Lower stack_addr, udiv, sdiv, urem, srem, umulhi, and smulhi in ISLE.
For udiv, sdiv, urem, and srem I opted to move the original lowering into an extern constructor, as the interactions with rax and rdx for the div instruction didn't seem meaningful to implement in ISLE. However, I'm happy to revisit this choice and move more of the embedding into ISLE.
The sse_cmp_op rule had cases that would produce SseOperand values that aren't legal to use with MInst.XmmRmR, and was only used in vector_all_ones when constructing an XmmRmR value. Additionally, vector_all_ones always called sse_cmp_op with the same type, so the other cases were redundant.
The solution in this PR is to remove sse_cmp_op entirely and inline a call to x64_pcmpeqd directly in vector_all_ones, and remove the unused argument from vector_all_ones.
* Add a test for iadd_pairwise with swiden input
* Implement iadd_pairwise for swiden_{low,high} input
* Add a test case for iadd_pairwise with uwiden input
* Implement iadd_pairwise with uwiden
* Add a test for the existing behavior of fcvt_from_unit
* Migrate the I8, I16, I32 cases of fcvt_from_uint
* Implement the I64 case of fcvt_from_uint
* Add a test for the existing behavior of fcvt_from_uint.f64x2
* Migrate fcvt_from_uint.f64x2 to ISLE
* Lower the last case of `fcvt_from_uint`
* Add a test for `fcvt_from_uint`
* Finish lowering fcmp_from_uint
* Format
* Cranelift: Add instructions for getting the current stack/frame pointers and return address
This is the initial part of https://github.com/bytecodealliance/wasmtime/issues/4535
* x64: Remove `Amode::RbpOffset` and use `Amode::ImmReg` instead
We just special case getting operands from `Amode`s now.
* Fix s390x `get_return_address`; require `preserve_frame_pointers=true`
* Assert that `Amode::ImmRegRegShift` doesn't use rbp/rsp
* Handle non-allocatable registers in Amode::with_allocs
* Use "stack" instead of "r15" on s390x
* r14 is an allocatable register on s390x, so it shouldn't be used with `MovPReg`
* Cranellift: remove Baldrdash support and related features.
As noted in Mozilla's bugzilla bug 1781425 [1], the SpiderMonkey team
has recently determined that their current form of integration with
Cranelift is too hard to maintain, and they have chosen to remove it
from their codebase. If and when they decide to build updated support
for Cranelift, they will adopt different approaches to several details
of the integration.
In the meantime, after discussion with the SpiderMonkey folks, they
agree that it makes sense to remove the bits of Cranelift that exist
to support the integration ("Baldrdash"), as they will not need
them. Many of these bits are difficult-to-maintain special cases that
are not actually tested in Cranelift proper: for example, the
Baldrdash integration required Cranelift to emit function bodies
without prologues/epilogues, and instead communicate very precise
information about the expected frame size and layout, then stitched
together something post-facto. This was brittle and caused a lot of
incidental complexity ("fallthrough returns", the resulting special
logic in block-ordering); this is just one example. As another
example, one particular Baldrdash ABI variant processed stack args in
reverse order, so our ABI code had to support both traversal
orders. We had a number of other Baldrdash-specific settings as well
that did various special things.
This PR removes Baldrdash ABI support, the `fallthrough_return`
instruction, and pulls some threads to remove now-unused bits as a
result of those two, with the understanding that the SpiderMonkey folks
will build new functionality as needed in the future and we can perhaps
find cleaner abstractions to make it all work.
[1] https://bugzilla.mozilla.org/show_bug.cgi?id=1781425
* Review feedback.
* Fix (?) DWARF debug tests: add `--disable-cache` to wasmtime invocations.
The debugger tests invoke `wasmtime` from within each test case under
the control of a debugger (gdb or lldb). Some of these tests started to
inexplicably fail in CI with unrelated changes, and the failures were
only inconsistently reproducible locally. It seems to be cache related:
if we disable cached compilation on the nested `wasmtime` invocations,
the tests consistently pass.
* Review feedback.
* Support shadowing in isle
* Re-run the isle build.rs if the examples change
* Print error messages when isle tests fail
* Move run tests
* Refactor `let` uses that don't need to introduce unique names
* cranelift: Reorganize test suite
Group some SIMD operations by instruction.
* cranelift: Deduplicate some shift tests
Also, new tests with the mod behaviour
* aarch64: Lower shifts with mod behaviour
* x64: Lower shifts with mod behaviour
* wasmtime: Don't mask SIMD shifts
* x64: Add VEX Instruction Encoder
This uses a similar builder pattern to the EVEX Encoder.
Does not yet support memory accesses.
* x64: Add FMA Flag
* x64: Implement SIMD `fma`
* x64: Use 4 register Vex Inst
* x64: Reorder VEX pretty print args
* x64: port `atomic_rmw` to ISLE
This change ports `atomic_rmw` to ISLE for the x64 backend. It does not
change the lowering in any way, though it seems possible that the fixed
regs need not be as fixed and that there are opportunities for single
instruction lowerings. It does rename `inst_common::AtomicRmwOp` to
`MachAtomicRmwOp` to disambiguate with the IR enum with the same name.
* x64: remove remaining hardcoded register constraints for `atomic_rmw`
* x64: use `SyntheticAmode` in `AtomicRmwSeq`
* review: add missing reg collector for amode
* review: collect memory registers in the 'late' phase
- Handle call instructions' clobbers with the clobbers API, using RA2's
clobbers bitmask (bytecodealliance/regalloc2#58) rather than clobbers
list;
- Pull in changes from bytecodealliance/regalloc2#59 for much more sane
edge-case behavior w.r.t. liverange splitting.
This commit fixes a bug in the previous codegen for the `select`
instruction when the operations of the `select` were of the `v128` type.
Previously teh `XmmCmove` instruction only stored an `OperandSize` of 32
or 64 for a 64 or 32-bit move, but this was also used for these 128-bit
types which meant that when used the wrong move instruction was
generated. The fix applied here is to store the whole `Type` being moved
so the 128-bit variant can be selected as well.
The current lowering helper for `cmpxchg` returns the literal RealReg
`rax` as its result. However, this breaks a number of invariants, and
eventually causes a regalloc panic if used as a blockparam arg (pinned
vregs cannot be used in this way).
In general we have to return regular vregs, not a RealReg, as results of
instructions during lowering. However #4223 added a helper for
`x64_cmpxchg` that returns a literal `rax`.
Fortunately we can do the right thing here by just giving a fresh vreg
to the instruction; the regalloc constraints mean that this vreg is
constrained to `rax` at the instruction (at its def/late point), so the
generator of the instruction need not worry about `rax` here.
If an address expression is given to `to_amode` that is completely
constant (no registers at all), then it will produce an `Amode` that has
the resulting constant as an offset, and `(invalid_reg)` as the base.
This is a side-effect of the way we build up the amode step-by-step --
we're waiting to see a register and plug it into the base field. If we
never get a reg though, we need to generate a constant zero into a
register and use that as the base. This PR adds a `finalize_amode`
helper to do just that.
Fixes#4234.
* Allow emitting u64 constants into constant pool.
* Use constant pool for constants on x64 that do not fit in a simm32 and are needed as a RegMem or RegMemImm.
* Fix rip-relative addressing bug in pinsrd emission.
This PR refactors the x64 backend address-mode lowering to use an
incremental-build approach, where it considers each node in a tree of
`iadd`s that feed into a load/store address and, at each step, builds
the best possible `Amode`. It will combine an arbitrary number of
constant offsets (an extension beyond the current rules), and can
capture a left-shifted (scaled) index in any position of the tree
(another extension).
This doesn't have any measurable performance improvement on our Wasm
benchmarks in Sightglass, unfortunately, because the IR lowered from
wasm32 will do address computation in 32 bits and then `uextend` it to
add to the 64-bit heap base. We can't quite lift the 32-bit adds to 64
bits because this loses the wraparound semantics.
(We could label adds as "expected not to overflow", and allow *those* to
be lifted to 64 bit operations; wasm32 heap address computation should
fit this. This is `add nuw` (no unsigned wrap) in LLVM IR terms. That's
likely my next step.)
Nevertheless, (i) this generalizes the cases we can handle, which should
be a good thing, all other things being equal (and in this case, no
compile time impact was measured); and (ii) might benefit non-Wasm
frontends.
This PR removes "argument polarity": the feature of ISLE extractors that lets them take
inputs aside from the value to be matched.
Cases that need this expressivity have been subsumed by #4072 with if-let clauses;
we can now finally remove this misfeature of the language, which has caused significant
confusion and has always felt like a bit of a hack.
This PR (i) removes the feature from the ISLE compiler; (ii) removes it from the reference
documentation; and (iii) refactors away all uses of the feature in our three existing
backends written in ISLE.
x64 backend: add lowerings with load-op-store fusion.
These lowerings use the `OP [mem], reg` forms (or in AT&T syntax, `OP
%reg, (mem)`) -- i.e., x86 instructions that load from memory, perform
an ALU operation, and store the result, all in one instruction. Using
these instruction forms, we can merge three CLIF ops together: a load,
an arithmetic operation, and a store.
This PR switches Cranelift over to the new register allocator, regalloc2.
See [this document](https://gist.github.com/cfallin/08553421a91f150254fe878f67301801)
for a summary of the design changes. This switchover has implications for
core VCode/MachInst types and the lowering pass.
Overall, this change brings improvements to both compile time and speed of
generated code (runtime), as reported in #3942:
```
Benchmark Compilation (wallclock) Execution (wallclock)
blake3-scalar 25% faster 28% faster
blake3-simd no diff no diff
meshoptimizer 19% faster 17% faster
pulldown-cmark 17% faster no diff
bz2 15% faster no diff
SpiderMonkey, 21% faster 2% faster
fib(30)
clang.wasm 42% faster N/A
```
Issue #3963 identified a miscompilation with select in which the second
in the pair of `CMOV`s (one pair per `i128` register) used the wrong
flag. This change fixes the error in the x64 ISLE helper function
emitting these `CMOV` instructions.
This change moves the majority of the lowerings for CLIF's `load`
instruction over to ISLE. To do so, it also migrates the previous
mechanism for creating an `Amode` (`lower_to_amode`) to several ISLE
rules (see `to_amode`).
* x64: port scalar `fcmp` to ISLE
Implement the CLIF lowering for the `fcmp` to ISLE. This adds a new
type-matcher, `ty_scalar_float`, for detecting uses of `F32` and `F64`.
* isle: rename `vec128` to `ty_vec12`
This refactoring changes the name of the `vec128` matcher function to
follow the `ty_*` convention of the other type matchers. It also makes
the helper an inline function call.
* x64: port vector `fcmp` to ISLE
