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Infer async closure signature from old-style two-part Fn + Future bounds
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@ -424,9 +424,10 @@ impl<'a, 'tcx> FnCtxt<'a, 'tcx> {
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if let Some(trait_def_id) = trait_def_id {
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let found_kind = match closure_kind {
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hir::ClosureKind::Closure => self.tcx.fn_trait_kind_from_def_id(trait_def_id),
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hir::ClosureKind::CoroutineClosure(hir::CoroutineDesugaring::Async) => {
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self.tcx.async_fn_trait_kind_from_def_id(trait_def_id)
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}
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hir::ClosureKind::CoroutineClosure(hir::CoroutineDesugaring::Async) => self
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.tcx
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.async_fn_trait_kind_from_def_id(trait_def_id)
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.or_else(|| self.tcx.fn_trait_kind_from_def_id(trait_def_id)),
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_ => None,
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};
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@ -470,14 +471,37 @@ impl<'a, 'tcx> FnCtxt<'a, 'tcx> {
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// for closures and async closures, respectively.
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match closure_kind {
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hir::ClosureKind::Closure
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if self.tcx.fn_trait_kind_from_def_id(trait_def_id).is_some() => {}
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if self.tcx.fn_trait_kind_from_def_id(trait_def_id).is_some() =>
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{
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self.extract_sig_from_projection(cause_span, projection)
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}
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hir::ClosureKind::CoroutineClosure(hir::CoroutineDesugaring::Async)
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if self.tcx.async_fn_trait_kind_from_def_id(trait_def_id).is_some() => {}
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_ => return None,
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if self.tcx.async_fn_trait_kind_from_def_id(trait_def_id).is_some() =>
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{
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self.extract_sig_from_projection(cause_span, projection)
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}
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// It's possible we've passed the closure to a (somewhat out-of-fashion)
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// `F: FnOnce() -> Fut, Fut: Future<Output = T>` style bound. Let's still
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// guide inference here, since it's beneficial for the user.
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hir::ClosureKind::CoroutineClosure(hir::CoroutineDesugaring::Async)
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if self.tcx.fn_trait_kind_from_def_id(trait_def_id).is_some() =>
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{
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self.extract_sig_from_projection_and_future_bound(cause_span, projection)
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}
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_ => None,
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}
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}
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/// Given an `FnOnce::Output` or `AsyncFn::Output` projection, extract the args
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/// and return type to infer a [`ty::PolyFnSig`] for the closure.
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fn extract_sig_from_projection(
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&self,
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cause_span: Option<Span>,
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projection: ty::PolyProjectionPredicate<'tcx>,
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) -> Option<ExpectedSig<'tcx>> {
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let projection = self.resolve_vars_if_possible(projection);
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let arg_param_ty = projection.skip_binder().projection_term.args.type_at(1);
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let arg_param_ty = self.resolve_vars_if_possible(arg_param_ty);
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debug!(?arg_param_ty);
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let ty::Tuple(input_tys) = *arg_param_ty.kind() else {
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@ -486,7 +510,6 @@ impl<'a, 'tcx> FnCtxt<'a, 'tcx> {
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// Since this is a return parameter type it is safe to unwrap.
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let ret_param_ty = projection.skip_binder().term.expect_type();
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let ret_param_ty = self.resolve_vars_if_possible(ret_param_ty);
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debug!(?ret_param_ty);
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let sig = projection.rebind(self.tcx.mk_fn_sig(
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@ -500,6 +523,69 @@ impl<'a, 'tcx> FnCtxt<'a, 'tcx> {
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Some(ExpectedSig { cause_span, sig })
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}
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/// When an async closure is passed to a function that has a "two-part" `Fn`
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/// and `Future` trait bound, like:
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///
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/// ```rust
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/// use std::future::Future;
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///
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/// fn not_exactly_an_async_closure<F, Fut>(_f: F)
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/// where
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/// F: FnOnce(String, u32) -> Fut,
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/// Fut: Future<Output = i32>,
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/// {}
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/// ```
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///
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/// The we want to be able to extract the signature to guide inference in the async
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/// closure. We will have two projection predicates registered in this case. First,
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/// we identify the `FnOnce<Args, Output = ?Fut>` bound, and if the output type is
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/// an inference variable `?Fut`, we check if that is bounded by a `Future<Output = Ty>`
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/// projection.
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fn extract_sig_from_projection_and_future_bound(
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&self,
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cause_span: Option<Span>,
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projection: ty::PolyProjectionPredicate<'tcx>,
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) -> Option<ExpectedSig<'tcx>> {
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let projection = self.resolve_vars_if_possible(projection);
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let arg_param_ty = projection.skip_binder().projection_term.args.type_at(1);
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debug!(?arg_param_ty);
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let ty::Tuple(input_tys) = *arg_param_ty.kind() else {
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return None;
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};
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// If the return type is a type variable, look for bounds on it.
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// We could theoretically support other kinds of return types here,
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// but none of them would be useful, since async closures return
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// concrete anonymous future types, and their futures are not coerced
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// into any other type within the body of the async closure.
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let ty::Infer(ty::TyVar(return_vid)) = *projection.skip_binder().term.expect_type().kind()
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else {
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return None;
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};
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// FIXME: We may want to elaborate here, though I assume this will be exceedingly rare.
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for bound in self.obligations_for_self_ty(return_vid) {
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if let Some(ret_projection) = bound.predicate.as_projection_clause()
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&& let Some(ret_projection) = ret_projection.no_bound_vars()
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&& self.tcx.is_lang_item(ret_projection.def_id(), LangItem::FutureOutput)
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{
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let sig = projection.rebind(self.tcx.mk_fn_sig(
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input_tys,
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ret_projection.term.expect_type(),
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false,
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hir::Safety::Safe,
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Abi::Rust,
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));
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return Some(ExpectedSig { cause_span, sig });
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}
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}
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None
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}
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fn sig_of_closure(
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&self,
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expr_def_id: LocalDefId,
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@ -0,0 +1,27 @@
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//@ edition: 2021
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//@ check-pass
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//@ revisions: current next
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//@ ignore-compare-mode-next-solver (explicit revisions)
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//@[next] compile-flags: -Znext-solver
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#![feature(async_closure)]
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use std::future::Future;
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use std::any::Any;
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struct Struct;
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impl Struct {
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fn method(&self) {}
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}
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fn fake_async_closure<F, Fut>(_: F)
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where
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F: Fn(Struct) -> Fut,
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Fut: Future<Output = ()>,
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{}
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fn main() {
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fake_async_closure(async |s| {
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s.method();
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})
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}
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