compilation.
This saves ~0.14% instruction count, ~0.18% allocated bytes, and ~1.5%
allocated blocks on a `clif-util wasm` compilation of `bz2.wasm` for
aarch64.
This PR changes the aarch64 ABI implementation to use positive offsets
from SP, rather than negative offsets from FP, to refer to spill slots
and stack-local storage. This allows for better addressing-mode options,
and hence slightly better code: e.g., the unsigned scaled 12-bit offset
mode can be used to reach anywhere in a 32KB frame without extra
address-construction instructions, whereas negative offsets are limited
to a signed 9-bit unscaled mode (-256 bytes).
To enable this, the PR introduces a notion of "nominal SP offsets" as a
virtual addressing mode, lowered during the emission pass. The offsets
are relative to "SP after adjusting downward to allocate stack/spill
slots", but before pushing clobbers. This allows the addressing-mode
expressions to be generated before register allocation (or during it,
for spill/reload sequences).
To convert these offsets into *true* offsets from SP, we need to track
how much further SP is moved downward, and compensate for this. We do so
with "virtual SP offset adjustment" pseudo-instructions: these are seen
by the emission pass, and result in no instruction (0 byte output), but
update state that is now threaded through each instruction emission in
turn. In this way, we can push e.g. stack args for a call and adjust
the virtual SP offset, allowing reloads from nominal-SP-relative
spillslots while we do the argument setup with "real SP offsets" at the
same time.
This PR updates Cranelift to use the new version of regalloc.rs
(bytecodealliance/regalloc.rs#55) that provides dense vreg->rreg maps to
the `map_reg()` function for each instruction, rather than the earlier
hashmap-based approach.
In one test (regex-rs.wasm), this PR results in a 15% reduction in
memory allocations (1245MB -> 1060MB) as measured by DHAT on `clif-util
wasm` runs.
This change adds SourceLoc information per instruction in a `VCode<Inst>`
container, and keeps this information up-to-date across register allocation
and branch reordering. The information is initially collected during
instruction lowering, eventually collected on the MachSection, and finally
provided to the environment that wraps the codegen crate for wasmtime.
- Undo temporary changes to default features (`all-arch`) and a
signal-handler test.
- Remove `SIGTRAP` handler: no longer needed now that we've found an
"undefined opcode" option on ARM64.
- Rename pp.rs to pretty_print.rs in machinst/.
- Only use empty stack-probe on non-x86. As per a comment in
rust-lang/compiler-builtins [1], LLVM only supports stack probes on
x86 and x86-64. Thus, on any other CPU architecture, we cannot refer
to `__rust_probestack`, because it does not exist.
- Rename arm64 to aarch64.
- Use `target` directive in vcode filetests.
- Run the flags verifier, but without encinfo, when using new backends.
- Clean up warning overrides.
- Fix up use of casts: use u32::from(x) and siblings when possible,
u32::try_from(x).unwrap() when not, to avoid silent truncation.
- Take immutable `Function` borrows as input; we don't actually
mutate the input IR.
- Lots of other miscellaneous cleanups.
[1] cae3e6ea23/src/probestack.rs (L39)
This patch adds the MachInst, or Machine Instruction, infrastructure.
This is the machine-independent portion of the new backend design. It
contains the implementation of the "vcode" (virtual-registerized code)
container, the top-level lowering algorithm and compilation pipeline,
and the trait definitions that the machine backends will fill in.
This backend infrastructure is included in the compilation of the
`codegen` crate, but it is not yet tied into the public APIs; that patch
will come last, after all the other pieces are filled in.
This patch contains code written by Julian Seward <jseward@acm.org> and
Benjamin Bouvier <public@benj.me>, originally developed on a side-branch
before rebasing and condensing into this patch series. See the `arm64`
branch at `https://github.com/cfallin/wasmtime` for original development
history.
Co-authored-by: Julian Seward <jseward@acm.org>
Co-authored-by: Benjamin Bouvier <public@benj.me>
