Resolves#84745.
Based on SDPatternMatch introduced by #78654, this patch replaces some
of basic patterns in `visitADDLike` with corresponding patterns in
SDPatternMatch.
This patch only replaces original folds, instead of introducing new ones.
As part of the effort to rename the DbgRecord classes, this patch
renames the widely-used functions that operate on DbgRecords but refer
to DbgValues or DPValues in their names to refer to DbgRecords instead;
all such functions are defined in one of `BasicBlock.h`,
`Instruction.h`, and `DebugProgramInstruction.h`.
This patch explicitly does not change the names of any comments or
variables, except for where they use the exact name of one of the
renamed functions. The reason for this is reviewability; this patch can
be trivially examined to determine that the only changes are direct
string substitutions and any results from clang-format responding to the
changed line lengths. Future patches will cover renaming variables and
comments, and then renaming the classes themselves.
When I created APIntOps::absdiff, I totally missed that we already have ISD::ABDS/ABDU nodes, and we use this term in other places/targets as well.
I've added the APIntOps::abds implementation and renamed APIntOps::absdiff to APIntOps::abdu.
Given that APIntOps::absdiff is so young I don't think we need to create a deprecation wrapper, but I can if anyone thinks it important.
I'll do a KnownBits rename patch after this.
With special case with Add constant is 0.
Original message:
We can support these by changing the sext promotion to -zext(-C) and
replacing a sgt check with ugt. Reframing the logic in terms of how the
unsigned range are affected. More comments in the patch.
The new cases check isLegalAddImmediate to avoid some
regressions in lit tests.
G_INSERT and G_EXTRACT are not sufficient to use to represent both
INSERT/EXTRACT on a subregister and INSERT/EXTRACT on a vector.
We would like to be able to INSERT/EXTRACT on vectors in cases that
INSERT/EXTRACT on vector subregisters are not sufficient, so we add
these opcodes.
I tried to do a patch where we treated G_EXTRACT as both
G_EXTRACT_SUBVECTOR and G_EXTRACT_SUBREG, but ran into an infinite loop
at this
[point](8b5b294ec2/llvm/lib/Target/RISCV/RISCVISelLowering.cpp (L9932))
in the SDAG equivalent code.
Extend repairIntervalsInRange to completely recompute the interva for a
register if subregister defs exist without precise subrange matches
(LaneMask exactly matching subregister).
This occurs when register sequences are lowered to copies such that the
size of the copies do not match any uses of the subregisters formed
(i.e. during twoaddressinstruction).
The subranges without this change are probably legal, but do not match
those generated by live interval computation. This creates problems with
other code that assumes subranges precisely cover all subregisters
defined, e.g. shrinkToUses().
No nans/infs in SelectionDAG is complicated. Hopefully I've captured
all of the cases. I've only applied to ConsiderFlags to the SDNodeFlags
since those are the only ones that will be droped by hoisting. The
condition code and TargetOptions would still be in effect.
Recovers some regression from #84232.
Teach canCreateUndefOrPoison that ISD::SETCC with integer operands can
never create undef/poison. FP SETCC is more complicated and will be
handled in a future patch.
Teach isGuaranteedNotToBeUndefOrPoison that ISD::CONDCODE is not
poison/undef. Its a special constant only used by setcc/select_cc like
nodes. This is needed since the hoisting will only hoist if exactly one
operand might be poison. setcc has 3 operand including the condition
code.
Recovers some regression from #84232.
This only converts the instances where all that is needed is to change
the variable type name.
Basically, anything that involves a function that LiveRegUnits does not
directly have was skipped to play it safe.
Reverts
7a0e222a17
This removes, at least when a vector library is available, a failure
case for scalable vectors. Doing so means we can confidently cost vector
FREM instructions without making an assumption that later passes will
transform the IR before it gets to the code generator.
NOTE: Whilst only FREM has been implemented the same mechanism
can be used for the other libm related ISD nodes.
Recommits llvm/llvm-project#80378 which was reverted in
llvm/llvm-project#84330. The problem was that the change in
llvm/test/CodeGen/AArch64/GlobalISel/legalizer-info-validation.mir used
217 as an opcode instead of a regex.
This patch is stacked on
https://github.com/llvm/llvm-project/pull/80372,
https://github.com/llvm/llvm-project/pull/80307, and
https://github.com/llvm/llvm-project/pull/80306.
ShuffleVector on scalable vector types gets IRTranslate'd to
G_SPLAT_VECTOR since a ShuffleVector that has operates on scalable
vectors is a splat vector where the value of the splat vector is the 0th
element of the first operand, because the index mask operand is the
zeroinitializer (undef and poison are treated as zeroinitializer here).
This is analogous to what happens in SelectionDAG for ShuffleVector.
`buildSplatVector` is renamed to`buildBuildVectorSplatVector`. I did not
make this a separate patch because it would cause problems to revert
that change without reverting this change too.
The convention is for such MC-specific options to reside in
MCTargetOptions. However, CompressDebugSections/RelaxELFRelocations do
not follow the convention: `CompressDebugSections` is defined in both
TargetOptions and MCAsmInfo and there is forwarding complexity.
Move the option to MCTargetOptions and hereby simplify the code. Rename
the misleading RelaxELFRelocations to X86RelaxRelocations. llvm-mc
-relax-relocations and llc -x86-relax-relocations can now be unified.
This is another part of #70452 which makes getMemOperandsWithOffsetWidth
use a LocationSize for Width, as opposed to the unsigned it currently
uses. The advantages on it's own are not super high if
getMemOperandsWithOffsetWidth usually uses known sizes, but if the
values can come from an MMO it can help be more accurate in case they
are Unknown (and in the future, scalable).
This is similar to #83017 but for the areas in GlobalISel's
LoadStoreOpt, and should help simplify #70452 a little. It will likely
change a little again once the sizes can be scalable.
This restores commit c7fdd8c11e54585dc9d15d63de9742067e0506b9.
Previously reverted in f010b1bef4dda2c7082cbb41dbabf1f149cce306.
LLVM function calls carry convergence control tokens as operand bundles, where
the tokens themselves are produced by convergence control intrinsics. This patch
implements convergence control tokens in MIR as follows:
1. Introduce target-independent ISD opcodes and MIR opcodes for convergence
control intrinsics.
2. Model token values as untyped virtual registers in MIR.
The change also introduces an additional ISD opcode CONVERGENCECTRL_GLUE and a
corresponding machine opcode with the same spelling. This glues the convergence
control token to SDNodes that represent calls to intrinsics. The glued token is
later translated to an implicit argument in the MIR.
The lowering of calls to user-defined functions is target-specific. On AMDGPU,
the convergence control operand bundle at a non-intrinsic call is translated to
an explicit argument to the SI_CALL_ISEL instruction. Post-selection adjustment
converts this explicit argument to an implicit argument on the SI_CALL
instruction.
The base class llvm::ThreadPoolInterface will be renamed
llvm::ThreadPool in a subsequent commit.
This is a breaking change: clients who use to create a ThreadPool must
now create a DefaultThreadPool instead.
Clang sets the nonlazybind attribute for certain ObjC features. The
AArch64 SelectionDAG implementation for non-intrinsic calls
(46e36f0953aabb5e5cd00ed8d296d60f9f71b424) is behind a cl option.
GCC implements -fno-plt for a few ELF targets. In Clang, -fno-plt also
sets the nonlazybind attribute. For SelectionDAG, make the cl option not
affect ELF so that non-intrinsic calls to a dso_preemptable function use
GOT. Adjust AArch64TargetLowering::LowerCall to handle intrinsic calls.
For FastISel, change `fastLowerCall` to bail out when a call is due to
-fno-plt.
For GlobalISel, handle non-intrinsic calls in CallLowering::lowerCall
and intrinsic calls in AArch64CallLowering::lowerCall (where the
target-independent CallLowering::lowerCall is not called).
The GlobalISel test in `call-rv-marker.ll` is therefore updated.
Note: the current -fno-plt -fpic implementation does not use GOT for a
preemptable function.
Link: #78275
Pull Request: https://github.com/llvm/llvm-project/pull/78890
It's becoming potentially unsafe to insert a PHI instruction using a plain
Instruction pointer. Switch all the remaining sites that create and insert
PHIs to use iterators instead. For example, the code in
ComplexDeinterleavingPass.cpp is definitely at-risk of mixing PHIs and
debug-info.
Previously SelectionDAGBuilder used ABI alignment for
compressstore/expandload. This patch allows SelectionDAGBuilder to use
parameter alignment like vp intrinsics. This does not follow the
original code to default use vector type alignment, since it is possible
implemented to unaligned vector alignment.
An EXTRACT_VECTOR_ELT can extend the element to the width of its result
type, leaving the high bits undefined. Previously if we attempted to
query the bytes in these high bits we would recurse and hit an
assertion. This fixes it by bailing if the index is outside of the
vector element size.
I think the assertion Index < ByteWidth may still be incorrect, since
ByteWidth is calculated from Op.getValueSizeInBits(). I believe this
should be Op.getScalarValueSizeInBits() whenever VectorIndex is set
since we're querying the element now, not the vector. But I couldn't
think of a test case to trigger it. It can be addressed in a follow-up
patch.
Fixes#83920
Changes in Recommit:
1) Fix non-determanism by using `SmallMapVector` instead of
`SmallPtrSet`.
2) Fix bug in dependency pruning where we discounted the actual
`and/or` combining the two conditions. This lead to over pruning.
Closes#81689
This reverts commit c7fdd8c11e54585dc9d15d63de9742067e0506b9.
Reason: Broke the sanitizer buildbots. See the comments at
https://github.com/llvm/llvm-project/pull/71785
for more information.
Original commit 79889734b940356ab3381423c93ae06f22e772c9.
Perviously reverted in commit a2afcd5721869d1d03c8146bae3885b3385ba15e.
LLVM function calls carry convergence control tokens as operand bundles, where
the tokens themselves are produced by convergence control intrinsics. This patch
implements convergence control tokens in MIR as follows:
1. Introduce target-independent ISD opcodes and MIR opcodes for convergence
control intrinsics.
2. Model token values as untyped virtual registers in MIR.
The change also introduces an additional ISD opcode CONVERGENCECTRL_GLUE and a
corresponding machine opcode with the same spelling. This glues the convergence
control token to SDNodes that represent calls to intrinsics. The glued token is
later translated to an implicit argument in the MIR.
The lowering of calls to user-defined functions is target-specific. On AMDGPU,
the convergence control operand bundle at a non-intrinsic call is translated to
an explicit argument to the SI_CALL_ISEL instruction. Post-selection adjustment
converts this explicit argument to an implicit argument on the SI_CALL
instruction.