We currently don't have any specialized upgrades for intrinsics
that can be used in invokes, but they can still be subject to
a generic remangling upgrade. In particular, this happens when
upgrading statepoint intrinsics under -opaque-pointers.
This patch just changes the upgrade code to work on CallBase
instead of CallInst in particular.
This header is very large (3M Lines once expended) and was included in location
where dwarf-specific information were not needed.
More specifically, this commit suppresses the dependencies on
llvm/BinaryFormat/Dwarf.h in two headers: llvm/IR/IRBuilder.h and
llvm/IR/DebugInfoMetadata.h. As these headers (esp. the former) are widely used,
this has a decent impact on number of preprocessed lines generated during
compilation of LLVM, as showcased below.
This is achieved by moving some definitions back to the .cpp file, no
performance impact implied[0].
As a consequence of that patch, downstream user may need to manually some extra
files:
llvm/IR/IRBuilder.h no longer includes llvm/BinaryFormat/Dwarf.h
llvm/IR/DebugInfoMetadata.h no longer includes llvm/BinaryFormat/Dwarf.h
In some situations, codes maybe relying on the fact that
llvm/BinaryFormat/Dwarf.h was including llvm/ADT/Triple.h, this hidden
dependency now needs to be explicit.
$ clang++ -E -Iinclude -I../llvm/include ../llvm/lib/Transforms/Scalar/*.cpp -std=c++14 -fno-rtti -fno-exceptions | wc -l
after: 10978519
before: 11245451
Related Discourse thread: https://llvm.discourse.group/t/include-what-you-use-include-cleanup
[0] https://llvm-compile-time-tracker.com/compare.php?from=fa7145dfbf94cb93b1c3e610582c495cb806569b&to=995d3e326ee1d9489145e20762c65465a9caeab4&stat=instructions
Differential Revision: https://reviews.llvm.org/D118781
This makes the statepoint methods in IRBuilder accept a
FunctionCallee, which carries both the callee and function type.
This is used to add the elementtype attribute to the statepoint call.
RS4GC requires an additional tweak to actually preserve that attribute
-- previously the attributes on the call were completely overwritten.
Differential Revision: https://reviews.llvm.org/D118886
This patch extends clang frontend to add metadata that can be used to emit macho files with two build version load commands.
It utilizes "darwin.target_variant.triple" and "darwin.target_variant.SDK Version" metadata names for that.
MachO uses two build version load commands to represent an object file / binary that is targeting both the macOS target,
and the Mac Catalyst target. At runtime, a dynamic library that supports both targets can be loaded from either a native
macOS or a Mac Catalyst app on a macOS system. We want to add support to this to upstream to LLVM to be able to build
compiler-rt for both targets, to finish the complete support for the Mac Catalyst platform, which is right now targetable
by upstream clang, but the compiler-rt bits aren't supported because of the lack of this multiple build version support.
Differential Revision: https://reviews.llvm.org/D115415
Based on the output of include-what-you-use.
This is a big chunk of changes. It is very likely to break downstream code
unless they took a lot of care in avoiding hidden ehader dependencies, something
the LLVM codebase doesn't do that well :-/
I've tried to summarize the biggest change below:
- llvm/include/llvm-c/Core.h: no longer includes llvm-c/ErrorHandling.h
- llvm/IR/DIBuilder.h no longer includes llvm/IR/DebugInfo.h
- llvm/IR/IRBuilder.h no longer includes llvm/IR/IntrinsicInst.h
- llvm/IR/LLVMRemarkStreamer.h no longer includes llvm/Support/ToolOutputFile.h
- llvm/IR/LegacyPassManager.h no longer include llvm/Pass.h
- llvm/IR/Type.h no longer includes llvm/ADT/SmallPtrSet.h
- llvm/IR/PassManager.h no longer includes llvm/Pass.h nor llvm/Support/Debug.h
And the usual count of preprocessed lines:
$ clang++ -E -Iinclude -I../llvm/include ../llvm/lib/IR/*.cpp -std=c++14 -fno-rtti -fno-exceptions | wc -l
before: 6400831
after: 6189948
200k lines less to process is no that bad ;-)
Discourse thread on the topic: https://llvm.discourse.group/t/include-what-you-use-include-cleanup
Differential Revision: https://reviews.llvm.org/D118652
Currently, the clang.arc.attachedcall bundle takes an optional function
argument. Depending on whether the argument is present, calls with this
bundle have the following semantics:
- on x86, with the argument present, the call is lowered to:
call _target
mov rax, rdi
call _objc_retainAutoreleasedReturnValue
- on AArch64, without the argument, the call is lowered to:
bl _target
mov x29, x29
and the objc runtime call is expected to be emitted separately.
That's because, on x86, the objc runtime checks for both the mov and
the call on x86, and treats the combination as the ARC autorelease elision
marker.
But on AArch64, it only checks for the dedicated NOP marker, as that's
historically been sufficiently unique. Thanks to that, the runtime call
wasn't required to be adjacent to the NOP marker, so it wasn't emitted
as part of the bundle sequence.
This patch unifies both architectures: on AArch64, we now emit all
3 instructions for the bundle. This guarantees that the runtime call
is adjacent to the marker in the sequence, and that's information the
runtime can use to further optimize this.
This helps simplify some of the handling, in particular
BundledRetainClaimRVs, which no longer needs to know whether the bundle
is sufficient or not: it now always should be.
Note that this does not include an AutoUpgrade for the nullary bundles,
as they are only produced in ObjCContract as part of the obj/asm emission
pipeline, and are not expected to be in bitcode.
Differential Revision: https://reviews.llvm.org/D118214
Once again, this fold is meaningless with opaque pointers, as there
is no pointer element type to canonicalize. At some point, we may
want to do GEP type canonicalizations.
DIStringType is used to encode the debug info of a character object
in Fortran. A Fortran deferred-length character object is typically
implemented as a pair of the following two pieces of info: An address
of the raw storage of the characters, and the length of the object.
The stringLocationExp field contains the DIExpression to get to the
raw storage.
This patch also enables the emission of DW_AT_data_location attribute
in a DW_TAG_string_type debug info entry based on stringLocationExp
in DIStringType.
A test is also added to ensure that the bitcode reader is backward
compatible with the old DIStringType format.
Differential Revision: https://reviews.llvm.org/D117586
This reverts commit ef82063207.
- It conflicts with the existing llvm::size in STLExtras, which will now
never be called.
- Calling it without llvm:: breaks C++17 compat
Instead use either Type::getPointerElementType() or
Type::getNonOpaquePointerElementType().
This is part of D117885, in preparation for deprecating the API.
This patch removes an incorrect behaviour in Constants.cpp, which would
replace dead constant references in metadata with an undef value. This
blanket replacement resulted in undef values being inserted into
metadata that would not accept them. The replacement was intended for
debug info metadata, but this is now instead handled in the RAUW
handler.
Differential Revision: https://reviews.llvm.org/D117300
This method is intended for use in places that cannot be reached
with opaque pointers, or part of deprecated methods. This makes
it easier to see that some uses of getPointerElementType() don't
need further action.
Differential Revision: https://reviews.llvm.org/D117870
MSVC currently doesn't support 80 bits long double. ICC supports it when
the option `/Qlong-double` is specified. Changing the alignment of f80
to 16 bytes so that we can be compatible with ICC's option.
Reviewed By: rnk, craig.topper
Differential Revision: https://reviews.llvm.org/D115942
I tried to look over the file and didn't see any other non-use of *Len variables.
Reviewed By: deadalnix
Differential Revision: https://reviews.llvm.org/D116482
This follows up on the work in D116599, which changed AttrBuilder
to store string attributes as SmallVector<Attribute>. This patch
changes the implementation to store *all* attributes as a sorted
vector.
This both makes the implementation simpler and improves compile-time.
We get a -0.5% geomean compile-time improvement on CTMark at O0.
Differential Revision: https://reviews.llvm.org/D117558
Currently, the behavior when adding an attribute with the same key
as an existing attribute is inconsistent, depending on the type of
the attribute and the method used to add it. When going through
AttrBuilder::addAttribute(), the new attribute always overwrites
the old one. When going through AttrBuilder::merge() the new
attribute overwrites the existing one if it is a string attribute,
but keeps the existing one for int and type attributes. One
particular API also asserts that you can't overwrite an align
attribute, but does not handle any of the other int, type or string
attributes.
This patch makes the behavior consistent by always overwriting with
the new attribute, which is the behavior I would intuitively expect.
Two tests are affected, which now make a different (but equally
valid) choice. Those tests could be improved by taking the maximum
deref bytes, but I haven't bothered with that, since this is testing
a degenerate case -- the important bit is that it doesn't crash.
Differential Revision: https://reviews.llvm.org/D117552
I based this off of the API already create for llvm.dbg.value since both
intrinsics have the same arguments at the API level.
I added some tests exercising the API a little as well as an additional small
test that shows how one can use llvm.dbg.addr to limit the PC range where an
address value is available in the debugger. This is done by calling
llvm.dbg.value with undef and the same metadata info as one used to create the
llvm.dbg.addr.
rdar://83957028
Reviewed By: aprantl
Differential Revision: https://reviews.llvm.org/D117442
The `InstrProfInstBase` class is for all `llvm.instrprof.*` intrinsics. In a
later diff we will add new instrinsic of this type. Also refactor some
logic in `InstrProfiling.cpp`.
Reviewed By: davidxl
Differential Revision: https://reviews.llvm.org/D117261
This is unused, and doesn't make a lot of sense as an API. The
usual pattern would be to combine the AttrBuilder(AttributeSet)
constructor with the overlaps() method.
Use the AttributeSet constructor instead. There's no good reason
why AttrBuilder itself should exact the AttributeSet from the
AttributeList. Moving this out of the AttrBuilder generally results
in cleaner code.
The invalid undef value already triggers a verifier failure, but
then the upwards scan from the cleanuppad ends up asserting. Make
sure this is handled gacefully instead.
This fixes -fno-semantic-interposition -fsanitize-coverage incompatibility.
-fPIC -fno-semantic-interposition may add dso_local to an external linkage
function. -fsanitize-coverage instrumentation does not clear dso_local when
adding comdat nodeduplicate. This causes a compatibility issue: the function
symbol may be referenced by a PC-relative relocation without using the local
alias. In -shared mode, ld will report a relocation error.
The fix is to either clear dso_local when adding comdat nodeduplicate, or
supporting comdat nodeduplicate. The latter is more appropriate, because a
comdat nodeduplicate is like not using comdat.
Note: The comdat condition was originally added by D77429 to not use local alias
for a hidden external linkage function in a deduplicate comdat. The condition
has been unused since the code was refactored to only use local alias for
default visibility symbols.
Note: `canBenefitFromLocalAlias` is used by clang/lib/CodeGen/CodeGenModule.cpp
and we don't want to add dso_local to default visibility external linkage comdat any
(clang/test/CodeGenCUDA/usual-deallocators.cu).
Differential Revision: https://reviews.llvm.org/D117190
Since 26c6a3e736, LLVM's inliner will "upgrade" the caller's stack protector
attribute based on the callee. This lead to surprising results with Clang's
no_stack_protector attribute added in 4fbf84c173 (D46300). Consider the
following code compiled with clang -fstack-protector-strong -Os
(https://godbolt.org/z/7s3rW7a1q).
extern void h(int* p);
inline __attribute__((always_inline)) int g() {
return 0;
}
int __attribute__((__no_stack_protector__)) f() {
int a[1];
h(a);
return g();
}
LLVM will inline g() into f(), and f() would get a stack protector, against the
users explicit wishes, potentially breaking the program e.g. if h() changes the
value of the stack cookie. That's a miscompile.
More recently, bc044a88ee (D91816) addressed this problem by preventing
inlining when the stack protector is disabled in the caller and enabled in the
callee or vice versa. However, the problem remained if the callee is marked
always_inline as in the example above. This affected users, see e.g.
http://crbug.com/1274129 and http://llvm.org/pr52886.
One way to fix this would be to prevent inlining also in the always_inline
case. Despite the name, always_inline does not guarantee inlining, so this
would be legal but potentially surprising to users.
However, I think the better fix is to not enable the stack protector in a
caller based on the callee. The motivation for the old behaviour is unclear, it
seems counter-intuitive, and causes real problems as we've seen.
This commit implements that fix, which means in the example above, g() gets
inlined into f() (also without always_inline), and f() is emitted without stack
protector. I think that matches most developers' expectations, and that's also
what GCC does.
Another effect of this change is that a no_stack_protector function can now be
inlined into a stack protected function, e.g. (https://godbolt.org/z/hafP6W856):
extern void h(int* p);
inline int __attribute__((__no_stack_protector__)) __attribute__((always_inline)) g() {
return 0;
}
int f() {
int a[1];
h(a);
return g();
}
I think that's fine. Such code would be unusual since no_stack_protector is
normally applied to a program entry point which sets up the stack canary. And
even if such code exists, inlining doesn't change the semantics: there is still
no stack cookie setup/check around entry/exit of the g() code region, but there
may be in the surrounding context, as there was before inlining. This also
matches GCC.
See also the discussion at https://gcc.gnu.org/bugzilla/show_bug.cgi?id=94722
Differential revision: https://reviews.llvm.org/D116589
llvm.vp.merge interprets the %evl operand differently than the other vp
intrinsics: all lanes at positions greater or equal than the %evl
operand are passed through from the second vector input. Otherwise it
behaves like llvm.vp.select.
Reviewed By: craig.topper
Differential Revision: https://reviews.llvm.org/D116725
MSVC currently doesn't support 80 bits long double. ICC supports it when
the option `/Qlong-double` is specified. Changing the alignment of f80
to 16 bytes so that we can be compatible with ICC's option.
Reviewed By: rnk, craig.topper
Differential Revision: https://reviews.llvm.org/D115942
I've changed the definition of the experimental.vector.splice
instrinsic to reject indices that are known to be or possibly
out-of-bounds. In practice, this means changing the definition so that
the index is now only valid in the range [-VL, VL-1] where VL is the
known minimum vector length. We use the vscale_range attribute to
take the minimum vscale value into account so that we can permit
more indices when the attribute is present.
The splice intrinsic is currently only ever generated by the vectoriser,
which will never attempt to splice vectors with out-of-bounds values.
Changing the definition also makes things simpler for codegen since we
can always assume that the index is valid.
This patch was created in response to review comments on D115863
Differential Revision: https://reviews.llvm.org/D115933
We need to explicitly visit a number of types, as these are no
longer reachable through the pointer type if opaque pointers are
enabled. This is similar to ValueEnumerator changes that have
been done previously.
Nikita Popov