To unify the naming scheme across all ops in the SPIR-V dialect, we are
moving from spv.camelCase to spv.CamelCase everywhere.
Differential Revision: https://reviews.llvm.org/D97920
BasicAA knows how to analyze phis, but to control compile time, we're fairly limited in doing so. This patch loosens that restriction just slightly when there is exactly one phi input (after discounting induction variable increments). The result of this is that we can handle more cases around nested and sibling loops with pointer induction variables.
A few points to note.
* This is deliberately extremely restrictive about recursing through at most one input of the phi. There's a known general problem with BasicAA sometimes hitting exponential compile time already, and this patch makes every effort not to compound the problem. Once the root issue is fixed, we can probably loosen the restrictions here a bit.
* As seen in the test file, we're still missing cases which aren't *directly* based on phis (e.g. using the indvar increment). I believe this to be a separate problem and am going to explore this in another patch once this one lands.
* As seen in the test file, this results in the unfortunate fact that using phivalues sometimes results in worse quality results. I believe this comes down to an oversight in how recursive phi detection was implemented for phivalues. I'm happy to tackle this in a follow up change.
Differential Revision: https://reviews.llvm.org/D97401
Now that attributes can be generated using ODS, we can move the builtin attributes as well. This revision removes a majority of the builtin attributes with a few left for followup revisions. The attributes moved to ODS in this revision are: AffineMapAttr, ArrayAttr, DictionaryAttr, IntegerSetAttr, StringAttr, SymbolRefAttr, TypeAttr, and UnitAttr.
Differential Revision: https://reviews.llvm.org/D97591
The value type of the attribute can be specified by either overriding the typeBuilder field on the AttrDef, or by providing a parameter of type `AttributeSelfTypeParameter`. This removes the need to define custom storage class constructors for attributes that have a value type other than NoneType.
Differential Revision: https://reviews.llvm.org/D97590
Add more expectations in vector.ll and select.ll based on command-line option combinations.
Also, remove hard-coded shadow width references to enable fast8 transition.
Reviewed By: stephan.yichao.zhao
Differential Revision: https://reviews.llvm.org/D97903
This enhances the auto-init remark with information about the variable
that is auto-initialized.
This is based of debug info if available, or alloca names (mostly for
development purposes).
```
auto-init.c:4:7: remark: Call to memset inserted by -ftrivial-auto-var-init. Memory operation size: 4096 bytes.Variables: var (4096 bytes). [-Rpass-missed=annotation-remarks]
int var[1024];
^
```
This allows to see things like partial initialization of a variable that
the optimizer won't be able to completely remove.
Differential Revision: https://reviews.llvm.org/D97734
This is recommit of 4c8fb7ddd6.
MIR in one unit test had mismatched types.
For vectors we consider a bit as known if it is the same for all demanded
vector elements (all elements by default). KnownBits BitWidth for vector
type is size of vector element. Add support for G_BUILD_VECTOR.
This allows combines of urem_pow2_to_mask in pre-legalizer combiner.
Differential Revision: https://reviews.llvm.org/D96122
This reverts commit 7479a2e00b.
This commit causes compile errors on clang-x64-windows-msvc, so I'm
reverting the patch for now.
For reference, the error in question is:
```
error C2280: 'llvm::raw_ostream_iterator<char,char>
&llvm::raw_ostream_iterator<char,char>::operator =(const
llvm::raw_ostream_iterator<char,char> &)': attempting to reference a deleted
function
note: compiler has generated 'llvm::raw_ostream_iterator<char,char>::operator ='
here
note: 'llvm::raw_ostream_iterator<char,char>
&llvm::raw_ostream_iterator<char,char>::operator =(const
llvm::raw_ostream_iterator<char,char> &)': function was implicitly deleted
because 'llvm::raw_ostream_iterator<char,char>' has a data member
'llvm::raw_ostream_iterator<char,char>::OutStream' of reference type
```
This change adds a new IR noundef attribute, which denotes when a function call argument or return val may never contain uninitialized bits.
In MemorySanitizer, this attribute enables optimizations which decrease instrumented code size by up to 17% (measured with an instrumented build of clang) . I'll introduce the change allowing msan to take advantage of this information in a separate patch.
Differential Revision: https://reviews.llvm.org/D81678
We're having flaky failures on this test on the sanitizer slow
buildbot. Not per-run flaky, but it'll be green for a while, then red
for a while. I suspect that changes in codegen are causing the
LLVM_VP_MAX_NUM_VALS_PER_SITE=150 to be above and below the limit
sporadically. The limit on my machine using lld and a non-bootstrapped
compiler is 175, but the bot uses GNU ld and ld.gold at different
points, which could be affecting behaviour.
Change this threshold to LLVM_VP_MAX_NUM_VALS_PER_SITE=130 in order to
try and get it below the failure point, at least for the foreseeable
future.
http://lab.llvm.org:8011/#/builders/37/builds/2744
Often you are only interested in the overall cognitive complexity of a
function and not every individual increment. Thus the flag
'DescribeBasicIncrements' is added. If it is set to 'true', each increment
is flagged. Otherwise, only the complexity of function with complexity
of at least the threshold are flagged.
By default 'DescribeBasisIncrements' is set to 'true', which is the original behavior of the check.
Added a new test for different flag combinations.
(The option to ignore macros which was original part of this patch will be added in another path)
Reviewed By: lebedev.ri
Differential Revision: https://reviews.llvm.org/D96281
This function simplifies calling the getChecked methods on Attributes and Types from within the parser, and removes any need to use `getEncodedSourceLocation` for these methods (by using an SMLoc instead). This is much more efficient than using an mlir::Location, as the encoding process to produce an mlir::Location is inefficient and undesirable for parsing (locations used during parsing should not persist afterwards unless otherwise necessary).
Differential Revision: https://reviews.llvm.org/D97900
Since multiple dylibs can be defined in one TBD, this is
necessary to avoid confusion.
Reviewed By: #lld-macho, oontvoo
Differential Revision: https://reviews.llvm.org/D97905
Previously, we were loading re-exports without checking whether
they were compatible with our target. Prior to {D97209}, it meant that
we were defining dylib symbols that were invalid -- usually a silent
failure unless our binary actually used them. D97209 exposed this as an
explicit error.
Along the way, I've extended our TAPI compatibility check to cover the
platform as well, instead of just checking the arch. To this end, I've
replaced MachO::Architecture with MachO::Target in our Config struct.
Reviewed By: #lld-macho, oontvoo
Differential Revision: https://reviews.llvm.org/D97867
The reexport-nested-libs test added in D97438 was a bit wonky.
First, it was linking against libReexportSystem.tbd which targets the
iOS simulator, and which in turn attempted to re-export the iOS
simulator's libSystem. However, due to the way `-syslibroot` works, it
was actually re-exporting the macOS libSystem.
As a result, the test was not actually able to resolve the symbols in
the desired libSystem. I'm guessing that @oontvoo was confused by this
and therefore included those symbols in libReexportSystem.tbd itself.
But this means that the test wasn't actually testing the resolution of
re-exported symbols (though it did at least verify that the re-exported
libraries could be located).
After some consideration, I figured that stub-link.s could be extended
to cover what reexport-nested-libs.s was attempting to do. The test
targets macOS, so we only have one `-syslibroot` and no chance of
confusion.
Reviewed By: #lld-macho, oontvoo
Differential Revision: https://reviews.llvm.org/D97866
Suppose we are linking against libFoo, which re-exports the
implicitly-bound libSystem, which in turn re-exports some
non-explicitly-bound library like `/usr/lib/system/libsystem_c.dylib`.
Then any bindings we have to a symbol in libsystem_c should use
libSystem (and not libFoo) as the umbrella library.
Reviewed By: #lld-macho, smeenai
Differential Revision: https://reviews.llvm.org/D97865
This change adds '-use-interfacestub' option to allow llvm-ifs
to use InterfaceStub lib when generating ELF binary.
Differential Revision: https://reviews.llvm.org/D94461
When using `OptionGroupPythonClassWithDict` options in an `OptionGroup`
with other `Options`, it can happen that the combinaison of some options
of each group makes the command invalid.
To solve that issue, this patch adds a bitmask argument to the
`OptionGroupPythonClassWithDict` constuctor that is used to mark each
option as required (or not).
If the `required_options` bitmask isn't passed to the constructor, the
class will keep its default behaviour, making the `--script-class` and
`--python-function` required.
rdar://65508855
Differential Revision: https://reviews.llvm.org/D97910
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
explicitly emitting retainRV or claimRV calls in the IR
This reapplies ed4718eccb, which was reverted
because it was causing a miscompile. The bug that was causing the miscompile
has been fixed in 75805dce5f.
Original commit message:
Background:
This fixes a longstanding problem where llvm breaks ARC's autorelease
optimization (see the link below) by separating calls from the marker
instructions or retainRV/claimRV calls. The backend changes are in
https://reviews.llvm.org/D92569.
https://clang.llvm.org/docs/AutomaticReferenceCounting.html#arc-runtime-objc-autoreleasereturnvalue
What this patch does to fix the problem:
- The front-end adds operand bundle "clang.arc.attachedcall" to calls,
which indicates the call is implicitly followed by a marker
instruction and an implicit retainRV/claimRV call that consumes the
call result. In addition, it emits a call to
@llvm.objc.clang.arc.noop.use, which consumes the call result, to
prevent the middle-end passes from changing the return type of the
called function. This is currently done only when the target is arm64
and the optimization level is higher than -O0.
- ARC optimizer temporarily emits retainRV/claimRV calls after the calls
with the operand bundle in the IR and removes the inserted calls after
processing the function.
- ARC contract pass emits retainRV/claimRV calls after the call with the
operand bundle. It doesn't remove the operand bundle on the call since
the backend needs it to emit the marker instruction. The retainRV and
claimRV calls are emitted late in the pipeline to prevent optimization
passes from transforming the IR in a way that makes it harder for the
ARC middle-end passes to figure out the def-use relationship between
the call and the retainRV/claimRV calls (which is the cause of
PR31925).
- The function inliner removes an autoreleaseRV call in the callee if
nothing in the callee prevents it from being paired up with the
retainRV/claimRV call in the caller. It then inserts a release call if
claimRV is attached to the call since autoreleaseRV+claimRV is
equivalent to a release. If it cannot find an autoreleaseRV call, it
tries to transfer the operand bundle to a function call in the callee.
This is important since the ARC optimizer can remove the autoreleaseRV
returning the callee result, which makes it impossible to pair it up
with the retainRV/claimRV call in the caller. If that fails, it simply
emits a retain call in the IR if retainRV is attached to the call and
does nothing if claimRV is attached to it.
- SCCP refrains from replacing the return value of a call with a
constant value if the call has the operand bundle. This ensures the
call always has at least one user (the call to
@llvm.objc.clang.arc.noop.use).
- This patch also fixes a bug in replaceUsesOfNonProtoConstant where
multiple operand bundles of the same kind were being added to a call.
Future work:
- Use the operand bundle on x86-64.
- Fix the auto upgrader to convert call+retainRV/claimRV pairs into
calls with the operand bundles.
rdar://71443534
Differential Revision: https://reviews.llvm.org/D92808
Adds a class `raw_ostream_iterator` that behaves like
std::ostream_iterator, but can be used with raw_ostream.
This is useful for using raw_ostream with std algorithms.
For example, it can be used to output std containers as follows:
```
std::vector<int> V = { 1, 2, 3 };
std::copy(V.begin(), V.end(), raw_ostream_iterator<int>(outs(), ", "));
// Output: "1, 2, 3, "
```
The API tries to follow std::ostream_iterator as closely as is
practically possible.
Reviewed By: dblaikie, mkitzan
Differential Revision: https://reviews.llvm.org/D78795
This patch updates the scope line to point to the suspend point. This
makes the first address in the function point to the first source line
in the resume function rather than the function declaration. Without
this the line table "jumps" from the beginning of the function to the
suspend point at the beginning.
rdar://73386346
Differential Revision: https://reviews.llvm.org/D97345
Enables transforming loops of the form:
```
for (int i = 0; I != container.size(); ++I) { container[I]...; }
for (int i = 0; I != N; ++I) { FixedArrSizeN[I]...; }
```
Reviewed By: aaron.ballman
Differential Revision: https://reviews.llvm.org/D97940
This patch adds the cost model for experimental.vector.reverse
with scalable vector types: nxv16i1, nxv8i1, nxv4i1 and nxv2i1.
These types are missing from the previous cost model patch D95603.
The cost model for experimental.vector.reverse with 1 bit mask is used by
loop vectorization in the patch D95363
Differential Revision: https://reviews.llvm.org/D97758
This fixes an instance of:
warning: cast from 'const unsigned long *' to 'unsigned char *' drops const qualifier [-Wcast-qual]
when compiling the generated MCCodeEmitter for an out-of-tree target
that uses the optional support for instruction widths > 64 bits.
Differential Revision: https://reviews.llvm.org/D97942
:: (store 1 + 4, addrspace 1)
->
:: (store 1 into undef + 4, addrspace 1)
An offset without a base isn't terribly useful but it's convenient to update
the offset without checking the value. For example, when breaking apart
stores into smaller units
Differential Revision: https://reviews.llvm.org/D97812
Implemented the option to omit Power10 instructions from save stubs via the
option --no-power10-stubs or --power10-stubs=no on lld. --power10-stubs= will
override the other option. --power10-stubs=auto also exists to use the default
behaviour (ie allow Power10 instructions in stubs).
Differential Revision: https://reviews.llvm.org/D94627
This is a compile time optimization for d9e93e8e5. Not sure this matters or not, but why not do it just in case.
This does involve querying TLI with a potentially invalid addressing mode for the using instruction, but since we don't actually pass the using instruction to the TLI callback, that should be fine.
`tensor_load(tensor_to_memref(x)) -> x` is an incorrect folding because it ignores potential aliasing.
This revision approximates no-aliasing by restricting the folding to occur only when tensor_to_memref
is immediately preceded by tensor_load in the same block. This is a conservative step back towards
correctness until better alias analysis becomes available.
Context: https://llvm.discourse.group/t/properly-using-bufferization-related-passes/2913/6
Differential Revision: https://reviews.llvm.org/D97957
This is a compile time optimization for d9e93e8e5. As pointed out in post dommit review on the original review (D96399), there was a moderately large compile time regression with this patch and the eager computation of domtree on matcher construction is the first obvious candidate for why.
This patch just encapsulates some repeated code. To do so, it
relocates some functions from interface.cpp to omptarget.cpp. It also
adjusts them to the LLVM coding style.
This patch is almost NFC except some `DP` messages are a bit
different. For example, messages like "Entering target region" are
now emitted even if offload is disabled, but a subsequent "Offload is
disabled" is then emitted.
Reviewed By: jdoerfert, grokos
Differential Revision: https://reviews.llvm.org/D97908
Without this patch, an `omp target exit data` before the runtime is
initialized produces a runtime error. This patch fixes that by
changing `__tgt_target_data_end_mapper` to call `CheckDeviceAndCtors`
like many other runtime routines.
Discussed at
<https://lists.llvm.org/pipermail/openmp-dev/2021-March/003920.html>.
Reviewed By: grokos
Differential Revision: https://reviews.llvm.org/D97907
Without this patch, when the offload device is set to
`omp_get_initial_device()`, the runtime fails with an error diagnostic
when entering target regions or target data regions.
However, OpenMP 5.1, sec. 2.14.5 "target Construct", "Restrictions",
p. 203, L3-5 states:
> The device clause expression must evaluate to a non-negative integer
> value that is less than or equal to the value of
> omp_get_num_devices().
Sec. 3.7.7 "omp_get_initial_device", p. 412, L2-3 states:
> The value of the device number is the value returned by the
> omp_get_num_devices routine.
Similarly, OpenMP 5.0, sec. 2.12.5 "target Construct", "Restrictions",
p. 174 L30-32 states:
> The device clause expression must evaluate to a non-negative integer
> value less than the value of omp_get_num_devices() or to the value
> of omp_get_initial_device().
This patch fixes this behavior by changing the runtime to behave as if
offloading is disabled whenever it finds the offload device (either
from a `device` clause or the default device) is set to the host
device. In the case of mandatory offloading when
`omp_get_num_devices() == 0`, it incorporates the behavior proposed
for OpenMP 5.2 in OpenMP spec github issue 2669.
Reviewed By: grokos, RaviNarayanaswamy
Differential Revision: https://reviews.llvm.org/D97616
... unless it's a literal
D94640 was a bit too aggressive in its analysis, considering integers
representing valid addresses as invalid. This change rolls back some of
the check, so that only the most obvious case is still flagged.
Before:
```cpp
free((void*)1000); // literal converted to `void*`: warning good
free((void*)an_int); // `int` object converted to `void*`: warning might
// be a false positive
```
After
```cpp
free((void*)1000); // literal converted to `void*`: warning good
free((void*)an_int); // doesn't warn
```
Differential Revision: https://reviews.llvm.org/D97512
As stated in the CMake manual, we are supposed to use MODULE rules to generate
plugin libraries:
"MODULE libraries are plugins that are not linked into other targets but may be
loaded dynamically at runtime using dlopen-like functionality"
Besides, LLVM's plugin infrastructure fits with the AIX treatment of .so
shared objects more than it fits with the AIX treatment of .a library archives
(which may contain shared objects).
Differential revision: https://reviews.llvm.org/D96282
https://bugs.llvm.org/show_bug.cgi?id=48918
The bug reported a hang (or very very slow runtime) on a Zen2. Unfortunately, we don't have the hardware right now to debug it and I was not able to reproduce the bug on a HSW.
Theory we've got is that the lbr-checking code could be confused on AMD.
Differential Revision: https://reviews.llvm.org/D97504
Jinsong Ji