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!
* Fix some nightly dead code warnings
Looks like the "struct field not used" lint has improved on nightly and
caught a few more instances of fields that were never actually read.
* Fix windows
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 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
- Fixed CI tests for AArch64 and old x86.
- Rename `simd-umulhi.clif` to `umulhi.clif`.
- Rename `simd-umulhi-aarch64.clif` to `simd-umulhi.clif`.
Copyright (c) 2021, Arm Limited.
The tests for the SIMD floating-point maximum and minimum operations
require particular care because the handling of the NaN values is
non-deterministic and may vary between platforms. There is no way to
match several NaN values in a test, so the solution is to extract the
non-deterministic test cases into a separate file that is subsequently
replicated for every backend under test, with adjustments made to the
expected results.
Copyright (c) 2021, Arm Limited.
PR #3131 fixed the failing builds by allowing this field to be dead.
After looking at it further the field is not being used and can be
removedi completely.
One of the fields of `TargetIsa` isn't used in the
cranelift-codegen-meta crate, but instead of refactoring to try to
remove it this just adds `#[allow(dead_code)]` for now in the assumption
that when the old backends go away this will probably go away as well.
Also, reorganize the AArch64-specific VCode instructions for unary
narrowing and widening vector operations, so that they are more
straightforward to use.
Copyright (c) 2021, Arm Limited.
* Add support for processor features (including auto-detection).
* Move base architecture set requirement back to z14.
* Add z15 feature sets and re-enable z15-specific code generation
when required features are available.
* Add support for x64 packed promote low
* Add support for x64 packed floating point demote
* Update vector promote low and demote by adding constraints
Also does some renaming and minor refactoring
When shuffling values from two different registers, the x64 lowering for
`i8x16.shuffle` must first shuffle each register separately and then OR
the results with SSE instructions. With `VPERMI2B`, available in
AVX512VL + AVX512VBMI, this can be done in a single instruction after
the shuffle mask has been moved into the destination register. This
change uses `VPERMI2B` for that case when the CPU supports it.
When AVX512VL or AVX512BITALG are available, Wasm SIMD's `popcnt`
instruction can be lowered to a single x64 instruction, `VPOPCNTB`,
instead of 8+ instructions.
This adds support for the IBM z/Architecture (s390x-ibm-linux).
The status of the s390x backend in its current form is:
- Wasmtime is fully functional and passes all tests on s390x.
- All back-end features supported, with the exception of SIMD.
- There is still a lot of potential for performance improvements.
- Currently the only supported processor type is z15.
This commit changes how both the shared flags and ISA flags are stored in the
serialized module to detect incompatibilities when a serialized module is
instantiated.
It improves the error reporting when a compiled module has mismatched shared
flags.
This commit adds the `wasmtime settings` command to print out available
Cranelift settings for a target (defaults to the host).
The compile command has been updated to remove the Cranelift ISA options in
favor of encouraging users to use `wasmtime settings` to discover what settings
are available. This will reduce the maintenance cost for syncing the compile
command with Cranelift ISA flags.
This commit adds a `compile` command to the Wasmtime CLI.
The command can be used to Ahead-Of-Time (AOT) compile WebAssembly modules.
With the `all-arch` feature enabled, AOT compilation can be performed for
non-native architectures (i.e. cross-compilation).
The `Module::compile` method has been added to perform AOT compilation.
A few of the CLI flags relating to "on by default" Wasm features have been
changed to be "--disable-XYZ" flags.
A simple example of using the `wasmtime compile` command:
```text
$ wasmtime compile input.wasm
$ wasmtime input.cwasm
```
