Fix fn_sig_for_fn_abi and the coroutine transform for generators

There were three issues previously:
* The self argument was pinned, despite Iterator::next taking an
  unpinned mutable reference.
* A resume argument was passed, despite Iterator::next not having one.
* The return value was CoroutineState<Item, ()> rather than Option<Item>

While these things just so happened to work with the LLVM backend,
cg_clif does much stricter checks when trying to assign a value to a
place. In addition it can't handle the mismatch between the amount of
arguments specified by the FnAbi and the FnSig.
This commit is contained in:
bjorn3 2023-11-23 20:02:45 +00:00
parent 237339fda1
commit b7bc8d5cb7
7 changed files with 129 additions and 9 deletions

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@ -100,6 +100,15 @@ const BASE_SYSROOT_SUITE: &[TestCase] = &[
TestCase::build_bin_and_run("aot.issue-72793", "example/issue-72793.rs", &[]),
TestCase::build_bin("aot.issue-59326", "example/issue-59326.rs"),
TestCase::build_bin_and_run("aot.neon", "example/neon.rs", &[]),
TestCase::custom("aot.gen_block_iterate", &|runner| {
runner.run_rustc([
"example/gen_block_iterate.rs",
"--edition",
"2024",
"-Zunstable-options",
]);
runner.run_out_command("gen_block_iterate", &[]);
}),
];
pub(crate) static RAND_REPO: GitRepo = GitRepo::github(

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@ -43,6 +43,7 @@ aot.mod_bench
aot.issue-72793
aot.issue-59326
aot.neon
aot.gen_block_iterate
testsuite.extended_sysroot
test.rust-random/rand

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@ -0,0 +1,36 @@
// Copied from https://github.com/rust-lang/rust/blob/46455dc65069387f2dc46612f13fd45452ab301a/tests/ui/coroutine/gen_block_iterate.rs
// revisions: next old
//compile-flags: --edition 2024 -Zunstable-options
//[next] compile-flags: -Ztrait-solver=next
// run-pass
#![feature(gen_blocks)]
fn foo() -> impl Iterator<Item = u32> {
gen { yield 42; for x in 3..6 { yield x } }
}
fn moved() -> impl Iterator<Item = u32> {
let mut x = "foo".to_string();
gen move {
yield 42;
if x == "foo" { return }
x.clear();
for x in 3..6 { yield x }
}
}
fn main() {
let mut iter = foo();
assert_eq!(iter.next(), Some(42));
assert_eq!(iter.next(), Some(3));
assert_eq!(iter.next(), Some(4));
assert_eq!(iter.next(), Some(5));
assert_eq!(iter.next(), None);
// `gen` blocks are fused
assert_eq!(iter.next(), None);
let mut iter = moved();
assert_eq!(iter.next(), Some(42));
assert_eq!(iter.next(), None);
}

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@ -1,4 +1,7 @@
ignore = ["y.rs"]
ignore = [
"y.rs",
"example/gen_block_iterate.rs", # uses edition 2024
]
# Matches rustfmt.toml of rustc
version = "Two"

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@ -617,6 +617,22 @@ fn replace_resume_ty_local<'tcx>(
}
}
/// Transforms the `body` of the coroutine applying the following transform:
///
/// - Remove the `resume` argument.
///
/// Ideally the async lowering would not add the `resume` argument.
///
/// The async lowering step and the type / lifetime inference / checking are
/// still using the `resume` argument for the time being. After this transform,
/// the coroutine body doesn't have the `resume` argument.
fn transform_gen_context<'tcx>(_tcx: TyCtxt<'tcx>, body: &mut Body<'tcx>) {
// This leaves the local representing the `resume` argument in place,
// but turns it into a regular local variable. This is cheaper than
// adjusting all local references in the body after removing it.
body.arg_count = 1;
}
struct LivenessInfo {
/// Which locals are live across any suspension point.
saved_locals: CoroutineSavedLocals,
@ -1337,7 +1353,15 @@ fn create_coroutine_resume_function<'tcx>(
insert_switch(body, cases, &transform, TerminatorKind::Unreachable);
make_coroutine_state_argument_indirect(tcx, body);
make_coroutine_state_argument_pinned(tcx, body);
match coroutine_kind {
// Iterator::next doesn't accept a pinned argument,
// unlike for all other coroutine kinds.
CoroutineKind::Gen(_) => {}
_ => {
make_coroutine_state_argument_pinned(tcx, body);
}
}
// Make sure we remove dead blocks to remove
// unrelated code from the drop part of the function
@ -1504,6 +1528,7 @@ impl<'tcx> MirPass<'tcx> for StateTransform {
};
let is_async_kind = matches!(body.coroutine_kind(), Some(CoroutineKind::Async(_)));
let is_gen_kind = matches!(body.coroutine_kind(), Some(CoroutineKind::Gen(_)));
let (state_adt_ref, state_args) = match body.coroutine_kind().unwrap() {
CoroutineKind::Async(_) => {
// Compute Poll<return_ty>
@ -1609,6 +1634,11 @@ impl<'tcx> MirPass<'tcx> for StateTransform {
body.arg_count = 2; // self, resume arg
body.spread_arg = None;
// Remove the context argument within generator bodies.
if is_gen_kind {
transform_gen_context(tcx, body);
}
// The original arguments to the function are no longer arguments, mark them as such.
// Otherwise they'll conflict with our new arguments, which although they don't have
// argument_index set, will get emitted as unnamed arguments.

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@ -112,7 +112,13 @@ fn fn_sig_for_fn_abi<'tcx>(
let pin_did = tcx.require_lang_item(LangItem::Pin, None);
let pin_adt_ref = tcx.adt_def(pin_did);
let pin_args = tcx.mk_args(&[env_ty.into()]);
let env_ty = Ty::new_adt(tcx, pin_adt_ref, pin_args);
let env_ty = if tcx.coroutine_is_gen(did) {
// Iterator::next doesn't accept a pinned argument,
// unlike for all other coroutine kinds.
env_ty
} else {
Ty::new_adt(tcx, pin_adt_ref, pin_args)
};
let sig = sig.skip_binder();
// The `FnSig` and the `ret_ty` here is for a coroutines main
@ -121,6 +127,8 @@ fn fn_sig_for_fn_abi<'tcx>(
// function in case this is a special coroutine backing an async construct.
let (resume_ty, ret_ty) = if tcx.coroutine_is_async(did) {
// The signature should be `Future::poll(_, &mut Context<'_>) -> Poll<Output>`
assert_eq!(sig.yield_ty, tcx.types.unit);
let poll_did = tcx.require_lang_item(LangItem::Poll, None);
let poll_adt_ref = tcx.adt_def(poll_did);
let poll_args = tcx.mk_args(&[sig.return_ty.into()]);
@ -140,7 +148,30 @@ fn fn_sig_for_fn_abi<'tcx>(
}
let context_mut_ref = Ty::new_task_context(tcx);
(context_mut_ref, ret_ty)
(Some(context_mut_ref), ret_ty)
} else if tcx.coroutine_is_gen(did) {
// The signature should be `Iterator::next(_) -> Option<Yield>`
let option_did = tcx.require_lang_item(LangItem::Option, None);
let option_adt_ref = tcx.adt_def(option_did);
let option_args = tcx.mk_args(&[sig.yield_ty.into()]);
let ret_ty = Ty::new_adt(tcx, option_adt_ref, option_args);
assert_eq!(sig.return_ty, tcx.types.unit);
// We have to replace the `ResumeTy` that is used for type and borrow checking
// with `()` which is used in codegen.
#[cfg(debug_assertions)]
{
if let ty::Adt(resume_ty_adt, _) = sig.resume_ty.kind() {
let expected_adt =
tcx.adt_def(tcx.require_lang_item(LangItem::ResumeTy, None));
assert_eq!(*resume_ty_adt, expected_adt);
} else {
panic!("expected `ResumeTy`, found `{:?}`", sig.resume_ty);
};
}
(None, ret_ty)
} else {
// The signature should be `Coroutine::resume(_, Resume) -> CoroutineState<Yield, Return>`
let state_did = tcx.require_lang_item(LangItem::CoroutineState, None);
@ -148,19 +179,28 @@ fn fn_sig_for_fn_abi<'tcx>(
let state_args = tcx.mk_args(&[sig.yield_ty.into(), sig.return_ty.into()]);
let ret_ty = Ty::new_adt(tcx, state_adt_ref, state_args);
(sig.resume_ty, ret_ty)
(Some(sig.resume_ty), ret_ty)
};
ty::Binder::bind_with_vars(
let fn_sig = if let Some(resume_ty) = resume_ty {
tcx.mk_fn_sig(
[env_ty, resume_ty],
ret_ty,
false,
hir::Unsafety::Normal,
rustc_target::spec::abi::Abi::Rust,
),
bound_vars,
)
)
} else {
// `Iterator::next` doesn't have a `resume` argument.
tcx.mk_fn_sig(
[env_ty],
ret_ty,
false,
hir::Unsafety::Normal,
rustc_target::spec::abi::Abi::Rust,
)
};
ty::Binder::bind_with_vars(fn_sig, bound_vars)
}
_ => bug!("unexpected type {:?} in Instance::fn_sig", ty),
}

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@ -39,4 +39,5 @@ ignore = [
# these are ignored by a standard cargo fmt run
"compiler/rustc_codegen_cranelift/y.rs", # running rustfmt breaks this file
"compiler/rustc_codegen_cranelift/scripts",
"compiler/rustc_codegen_cranelift/example/gen_block_iterate.rs", # uses edition 2024
]