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Auto merge of rust-lang#114076 - matthiaskrgr:rollup-cpqq1n9, r=matth…
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…iaskrgr

Rollup of 5 pull requests

Successful merges:

 - rust-lang#112995 (Check for `<&NotClone as Clone>::clone()` calls and suggest to add Clone trait appropriately)
 - rust-lang#113578 (Don't say that a type is uncallable if its fn signature has errors in it)
 - rust-lang#113661 (Double check that hidden types match the expected hidden type)
 - rust-lang#114044 (factor out more stable impls)
 - rust-lang#114062 (CI: split nested GHA groups instead of panicking)

r? `@ghost`
`@rustbot` modify labels: rollup
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@bors
bors committed Jul 25, 2023
2 parents 864bdf7 + c80a9fa commit 0dd5730
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Showing 16 changed files with 852 additions and 87 deletions.
4 changes: 2 additions & 2 deletions compiler/rustc_borrowck/src/region_infer/opaque_types.rs
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Original file line number Diff line number Diff line change
Expand Up @@ -339,8 +339,8 @@ fn check_opaque_type_well_formed<'tcx>(
// version.
let errors = ocx.select_all_or_error();

// This is still required for many(half of the tests in ui/type-alias-impl-trait)
// tests to pass
// This is fishy, but we check it again in `check_opaque_meets_bounds`.
// Remove once we can prepopulate with known hidden types.
let _ = infcx.take_opaque_types();

if errors.is_empty() {
Expand Down
11 changes: 8 additions & 3 deletions compiler/rustc_const_eval/src/util/compare_types.rs
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Original file line number Diff line number Diff line change
Expand Up @@ -56,8 +56,13 @@ pub fn is_subtype<'tcx>(
// With `Reveal::All`, opaque types get normalized away, with `Reveal::UserFacing`
// we would get unification errors because we're unable to look into opaque types,
// even if they're constrained in our current function.
//
// It seems very unlikely that this hides any bugs.
let _ = infcx.take_opaque_types();
for (key, ty) in infcx.take_opaque_types() {
span_bug!(
ty.hidden_type.span,
"{}, {}",
tcx.type_of(key.def_id).instantiate(tcx, key.args),
ty.hidden_type.ty
);
}
errors.is_empty()
}
179 changes: 175 additions & 4 deletions compiler/rustc_hir_analysis/src/check/check.rs
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Original file line number Diff line number Diff line change
Expand Up @@ -19,11 +19,13 @@ use rustc_lint_defs::builtin::REPR_TRANSPARENT_EXTERNAL_PRIVATE_FIELDS;
use rustc_middle::hir::nested_filter;
use rustc_middle::middle::stability::EvalResult;
use rustc_middle::traits::DefiningAnchor;
use rustc_middle::ty::fold::BottomUpFolder;
use rustc_middle::ty::layout::{LayoutError, MAX_SIMD_LANES};
use rustc_middle::ty::util::{Discr, IntTypeExt};
use rustc_middle::ty::GenericArgKind;
use rustc_middle::ty::{
self, AdtDef, ParamEnv, Ty, TyCtxt, TypeSuperVisitable, TypeVisitable, TypeVisitableExt,
self, AdtDef, ParamEnv, RegionKind, Ty, TyCtxt, TypeSuperVisitable, TypeVisitable,
TypeVisitableExt,
};
use rustc_session::lint::builtin::{UNINHABITED_STATIC, UNSUPPORTED_CALLING_CONVENTIONS};
use rustc_span::symbol::sym;
Expand All @@ -34,6 +36,7 @@ use rustc_trait_selection::traits::error_reporting::on_unimplemented::OnUnimplem
use rustc_trait_selection::traits::error_reporting::TypeErrCtxtExt as _;
use rustc_trait_selection::traits::outlives_bounds::InferCtxtExt as _;
use rustc_trait_selection::traits::{self, ObligationCtxt, TraitEngine, TraitEngineExt as _};
use rustc_type_ir::fold::TypeFoldable;

use std::ops::ControlFlow;

Expand Down Expand Up @@ -437,7 +440,7 @@ fn check_opaque_meets_bounds<'tcx>(
// hidden type is well formed even without those bounds.
let predicate =
ty::Binder::dummy(ty::PredicateKind::Clause(ty::ClauseKind::WellFormed(hidden_ty.into())));
ocx.register_obligation(Obligation::new(tcx, misc_cause, param_env, predicate));
ocx.register_obligation(Obligation::new(tcx, misc_cause.clone(), param_env, predicate));

// Check that all obligations are satisfied by the implementation's
// version.
Expand All @@ -464,11 +467,179 @@ fn check_opaque_meets_bounds<'tcx>(
ocx.resolve_regions_and_report_errors(defining_use_anchor, &outlives_env)?;
}
}
// Clean up after ourselves
let _ = infcx.take_opaque_types();
// Check that any hidden types found during wf checking match the hidden types that `type_of` sees.
for (key, mut ty) in infcx.take_opaque_types() {
ty.hidden_type.ty = infcx.resolve_vars_if_possible(ty.hidden_type.ty);
sanity_check_found_hidden_type(tcx, key, ty.hidden_type, defining_use_anchor, origin)?;
}
Ok(())
}

fn sanity_check_found_hidden_type<'tcx>(
tcx: TyCtxt<'tcx>,
key: ty::OpaqueTypeKey<'tcx>,
mut ty: ty::OpaqueHiddenType<'tcx>,
defining_use_anchor: LocalDefId,
origin: &hir::OpaqueTyOrigin,
) -> Result<(), ErrorGuaranteed> {
if ty.ty.is_ty_var() {
// Nothing was actually constrained.
return Ok(());
}
if let ty::Alias(ty::Opaque, alias) = ty.ty.kind() {
if alias.def_id == key.def_id.to_def_id() && alias.args == key.args {
// Nothing was actually constrained, this is an opaque usage that was
// only discovered to be opaque after inference vars resolved.
return Ok(());
}
}
// Closures frequently end up containing erased lifetimes in their final representation.
// These correspond to lifetime variables that never got resolved, so we patch this up here.
ty.ty = ty.ty.fold_with(&mut BottomUpFolder {
tcx,
ty_op: |t| t,
ct_op: |c| c,
lt_op: |l| match l.kind() {
RegionKind::ReVar(_) => tcx.lifetimes.re_erased,
_ => l,
},
});
// Get the hidden type.
let mut hidden_ty = tcx.type_of(key.def_id).instantiate(tcx, key.args);
if let hir::OpaqueTyOrigin::FnReturn(..) | hir::OpaqueTyOrigin::AsyncFn(..) = origin {
if hidden_ty != ty.ty {
hidden_ty = find_and_apply_rpit_args(
tcx,
hidden_ty,
defining_use_anchor.to_def_id(),
key.def_id.to_def_id(),
)?;
}
}

// If the hidden types differ, emit a type mismatch diagnostic.
if hidden_ty == ty.ty {
Ok(())
} else {
let span = tcx.def_span(key.def_id);
let other = ty::OpaqueHiddenType { ty: hidden_ty, span };
Err(ty.report_mismatch(&other, key.def_id, tcx).emit())
}
}

/// In case it is in a nested opaque type, find that opaque type's
/// usage in the function signature and use the generic arguments from the usage site.
/// We need to do because RPITs ignore the lifetimes of the function,
/// as they have their own copies of all the lifetimes they capture.
/// So the only way to get the lifetimes represented in terms of the function,
/// is to look how they are used in the function signature (or do some other fancy
/// recording of this mapping at ast -> hir lowering time).
///
/// As an example:
/// ```text
/// trait Id {
/// type Assoc;
/// }
/// impl<'a> Id for &'a () {
/// type Assoc = &'a ();
/// }
/// fn func<'a>(x: &'a ()) -> impl Id<Assoc = impl Sized + 'a> { x }
/// // desugared to
/// fn func<'a>(x: &'a () -> Outer<'a> where <Outer<'a> as Id>::Assoc = Inner<'a> {
/// // Note that in contrast to other nested items, RPIT type aliases can
/// // access their parents' generics.
///
/// // hidden type is `&'aDupOuter ()`
/// // During wfcheck the hidden type of `Inner<'aDupOuter>` is `&'a ()`, but
/// // `typeof(Inner<'aDupOuter>) = &'aDupOuter ()`.
/// // So we walk the signature of `func` to find the use of `Inner<'a>`
/// // and then use that to replace the lifetimes in the hidden type, obtaining
/// // `&'a ()`.
/// type Outer<'aDupOuter> = impl Id<Assoc = Inner<'aDupOuter>>;
///
/// // hidden type is `&'aDupInner ()`
/// type Inner<'aDupInner> = impl Sized + 'aDupInner;
///
/// x
/// }
/// ```
fn find_and_apply_rpit_args<'tcx>(
tcx: TyCtxt<'tcx>,
mut hidden_ty: Ty<'tcx>,
function: DefId,
opaque: DefId,
) -> Result<Ty<'tcx>, ErrorGuaranteed> {
// Find use of the RPIT in the function signature and thus find the right args to
// convert it into the parameter space of the function signature. This is needed,
// because that's what `type_of` returns, against which we compare later.
let ret = tcx.fn_sig(function).instantiate_identity().output();
struct Visitor<'tcx> {
tcx: TyCtxt<'tcx>,
opaque: DefId,
function: DefId,
seen: FxHashSet<DefId>,
}
impl<'tcx> ty::TypeVisitor<TyCtxt<'tcx>> for Visitor<'tcx> {
type BreakTy = GenericArgsRef<'tcx>;

#[instrument(level = "trace", skip(self), ret)]
fn visit_ty(&mut self, t: Ty<'tcx>) -> ControlFlow<Self::BreakTy> {
trace!("{:#?}", t.kind());
match t.kind() {
ty::Alias(ty::Opaque, alias) => {
trace!(?alias.def_id);
if alias.def_id == self.opaque {
return ControlFlow::Break(alias.args);
} else if self.seen.insert(alias.def_id) {
for clause in self
.tcx
.explicit_item_bounds(alias.def_id)
.iter_instantiated_copied(self.tcx, alias.args)
{
trace!(?clause);
clause.visit_with(self)?;
}
}
}
ty::Alias(ty::Projection, alias) => {
if self.tcx.is_impl_trait_in_trait(alias.def_id)
&& self.tcx.impl_trait_in_trait_parent_fn(alias.def_id) == self.function
{
// If we're lowering to associated item, install the opaque type which is just
// the `type_of` of the trait's associated item. If we're using the old lowering
// strategy, then just reinterpret the associated type like an opaque :^)
self.tcx
.type_of(alias.def_id)
.instantiate(self.tcx, alias.args)
.visit_with(self)?;
}
}
ty::Alias(ty::Weak, alias) => {
self.tcx
.type_of(alias.def_id)
.instantiate(self.tcx, alias.args)
.visit_with(self)?;
}
_ => (),
}

t.super_visit_with(self)
}
}
if let ControlFlow::Break(args) =
ret.visit_with(&mut Visitor { tcx, function, opaque, seen: Default::default() })
{
trace!(?args);
trace!("expected: {hidden_ty:#?}");
hidden_ty = ty::EarlyBinder::bind(hidden_ty).instantiate(tcx, args);
trace!("expected: {hidden_ty:#?}");
} else {
tcx.sess
.delay_span_bug(tcx.def_span(function), format!("{ret:?} does not contain {opaque:?}"));
}
Ok(hidden_ty)
}

fn is_enum_of_nonnullable_ptr<'tcx>(
tcx: TyCtxt<'tcx>,
adt_def: AdtDef<'tcx>,
Expand Down
8 changes: 8 additions & 0 deletions compiler/rustc_hir_typeck/src/callee.rs
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Original file line number Diff line number Diff line change
Expand Up @@ -581,6 +581,14 @@ impl<'a, 'tcx> FnCtxt<'a, 'tcx> {
callee_ty: Ty<'tcx>,
arg_exprs: &'tcx [hir::Expr<'tcx>],
) -> ErrorGuaranteed {
// Callee probe fails when APIT references errors, so suppress those
// errors here.
if let Some((_, _, args)) = self.extract_callable_info(callee_ty)
&& let Err(err) = args.error_reported()
{
return err;
}

let mut unit_variant = None;
if let hir::ExprKind::Path(qpath) = &callee_expr.kind
&& let Res::Def(def::DefKind::Ctor(kind, CtorKind::Const), _)
Expand Down
84 changes: 84 additions & 0 deletions compiler/rustc_hir_typeck/src/fn_ctxt/suggestions.rs
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Original file line number Diff line number Diff line change
Expand Up @@ -1523,9 +1523,15 @@ impl<'a, 'tcx> FnCtxt<'a, 'tcx> {
found_ty: Ty<'tcx>,
expr: &hir::Expr<'_>,
) {
// When `expr` is `x` in something like `let x = foo.clone(); x`, need to recurse up to get
// `foo` and `clone`.
let expr = self.note_type_is_not_clone_inner_expr(expr);

// If we've recursed to an `expr` of `foo.clone()`, get `foo` and `clone`.
let hir::ExprKind::MethodCall(segment, callee_expr, &[], _) = expr.kind else {
return;
};

let Some(clone_trait_did) = self.tcx.lang_items().clone_trait() else {
return;
};
Expand Down Expand Up @@ -1578,6 +1584,84 @@ impl<'a, 'tcx> FnCtxt<'a, 'tcx> {
}
}

/// Given a type mismatch error caused by `&T` being cloned instead of `T`, and
/// the `expr` as the source of this type mismatch, try to find the method call
/// as the source of this error and return that instead. Otherwise, return the
/// original expression.
fn note_type_is_not_clone_inner_expr<'b>(
&'b self,
expr: &'b hir::Expr<'b>,
) -> &'b hir::Expr<'b> {
match expr.peel_blocks().kind {
hir::ExprKind::Path(hir::QPath::Resolved(
None,
hir::Path { segments: [_], res: crate::Res::Local(binding), .. },
)) => {
let Some(hir::Node::Pat(hir::Pat { hir_id, .. })) = self.tcx.hir().find(*binding)
else {
return expr;
};
let Some(parent) = self.tcx.hir().find(self.tcx.hir().parent_id(*hir_id)) else {
return expr;
};

match parent {
// foo.clone()
hir::Node::Local(hir::Local { init: Some(init), .. }) => {
self.note_type_is_not_clone_inner_expr(init)
}
// When `expr` is more complex like a tuple
hir::Node::Pat(hir::Pat {
hir_id: pat_hir_id,
kind: hir::PatKind::Tuple(pats, ..),
..
}) => {
let Some(hir::Node::Local(hir::Local { init: Some(init), .. })) =
self.tcx.hir().find(self.tcx.hir().parent_id(*pat_hir_id)) else {
return expr;
};

match init.peel_blocks().kind {
ExprKind::Tup(init_tup) => {
if let Some(init) = pats
.iter()
.enumerate()
.filter(|x| x.1.hir_id == *hir_id)
.map(|(i, _)| init_tup.get(i).unwrap())
.next()
{
self.note_type_is_not_clone_inner_expr(init)
} else {
expr
}
}
_ => expr,
}
}
_ => expr,
}
}
// If we're calling into a closure that may not be typed recurse into that call. no need
// to worry if it's a call to a typed function or closure as this would ne handled
// previously.
hir::ExprKind::Call(Expr { kind: call_expr_kind, .. }, _) => {
if let hir::ExprKind::Path(hir::QPath::Resolved(None, call_expr_path)) = call_expr_kind
&& let hir::Path { segments: [_], res: crate::Res::Local(binding), .. } = call_expr_path
&& let Some(hir::Node::Pat(hir::Pat { hir_id, .. })) = self.tcx.hir().find(*binding)
&& let Some(closure) = self.tcx.hir().find(self.tcx.hir().parent_id(*hir_id))
&& let hir::Node::Local(hir::Local { init: Some(init), .. }) = closure
&& let Expr { kind: hir::ExprKind::Closure(hir::Closure { body: body_id, .. }), ..} = init
{
let hir::Body { value: body_expr, .. } = self.tcx.hir().body(*body_id);
self.note_type_is_not_clone_inner_expr(body_expr)
} else {
expr
}
}
_ => expr,
}
}

/// A common error is to add an extra semicolon:
///
/// ```compile_fail,E0308
Expand Down
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