* x64: expand FloatCC enum in ISLE
* isle: regenerate manifests
* isle: generate all enum fields in `clif.isle`
This expands the `gen_isle` function to write all of the immediate
`enum`s out explicitly in `clif.isle`. Non-`enum` immediates are still
`extern primitive`.
* Only compile `enum_values` with `rebuild-isle` feature
* Only compile `gen_enum_isle` with `rebuild-isle` feature
This register is not initialized, but we protect against its being used
by never allowing an iflags/fflags-typed value to be used with
`put_value_in_regs`. All `iflags`/`fflags` usages should be handled by
pattern-matching: e.g., `trapif` explicitly matches an `iadd_ifcout`
input.
Eventually (#3249) we need to simplify this by removing
iflags/fflags-tyepd values and using bool flags instead,
pattern-matching to get the same efficient lowerings as today. For now,
this allows the ISLE assertions to pass.
This documentation provides details for all of the ISLE language
features, and detailed rationale for why many of them are designed in
the way that they are. It is hopefully both a reasonable tutorial and
reference for someone looking to understand the DSL.
Note that this documentation is separate from and orthogonal to the
work to document the Cranelift bindings and integration work that
@fitzgen has covered well in #3556. This document can link to that one
and vice-versa once they are both in-tree.
This starts moving over some sign/zero-extend helpers also present in
lowering in Rust. Otherwise this is a relatively unsurprising transition
with the various cases of the instructions mapping well to ISLE
utilities.
This commit migrates the `imul` clif instruction lowering for AArch64 to
ISLE. This is a relatively complicated instruction with lots of special
cases due to the simd proposal for wasm. Like x64, however, the special
casing lends itself to ISLE quite well and the lowerings here in theory
are pretty straightforward.
The main gotcha of this commit is that this encounters a unique
situation which hasn't been encountered yet with other lowerings, namely
the `Umlal32` instruction used in the implementation of `i64x2.mul` is
unique in the `VecRRRLongOp` class of instructions in that it both reads
and writes the destination register (`use_mod` instead of simply
`use_def`). This meant that I needed to add another helper in ISLe for
creating a `vec_rrrr_long` instruction (despite this enum variant not
actually existing) which implicitly moves the first operand into the
destination before issuing the actual `VecRRRLong` instruction.
Following up on WebAssembly/wasi-sdk#210, this makes the trap message
for `unreachable` traps more descriptive of what actually caused the
trap, so that it doesn't sound like maybe Wasmtime itself executed a
`unreachable!()` macro in Rust.
Before:
```
wasm trap: unreachable
wasm backtrace:
[...]
```
After:
```
wasm trap: wasm `unreachable` instruction executed
wasm backtrace:
[...]
```
This takes an IntCC for the comparison to do, though panics for Signed*
since memcmp is an unsigned comparison. Currently it's most useful for
(Not)Equal, but once big-endian loads are implemented it'll be able to
support the other Unsigned* comparisons nicely on more than just bytes.
