This also paves the way for unifying TargetIsa and MachBackend, since now they map one to one. In theory the two traits could be merged, which would be nice to limit the number of total concepts. Also they have quite different responsibilities, so it might be fine to keep them separate.
Interestingly, this PR started as removing RegInfo from the TargetIsa trait since the adapter returned a dummy value there. From the fallout, noticed that all Display implementations didn't needed an ISA anymore (since these were only used to render ISA specific registers). Also the whole family of RegInfo / ValueLoc / RegUnit was exclusively used for the old backend, and these could be removed. Notably, some IR instructions needed to be removed, because they were using RegUnit too: this was the oddball of regfill / regmove / regspill / copy_special, which were IR instructions inserted by the old regalloc. Fare thee well!
* Support full set of ADD LOGICAL / SUBTRACT LOGICAL instructions
* Full implementation of IaddIfcout lowering
* Enable most memory64 tests (except simd and threads)
Implemented `SqmulRoundSat` for the Cranelift interpreter, performing
QN-format fixed point multiplication for 16 and 32-bit integers in
SIMD vectors.
Copyright (c) 2021, Arm Limited
- Add relocation handling needed after PR #3275
- Fix incorrect handling of signed constants detected by PR #3056 test
- Fix LabelUse max pos/neg ranges; fix overflow in buffers.rs
- Disable fuzzing tests that require pre-built v8 binaries
- Disable cranelift test that depends on i128
- Temporarily disable memory64 tests
Implemented `Smulhi` for the Cranelift interpreter, performing signed
integer multiplication and producing the high half of a double-length
result.
Copyright (c) 2021, Arm Limited
Implemented `WideningPairwiseDotProductS` to perform sign-extending
length-doubling multiplication on corresponding elements from two
`i16x8` SIMD vectors, performing a pairwise add on the results (thus
returning `i32x4`).
Copyright (c) 2021, Arm Limited
Implemented the following Opcodes for the Cranelift interpreter:
- `Unarrow` to combine two SIMD vectors into a new vector with twice
the lanes but half the width, with signed inputs which are clamped to
`0x00`.
- `Uunarrow` to perform the same operation as `Unarrow` but treating
inputs as unsigned.
- `Snarrow` to perform the same operation as `Unarrow` but treating
both inputs and outputs as signed, and saturating accordingly.
Note that all 3 instructions saturate at the type boundaries.
Copyright (c) 2021, Arm Limited
Implemented the following Opcodes for the Cranelift interpreter:
- `VhighBits` to reduce a vector to a scalar integer formed by
concatenating the MSB of each lane.
- `Vselect` to select lanes from two vectors controlled by a boolean
vector.
Copyright (c) 2021, Arm Limited
Rename the existing AtomicRMW to AtomicRMWLoop and directly lower
atomic_rmw operations, without a loop if LSE support is available.
Copyright (c) 2021, Arm Limited
Implemented `SwidenLow` and `SwidenHigh` for the Cranelift interpreter,
doubling the width and halving the number of lanes preserving the low
and high halves respectively.
Conversions are performed using signed extension.
Copyright (c) 2021, Arm Limited
