llvm-svn: 338228
There are a couple of issues you run into when you start getting into
more complex names, especially with regards to function local statics.
When you've got something like:
int x() {
static int n = 0;
return n;
}
Then this needs to demangle to something like
int `int __cdecl x()'::`1'::n
The nested mangled symbols (e.g. `int __cdecl x()` in the above
example) also share state with regards to back-referencing, so
we need to be able to re-use the demangler in the middle of
demangling a symbol while sharing back-ref state.
To make matters more complicated, there are a lot of ambiguities
when demangling a symbol's qualified name, because a function local
scope pattern (usually something like `?1??name?`) looks suspiciously
like many other possible things that can occur, such as `?1` meaning
the second back-ref and disambiguating these cases is rather
interesting. The `?1?` in a local scope pattern is actually a special
case of the more general pattern of `? + <encoded number> + ?`, where
"encoded number" can itself have embedded `@` symbols, which is a
common delimeter in mangled names. So we have to take care during the
disambiguation, which is the reason for the overly complicated
`isLocalScopePattern` function in this patch.
I've added some pretty obnoxious tests to exercise all of this, which
exposed several other problems related to back-referencing, so those
are fixed here as well. Finally, I've uncommented some tests that were
previously marked as `FIXME`, since now these work.
Differential Revision: https://reviews.llvm.org/D49965
llvm-svn: 338226
The DAGCombiner has a mechanism for ensuring all nodes have been visited at least once. Every time a node is visited, it makes sure its operands have been in the worklist at least once. This ensures that when multiple nodes are created by a combine, only the last node needs to be returned. The earlier nodes can all be found Through this operand check. These means we don't need to explicitly add nodes to the worklist when a combine creates multiple nodes.
I've removed the most obvious cases here. There are probably more than can be removed.
llvm-svn: 338222
These are reassociated versions of the same pattern and
similar transforms as in rL338200 and rL338118.
The motivation is identical to those commits:
Patterns with add/sub combos can be improved using
'not' ops. This is better for analysis and may lead
to follow-on transforms because 'xor' and 'add' are
commutative/associative. It can also help codegen.
llvm-svn: 338221
We need to be able to initiate a nested demangling from inside
of an "outer" demangling. These need to be able to share some
state, such as back-references. As a result, we can't store
things like the output stream or the mangled name in the Demangler
class, since each demangling will have different values. So
remove this state and pass it through the necessary methods.
llvm-svn: 338219
Dsymutil's update functionality was broken on Windows because we tried
to rename a file while we're holding open handles to that file. TempFile
provides a solution for this through its keep(Twine) method. This patch
changes dsymutil to make use of that functionality.
Differential revision: https://reviews.llvm.org/D49860
llvm-svn: 338216
The WHILE instructions generate a predicate that is true while the
comparison of the first scalar operand (incremented for each predicate
element) with the second scalar operand is true and false thereafter.
WHILELE While incrementing signed scalar less than or equal to scalar
WHILELO While incrementing unsigned scalar lower than scalar
WHILELS While incrementing unsigned scalar lower than or same as scalar
WHILELT While incrementing signed scalar less than scalar
e.g.
whilele p0.s, x0, x1
generates predicate p0 (for 32bit elements) by incrementing
(signed) x0 and comparing that vector to splat(x1).
llvm-svn: 338211
The instructions added in this patch permit active elements within
a vector to be processed sequentially without unpacking the vector.
PFIRST Set the first active element to true.
PNEXT Find next active element in predicate.
CTERMEQ Compare and terminate loop when equal.
CTERMNE Compare and terminate loop when not equal.
llvm-svn: 338210
This commit increases the number of sections and overall output size of
.o files by 10% and sometimes a bit more. This alone is challenging for
some users, but it also appears to trigger an as-yet unexplained
behavior in the Gold linker where the memory usage increases
considerably more than 10% (we think).
The increase is also frustrating because in many (if not all) cases we
end up with almost all of the growth coming from the ELF overhead of
-ffunction-sections and such, not from actual extra code being emitted.
Richard Smith and Eric Christopher are both going to investigate this
and try to get to the bottom of what is triggering this and whether the
kinds of increases here are sustainable or what options we might have to
minimize the impact they have. However, this is currently breaking
a pretty large number of our users' builds so reverting it while we sort
out how to make progress here. I've seen a longer and more detailed
update to the commit thread.
llvm-svn: 338209
0x22000000 happens to be on the left of a heap allocation and the error
message is different (heap-buffer-overflow).
FreeBSD NetBSD have larger SHADOW_OFFSET (0x40000000) but let's try not
using #ifdef here.
llvm-svn: 338208
There are some very subtle differences between how one should
parse symbol names and type names. They differ with respect
to back-referencing, the set of legal values that can appear
as the unqualified portion, and various other aspects.
By separating the parsing code into separate paths, we can
remove a lot of ambiguity during the demangling process, which
is necessary for demangling more complicated things like
function local statics, nested classes, and lambdas.
llvm-svn: 338207
Reka Kovacs