So that we get a reminder to check CodeBlock::has_dropped_bytes().
Internally, asm.compile() already checks it, and this patch just
propagates it out to the caller with a `#[must_use]`.
Code GC logic moved out one level in entry_stub_hit(), so the body
can freely use `?`
It's an estimator for application size and could be used as a
compilation heuristic later.
Co-authored-by: Maxime Chevalier-Boisvert <maxime.chevalierboisvert@shopify.com>
Co-authored-by: Takashi Kokubun <takashikkbn@gmail.com>
Previously, the version-controlled `cruby_bindings.inc.rs` file
contained the build-time artifact `id.h`, which nobu mentioned hinders
the goal of having fewer magic numbers in the repository.
Lookup the IDs YJIT needs on boot. It costs cycles, but it's fine since
YJIT only uses a handful of IDs at the moment. No perceptible
degradation to boot time found in my testing.
Previously, for block argument callsites with some specific argument
count and callee local variable count combinations, YJIT ended up
writing over arguments that are supposed to be collected into a rest
parameter array unmodified.
Detect when clobbering would happen and avoid it. Also, place the block
handler after the stack overflow check, since it writes to new stack
space.
Reported-by: Takashi Kokubun <takashikkbn@gmail.com>
* Port call threshold logic from Rust to C for performance
* Prefix global/field names with yjit_
* Fix linker error
* Fix preprocessor condition for rb_yjit_threshold_hit
* Fix third linker issue
* Exclude yjit_calls_at_interv from RJIT bindgen
---------
Co-authored-by: Takashi Kokubun <takashikkbn@gmail.com>
Given `SHAPE_MAX_NUM_IVS 80`, we transition to TOO_COMPLEX
way before we could overflow a 8bit counter.
This reduce the size of `rb_shape_t` from 32B to 24B.
If we decide to raise `SHAPE_MAX_NUM_IVS` we can always increase
that type again.
Previously, at the end of `leave` we did
`*caller_cfp->sp = return_value`, like the interpreter.
With future changes that leaves the SP field uninitialized for C frames,
this will become problematic. For cases like returning from
`rb_funcall()`, the return value was written above the stack and
never read anyway (callers use the copy in the return register).
Leave the return value in a register at the end of `leave` and have the
code at `cfp->jit_return` decide what to do with it. This avoids the
unnecessary memory write mentioned above. For JIT-to-JIT returns, it goes
through `asm.stack_push()` and benefits from register allocation for
stack temporaries.
Mostly flat on benchmarks, with maybe some marginal speed improvements.
Co-authored-by: Takashi Kokubun <takashikkbn@gmail.com>
* YJIT: Avoid creating a vector in get_temp_regs()
Co-authored-by: Alan Wu <alansi.xingwu@shopify.com>
* Remove unused import
---------
Co-authored-by: Alan Wu <alansi.xingwu@shopify.com>
Co-authored-by: Alan Wu <XrXr@users.noreply.github.com>
Since the compile-time iseq used in the guard was not marked and updated
during compaction, a runtime value reusing the address could falsely pass
the guard.
Co-authored-by: Takashi Kokubun <takashikkbn@gmail.com>
* YJIT: Skip Insn::Comment and format!
if disasm is disabled
Co-authored-by: Alan Wu <alansi.xingwu@shopify.com>
* YJIT: Get rid of asm.comment
---------
Co-authored-by: Alan Wu <alansi.xingwu@shopify.com>
Previously, TestStack#test_machine_stack_size failed pretty consistently
on ARM64 macOS, with Rust code and part of the interpreter used for
per-instruction fallback (rb_vm_invokeblock() and friends) touching the
stack guard page and crashing with SEGV. I've also seen the same test
fail on x64 Linux, though with a different symptom.
