[InstCombine] Add check for flag propagation in `foldSelectIntoOp` (#173735)
Fixes
https://github.com/llvm/llvm-project/pull/162003#issuecomment-3693943568.
The current flag propagation assumes that if a select has both `ninf`
and `nnan`, then the operands of the folded operation must be finite.
While this assumption holds for `fadd`, `fsub`, and `fmul`, it does not
hold for `fdiv`.
For example, assume we have:
```
A = 1.0, B = +Inf
A / B = 0.0 (finite, non-NaN)
```
The current transform would turn `fdiv A, B; select ninf nnan cond, A/B,
A;` into `A / (select ninf nnan cond, B, 1.0)`. If `cond` is true, the
[6 lines not shown]
[MLIR][Python] Ensure `_Dialect` is imported for all dialects (#173729)
`from ._xxx_ops_gen import _Dialect` appears in some dialect modules,
like builtin, scf, irdl.. but not all of them. This PR ensures that for
upstream dialects, `<dialect module>._Dialect` is availble, like
`arith._Dialect`.
This PR is a prerequisite for the work I’m currently doing. Later on,
I’d like to use these `_Dialect` objects via something like
`conversion_target.add_legal_dialect(arith._Dialect)` (we could of
course just use strings like `add_legal_dialect("arith")`, but compared
to using a defined symbol, I think that’s more prone to typos).
[LegalizeDAG] Remove unnecessary EVT->MVT->EVT conversion. NFC (#173707)
There doesn't appear to be any reason to use MVT here. All of the uses
expect an EVT.
[AMDGPU] add clamp immediate operand to WMMA iu8 intrinsic (#171069)
Fixes #166989
- Adds a clamp immediate operand to the AMDGPU WMMA iu8 intrinsic and
threads it through LLVM IR, MIR lowering, Clang builtins/tests, and MLIR
ROCDL dialect so all layers agree on the new operand
- Updates AMDGPUWmmaIntrinsicModsAB so the clamp attribute is emitted,
teaches VOP3P encoding to accept the immediate, and adjusts Clang
codegen/builtin headers plus MLIR op definitions and tests to match
- Documents what the WMMA clamp operand do
- Implement bitcode AutoUpgrade for source compatibility on WMMA IU8
Intrinsic op
Possible future enhancements:
- infer clamping as an optimization fold based on the use context
---------
Co-authored-by: Matt Arsenault <arsenm2 at gmail.com>
