DenseSet, SmallPtrSet, SmallSet, SetVector, and StringSet recently
gained C++23-style insert_range. This patch uses insert_range in
conjunction with llvm::{predecessors,successors} and
MachineBasicBlock::{predecessors,successors}.
DenseSet, SmallPtrSet, SmallSet, SetVector, and StringSet recently
gained C++23-style insert_range. This patch replaces:
Dest.insert(Src.begin(), Src.end());
with:
Dest.insert_range(Src);
This patch does not touch custom begin like succ_begin for now.
Most places that call Intrinsic::getAttributes() are only interested in
the function attributes, so add a separate function for that.
The motivation for this is that I'd like to add the ability to specify
range attributes on intrinsics, which requires knowing the function
type. This avoids needing to know the type for most attribute queries.
From #106446, this adds a variant of getVectorIdxTy that returns an LLT.
Many uses only look at the width, so a getVectorIdxWidth was added as
the common base.
This is a fix for:
https://github.com/llvm/llvm-project/issues/97290
Please let me know if that is the right way to address the issue. Thank
you!
---------
Co-authored-by: Renat Idrisov <parsifal-47@users.noreply.github.com>
Co-authored-by: Matt Arsenault <arsenm2@gmail.com>
LiveIntervals and MachineVerifier were previously using Register to
store this, but reg units are different than physical registers. One
important difference is that 0 is a valid reg unit number, but it is not
a valid phyiscal register.
This patch introduces a new VirtRegOrUnit class that is distinct from
Register. It can be be converted to/from a virtual Register or a
MCRegUnit. I've made all conversions explicit and used assertions to
check the validity.
I also fixed a place in MachineVerifier that was ignoring reg unit 0.
-Ensure destination type is at least 2 bits.
-Remove unnecessary check that both sources are the same type. The
verifier already handles this generically.
These are declared to use a single type index for all operands in
GenericOpcodes.td and the verifier knows how to check that all operands
with the same type index match.
The DAG has the same instructions: the signed and unsigned absolute
difference of it's input. For AArch64, they map to uabd and sabd for
Neon and SVE. The Neon and SVE instructions will require custom
patterns.
They are pseudo opcodes and are not imported by the IRTranslator. We
need combines to create them.
PowerPC, ARM, and AArch64 have native instructions.
/// i.e trunc(abs(sext(Op0) - sext(Op1))) becomes abds(Op0, Op1)
/// or trunc(abs(zext(Op0) - zext(Op1))) becomes abdu(Op0, Op1)
For GlobalISel, we are going to write the combines in MIR patterns.
see:
llvm/test/CodeGen/AArch64/abd-combine.ll
- [ ] combine into abd
- [ ] legalize and add td patterns
For the RISC-V target, V14_V15 are not subregisters of v14m4, even
though they share some registers. Currently, the MachineVerifier reports
an error when checking register liveness for segment load/store
operations.
This patch adds additional register liveness checking, using RegUnit
instead of subregisters, to prevent this error.
Create the `ReportedErrors` class to track the number of reported errors
during verification. The class will block reporting errors if some other
thread is currently reporting an error.
I've encountered a case where there were many different verifications
reporting errors at the same time on different threads. This ensures
that we don't start printing the error from one case until we are
completely done printing errors from other cases. Most of the time
`AbortOnError = true` so we usually abort after reporting the first
error.
Depends on https://github.com/llvm/llvm-project/pull/111602.
Many structs in this class have the wrong indentation. To generate this
diff, I touched the first line of each struct and then ran `git
clang-format`. This will make blaming more difficult, but this
autoformatting is difficult to avoid triggering. I think it's best to
push this as one NFC PR.
This produces far too much terminal output, particularly for the
instruction reduction. Since it doesn't consider the liveness of of
the instructions it's deleting, it produces quite a lot of verifier
errors.
-Improve messages.
-Remove redundant checks that are handled in generic code.
-Add check that the subvector is smaller than the vector.
-Add checks that subvector is smaller than the vector.
The implementation was missing the fact that `G_EXTRACT_SUBVECTOR`
destination and source vector can be different types.
Also fix a bug in the MIR builder for `G_EXTRACT_SUBVECTOR` to generate
the correct opcode.
Clarify the G_EXTRACT_SUBVECTOR specification.
- Add `MachineVerifierPass`.
- Use complete `MachineVerifierPass` in `VerifyInstrumentation` if
possible.
`LiveStacksAnalysis` will be added in future, all other analyses are
done.
- Add `LiveIntervalsAnalysis`.
- Add `LiveIntervalsPrinterPass`.
- Use `LiveIntervalsWrapperPass` in legacy pass manager.
- Use `std::unique_ptr` instead of raw pointer for `LICalc`, so
destructor and default move constructor can handle it correctly.
This would be the last analysis required by `PHIElimination`.
This re-applies #94241 after fixing buildbot failure, see
https://lab.llvm.org/buildbot/#/builders/51/builds/570
According to standard, `constexpr` variables and `const` variables
initialized with constant expressions can be used in lambdas w/o
capturing - see https://en.cppreference.com/w/cpp/language/lambda.
However, MSVC used on buildkite seems to ignore that rule and does not
allow using such uncaptured variables in lambdas: we have "error C3493:
'Mask16' cannot be implicitly captured because no default capture mode
has been specified" - see
https://buildkite.com/llvm-project/github-pull-requests/builds/73238
Explicitly capturing such a variable, however, makes buildbot fail with
"error: lambda capture 'Mask16' is not required to be captured for this
use [-Werror,-Wunused-lambda-capture]" - see
https://lab.llvm.org/buildbot/#/builders/51/builds/570.
Fix both cases by using `0xffff` value directly instead of giving a name
to it.
Original PR description below.
Depends on #94240.
Define the following pseudos for lowering ptrauth constants in code:
- non-`extern_weak`:
- no GOT load needed: `MOVaddrPAC` - similar to `MOVaddr`, with added
PAC;
- GOT load needed: `LOADgotPAC` - similar to `LOADgot`, with added PAC;
- `extern_weak`: `LOADauthptrstatic` - similar to `LOADgot`, but use a
special stub slot named `sym$auth_ptr$key$disc` filled by dynamic linker
during relocation resolving instead of a GOT slot.
---------
Co-authored-by: Ahmed Bougacha <ahmed@bougacha.org>
Depends on #94240.
Define the following pseudos for lowering ptrauth constants in code:
- non-`extern_weak`:
- no GOT load needed: `MOVaddrPAC` - similar to `MOVaddr`, with added
PAC;
- GOT load needed: `LOADgotPAC` - similar to `LOADgot`, with added PAC;
- `extern_weak`: `LOADauthptrstatic` - similar to `LOADgot`, but use a
special stub slot named `sym$auth_ptr$key$disc` filled by dynamic linker
during relocation resolving instead of a GOT slot.
---------
Co-authored-by: Ahmed Bougacha <ahmed@bougacha.org>
Prepare for new pass manager version of `MachineDominatorTreeAnalysis`.
We may need a machine dominator tree version of `DomTreeUpdater` to
handle `SplitCriticalEdge` in some CodeGen passes.
This attempts to standardize and extend some of the insert vector
element lowering. Most notably:
- More types are handled by splitting illegal vectors.
- The index type for G_INSERT_VECTOR_ELT is canonicalized to
TLI.getVectorIdxTy(), similar to extact_vector_element.
- Some of the existing patterns now have the index type specified to
make sure they can apply to GISel too.
- The C++ selection code has been removed, relying on tablegen patterns.
- G_INSERT_VECTOR_ELT with small GPR input elements are pre-selected to
use a i32 type, allowing the existing patterns to apply.
- Variable index inserts are lowered in post-legalizer lowering,
expanding into a stack store and reload.
These cases in particular are done as a precommit to support
legalization, regbank selection, and instruction selection for extends,
splat vectors, and integer compares in #85938.
Here we introduce three new GMIR instructions to cover a set of trap
intrinsics. The idea behind it is that generic intrinsics shouldn't be
used with G_INTRINSIC opcode.
These new instructions can match perfectly with existing trap ISD nodes.
It allows X86, AArch64, RISCV and Mips to reuse SelectionDAG patterns for
selection and avoid manual selection. However AMDGPU is an exception. It
selects traps during legalization regardless SelectionDAG or GlobalISel.
Since there are not many places where traps are used, this change
attempts to clean up all the usages of G_INTRINSIC with trap intrinsics. So,
there is no stage when both G_TRAP and
G_INTRINSIC_W_SIDE_EFFECTS(@llvm.trap) are allowed.
