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Rollup merge of rust-lang#63093 - Aaron1011:fix/existential-closure, …
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…r=cramertj

Properly check the defining scope of existential types

Fixes rust-lang#52632

Existential types (soon to be 'impl trait' aliases) can either be
delcared at a top-level crate/module scope, or within another item such
as an fn. Previously, we were handling the second case incorrectly when
recursively searching for defining usages - we would check children of
the item, but not the item itself. This lead to us missing closures
that consituted a defining use of the existential type, as their opaque
type instantiations are stored in the TypeckTables of their parent
function.

This commit ensures that we explicitly visit the defining item itself,
not just its children.
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Centril authored Jul 30, 2019
2 parents 4413068 + 3e98c3a commit f3750e3
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Showing 4 changed files with 61 additions and 9 deletions.
15 changes: 9 additions & 6 deletions src/librustc/infer/opaque_types/mod.rs
Original file line number Diff line number Diff line change
Expand Up @@ -1189,11 +1189,7 @@ pub fn may_define_existential_type(
opaque_hir_id: hir::HirId,
) -> bool {
let mut hir_id = tcx.hir().as_local_hir_id(def_id).unwrap();
trace!(
"may_define_existential_type(def={:?}, opaque_node={:?})",
tcx.hir().get(hir_id),
tcx.hir().get(opaque_hir_id)
);


// Named existential types can be defined by any siblings or children of siblings.
let scope = tcx.hir().get_defining_scope(opaque_hir_id).expect("could not get defining scope");
Expand All @@ -1202,5 +1198,12 @@ pub fn may_define_existential_type(
hir_id = tcx.hir().get_parent_item(hir_id);
}
// Syntactically, we are allowed to define the concrete type if:
hir_id == scope
let res = hir_id == scope;
trace!(
"may_define_existential_type(def={:?}, opaque_node={:?}) = {}",
tcx.hir().get(hir_id),
tcx.hir().get(opaque_hir_id),
res
);
res
}
23 changes: 20 additions & 3 deletions src/librustc_typeck/collect.rs
Original file line number Diff line number Diff line change
Expand Up @@ -1664,6 +1664,7 @@ fn find_existential_constraints(tcx: TyCtxt<'_>, def_id: DefId) -> Ty<'_> {
intravisit::NestedVisitorMap::All(&self.tcx.hir())
}
fn visit_item(&mut self, it: &'tcx Item) {
debug!("find_existential_constraints: visiting {:?}", it);
let def_id = self.tcx.hir().local_def_id(it.hir_id);
// The existential type itself or its children are not within its reveal scope.
if def_id != self.def_id {
Expand All @@ -1672,6 +1673,7 @@ fn find_existential_constraints(tcx: TyCtxt<'_>, def_id: DefId) -> Ty<'_> {
}
}
fn visit_impl_item(&mut self, it: &'tcx ImplItem) {
debug!("find_existential_constraints: visiting {:?}", it);
let def_id = self.tcx.hir().local_def_id(it.hir_id);
// The existential type itself or its children are not within its reveal scope.
if def_id != self.def_id {
Expand All @@ -1680,6 +1682,7 @@ fn find_existential_constraints(tcx: TyCtxt<'_>, def_id: DefId) -> Ty<'_> {
}
}
fn visit_trait_item(&mut self, it: &'tcx TraitItem) {
debug!("find_existential_constraints: visiting {:?}", it);
let def_id = self.tcx.hir().local_def_id(it.hir_id);
self.check(def_id);
intravisit::walk_trait_item(self, it);
Expand All @@ -1703,9 +1706,23 @@ fn find_existential_constraints(tcx: TyCtxt<'_>, def_id: DefId) -> Ty<'_> {
} else {
debug!("find_existential_constraints: scope={:?}", tcx.hir().get(scope));
match tcx.hir().get(scope) {
Node::Item(ref it) => intravisit::walk_item(&mut locator, it),
Node::ImplItem(ref it) => intravisit::walk_impl_item(&mut locator, it),
Node::TraitItem(ref it) => intravisit::walk_trait_item(&mut locator, it),
// We explicitly call `visit_*` methods, instead of using `intravisit::walk_*` methods
// This allows our visitor to process the defining item itself, causing
// it to pick up any 'sibling' defining uses.
//
// For example, this code:
// ```
// fn foo() {
// existential type Blah: Debug;
// let my_closure = || -> Blah { true };
// }
// ```
//
// requires us to explicitly process `foo()` in order
// to notice the defining usage of `Blah`.
Node::Item(ref it) => locator.visit_item(it),
Node::ImplItem(ref it) => locator.visit_impl_item(it),
Node::TraitItem(ref it) => locator.visit_trait_item(it),
other => bug!(
"{:?} is not a valid scope for an existential type item",
other
Expand Down
12 changes: 12 additions & 0 deletions src/test/ui/existential-type/issue-52843-closure-constrain.rs
Original file line number Diff line number Diff line change
@@ -0,0 +1,12 @@
// Checks to ensure that we properly detect when a closure constrains an existential type
#![feature(existential_type)]

use std::fmt::Debug;

fn main() {
existential type Existential: Debug;
fn _unused() -> Existential { String::new() }
//~^ ERROR: concrete type differs from previous defining existential type use
let null = || -> Existential { 0 };
println!("{:?}", null());
}
20 changes: 20 additions & 0 deletions src/test/ui/existential-type/issue-52843-closure-constrain.stderr
Original file line number Diff line number Diff line change
@@ -0,0 +1,20 @@
error: concrete type differs from previous defining existential type use
--> $DIR/issue-52843-closure-constrain.rs:8:5
|
LL | fn _unused() -> Existential { String::new() }
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ expected `i32`, got `std::string::String`
|
note: previous use here
--> $DIR/issue-52843-closure-constrain.rs:6:1
|
LL | / fn main() {
LL | | existential type Existential: Debug;
LL | | fn _unused() -> Existential { String::new() }
LL | |
LL | | let null = || -> Existential { 0 };
LL | | println!("{:?}", null());
LL | | }
| |_^

error: aborting due to previous error

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