1 #![deny(rustc::untranslatable_diagnostic)]
2 #![deny(rustc::diagnostic_outside_of_impl)]
3 //! Error reporting machinery for lifetime errors.
5 use rustc_data_structures::fx::FxIndexSet;
6 use rustc_errors::{Applicability, Diagnostic, DiagnosticBuilder, ErrorGuaranteed, MultiSpan};
7 use rustc_hir::def_id::DefId;
8 use rustc_hir::intravisit::Visitor;
9 use rustc_hir::{self as hir, Item, ItemKind, Node};
10 use rustc_infer::infer::{
11 error_reporting::nice_region_error::{
12 self, find_anon_type, find_param_with_region, suggest_adding_lifetime_params,
13 HirTraitObjectVisitor, NiceRegionError, TraitObjectVisitor,
15 error_reporting::unexpected_hidden_region_diagnostic,
16 NllRegionVariableOrigin, RelateParamBound,
18 use rustc_middle::hir::place::PlaceBase;
19 use rustc_middle::mir::{ConstraintCategory, ReturnConstraint};
20 use rustc_middle::ty::subst::InternalSubsts;
21 use rustc_middle::ty::Region;
22 use rustc_middle::ty::TypeVisitor;
23 use rustc_middle::ty::{self, RegionVid, Ty};
24 use rustc_span::symbol::{kw, Ident};
27 use crate::borrowck_errors;
28 use crate::session_diagnostics::{
29 FnMutError, FnMutReturnTypeErr, GenericDoesNotLiveLongEnough, LifetimeOutliveErr,
30 LifetimeReturnCategoryErr, RequireStaticErr, VarHereDenote,
33 use super::{OutlivesSuggestionBuilder, RegionName};
34 use crate::region_infer::{BlameConstraint, ExtraConstraintInfo};
36 nll::ConstraintDescription,
37 region_infer::{values::RegionElement, TypeTest},
38 universal_regions::DefiningTy,
42 impl<'tcx> ConstraintDescription for ConstraintCategory<'tcx> {
43 fn description(&self) -> &'static str {
44 // Must end with a space. Allows for empty names to be provided.
46 ConstraintCategory::Assignment => "assignment ",
47 ConstraintCategory::Return(_) => "returning this value ",
48 ConstraintCategory::Yield => "yielding this value ",
49 ConstraintCategory::UseAsConst => "using this value as a constant ",
50 ConstraintCategory::UseAsStatic => "using this value as a static ",
51 ConstraintCategory::Cast => "cast ",
52 ConstraintCategory::CallArgument(_) => "argument ",
53 ConstraintCategory::TypeAnnotation => "type annotation ",
54 ConstraintCategory::ClosureBounds => "closure body ",
55 ConstraintCategory::SizedBound => "proving this value is `Sized` ",
56 ConstraintCategory::CopyBound => "copying this value ",
57 ConstraintCategory::OpaqueType => "opaque type ",
58 ConstraintCategory::ClosureUpvar(_) => "closure capture ",
59 ConstraintCategory::Usage => "this usage ",
60 ConstraintCategory::Predicate(_)
61 | ConstraintCategory::Boring
62 | ConstraintCategory::BoringNoLocation
63 | ConstraintCategory::Internal => "",
68 /// A collection of errors encountered during region inference. This is needed to efficiently
69 /// report errors after borrow checking.
71 /// Usually we expect this to either be empty or contain a small number of items, so we can avoid
72 /// allocation most of the time.
73 pub(crate) type RegionErrors<'tcx> = Vec<RegionErrorKind<'tcx>>;
75 #[derive(Clone, Debug)]
76 pub(crate) enum RegionErrorKind<'tcx> {
77 /// A generic bound failure for a type test (`T: 'a`).
78 TypeTestError { type_test: TypeTest<'tcx> },
80 /// An unexpected hidden region for an opaque type.
81 UnexpectedHiddenRegion {
82 /// The span for the member constraint.
87 key: ty::OpaqueTypeKey<'tcx>,
88 /// The unexpected region.
89 member_region: ty::Region<'tcx>,
92 /// Higher-ranked subtyping error.
93 BoundUniversalRegionError {
94 /// The placeholder free region.
96 /// The region element that erroneously must be outlived by `longer_fr`.
97 error_element: RegionElement,
98 /// The placeholder region.
99 placeholder: ty::PlaceholderRegion,
102 /// Any other lifetime error.
104 /// The origin of the region.
105 fr_origin: NllRegionVariableOrigin,
106 /// The region that should outlive `shorter_fr`.
107 longer_fr: RegionVid,
108 /// The region that should be shorter, but we can't prove it.
109 shorter_fr: RegionVid,
110 /// Indicates whether this is a reported error. We currently only report the first error
111 /// encountered and leave the rest unreported so as not to overwhelm the user.
116 /// Information about the various region constraints involved in a borrow checker error.
117 #[derive(Clone, Debug)]
118 pub struct ErrorConstraintInfo<'tcx> {
120 pub(super) fr: RegionVid,
121 pub(super) fr_is_local: bool,
122 pub(super) outlived_fr: RegionVid,
123 pub(super) outlived_fr_is_local: bool,
125 // Category and span for best blame constraint
126 pub(super) category: ConstraintCategory<'tcx>,
127 pub(super) span: Span,
130 impl<'a, 'tcx> MirBorrowckCtxt<'a, 'tcx> {
131 /// Converts a region inference variable into a `ty::Region` that
132 /// we can use for error reporting. If `r` is universally bound,
133 /// then we use the name that we have on record for it. If `r` is
134 /// existentially bound, then we check its inferred value and try
135 /// to find a good name from that. Returns `None` if we can't find
136 /// one (e.g., this is just some random part of the CFG).
137 pub(super) fn to_error_region(&self, r: RegionVid) -> Option<ty::Region<'tcx>> {
138 self.to_error_region_vid(r).and_then(|r| self.regioncx.region_definition(r).external_name)
141 /// Returns the `RegionVid` corresponding to the region returned by
142 /// `to_error_region`.
143 pub(super) fn to_error_region_vid(&self, r: RegionVid) -> Option<RegionVid> {
144 if self.regioncx.universal_regions().is_universal_region(r) {
147 // We just want something nameable, even if it's not
148 // actually an upper bound.
149 let upper_bound = self.regioncx.approx_universal_upper_bound(r);
151 if self.regioncx.upper_bound_in_region_scc(r, upper_bound) {
152 self.to_error_region_vid(upper_bound)
159 /// Returns `true` if a closure is inferred to be an `FnMut` closure.
160 fn is_closure_fn_mut(&self, fr: RegionVid) -> bool {
161 if let Some(ty::ReFree(free_region)) = self.to_error_region(fr).as_deref()
162 && let ty::BoundRegionKind::BrEnv = free_region.bound_region
163 && let DefiningTy::Closure(_, substs) = self.regioncx.universal_regions().defining_ty
165 return substs.as_closure().kind() == ty::ClosureKind::FnMut;
171 /// Produces nice borrowck error diagnostics for all the errors collected in `nll_errors`.
172 pub(crate) fn report_region_errors(&mut self, nll_errors: RegionErrors<'tcx>) {
173 // Iterate through all the errors, producing a diagnostic for each one. The diagnostics are
174 // buffered in the `MirBorrowckCtxt`.
176 let mut outlives_suggestion = OutlivesSuggestionBuilder::default();
178 for nll_error in nll_errors.into_iter() {
180 RegionErrorKind::TypeTestError { type_test } => {
181 // Try to convert the lower-bound region into something named we can print for the user.
182 let lower_bound_region = self.to_error_region(type_test.lower_bound);
184 let type_test_span = type_test.span;
186 if let Some(lower_bound_region) = lower_bound_region {
187 let generic_ty = type_test.generic_kind.to_ty(self.infcx.tcx);
188 let origin = RelateParamBound(type_test_span, generic_ty, None);
189 self.buffer_error(self.infcx.err_ctxt().construct_generic_bound_failure(
190 self.body.source.def_id().expect_local(),
193 type_test.generic_kind,
197 // FIXME. We should handle this case better. It
198 // indicates that we have e.g., some region variable
199 // whose value is like `'a+'b` where `'a` and `'b` are
200 // distinct unrelated universal regions that are not
201 // known to outlive one another. It'd be nice to have
202 // some examples where this arises to decide how best
203 // to report it; we could probably handle it by
204 // iterating over the universal regions and reporting
205 // an error that multiple bounds are required.
206 self.buffer_error(self.infcx.tcx.sess.create_err(
207 GenericDoesNotLiveLongEnough {
208 kind: type_test.generic_kind.to_string(),
209 span: type_test_span,
215 RegionErrorKind::UnexpectedHiddenRegion { span, hidden_ty, key, member_region } => {
216 let named_ty = self.regioncx.name_regions(self.infcx.tcx, hidden_ty);
217 let named_key = self.regioncx.name_regions(self.infcx.tcx, key);
218 let named_region = self.regioncx.name_regions(self.infcx.tcx, member_region);
219 self.buffer_error(unexpected_hidden_region_diagnostic(
228 RegionErrorKind::BoundUniversalRegionError {
233 let error_vid = self.regioncx.region_from_element(longer_fr, &error_element);
235 // Find the code to blame for the fact that `longer_fr` outlives `error_fr`.
236 let (_, cause) = self.regioncx.find_outlives_blame_span(
238 NllRegionVariableOrigin::Placeholder(placeholder),
242 let universe = placeholder.universe;
243 let universe_info = self.regioncx.universe_info(universe);
245 universe_info.report_error(self, placeholder, error_element, cause);
248 RegionErrorKind::RegionError { fr_origin, longer_fr, shorter_fr, is_reported } => {
250 self.report_region_error(
254 &mut outlives_suggestion,
257 // We only report the first error, so as not to overwhelm the user. See
258 // `RegRegionErrorKind` docs.
260 // FIXME: currently we do nothing with these, but perhaps we can do better?
261 // FIXME: try collecting these constraints on the outlives suggestion
262 // builder. Does it make the suggestions any better?
264 "Unreported region error: can't prove that {:?}: {:?}",
265 longer_fr, shorter_fr
272 // Emit one outlives suggestions for each MIR def we borrowck
273 outlives_suggestion.add_suggestion(self);
276 fn get_impl_ident_and_self_ty_from_trait(
279 trait_objects: &FxIndexSet<DefId>,
280 ) -> Option<(Ident, &'tcx hir::Ty<'tcx>)> {
281 let tcx = self.infcx.tcx;
282 match tcx.hir().get_if_local(def_id) {
283 Some(Node::ImplItem(impl_item)) => {
284 match tcx.hir().find_by_def_id(tcx.hir().get_parent_item(impl_item.hir_id()).def_id)
286 Some(Node::Item(Item {
287 kind: ItemKind::Impl(hir::Impl { self_ty, .. }),
289 })) => Some((impl_item.ident, self_ty)),
293 Some(Node::TraitItem(trait_item)) => {
294 let trait_did = tcx.hir().get_parent_item(trait_item.hir_id());
295 match tcx.hir().find_by_def_id(trait_did.def_id) {
296 Some(Node::Item(Item { kind: ItemKind::Trait(..), .. })) => {
297 // The method being called is defined in the `trait`, but the `'static`
298 // obligation comes from the `impl`. Find that `impl` so that we can point
299 // at it in the suggestion.
300 let trait_did = trait_did.to_def_id();
303 .trait_impls(trait_did)
305 .filter_map(|&impl_did| {
306 match tcx.hir().get_if_local(impl_did.to_def_id()) {
307 Some(Node::Item(Item {
308 kind: ItemKind::Impl(hir::Impl { self_ty, .. }),
310 })) if trait_objects.iter().all(|did| {
311 // FIXME: we should check `self_ty` against the receiver
312 // type in the `UnifyReceiver` context, but for now, use
313 // this imperfect proxy. This will fail if there are
314 // multiple `impl`s for the same trait like
315 // `impl Foo for Box<dyn Bar>` and `impl Foo for dyn Bar`.
316 // In that case, only the first one will get suggestions.
317 let mut traits = vec![];
318 let mut hir_v = HirTraitObjectVisitor(&mut traits, *did);
319 hir_v.visit_ty(self_ty);
330 Some(self_ty) => Some((trait_item.ident, self_ty)),
341 /// Report an error because the universal region `fr` was required to outlive
342 /// `outlived_fr` but it is not known to do so. For example:
345 /// fn foo<'a, 'b>(x: &'a u32) -> &'b u32 { x }
348 /// Here we would be invoked with `fr = 'a` and `outlived_fr = `'b`.
349 pub(crate) fn report_region_error(
352 fr_origin: NllRegionVariableOrigin,
353 outlived_fr: RegionVid,
354 outlives_suggestion: &mut OutlivesSuggestionBuilder,
356 debug!("report_region_error(fr={:?}, outlived_fr={:?})", fr, outlived_fr);
358 let (blame_constraint, extra_info) =
359 self.regioncx.best_blame_constraint(fr, fr_origin, |r| {
360 self.regioncx.provides_universal_region(r, fr, outlived_fr)
362 let BlameConstraint { category, cause, variance_info, .. } = blame_constraint;
364 debug!("report_region_error: category={:?} {:?} {:?}", category, cause, variance_info);
366 // Check if we can use one of the "nice region errors".
367 if let (Some(f), Some(o)) = (self.to_error_region(fr), self.to_error_region(outlived_fr)) {
368 let infer_err = self.infcx.err_ctxt();
369 let nice = NiceRegionError::new_from_span(&infer_err, cause.span, o, f);
370 if let Some(diag) = nice.try_report_from_nll() {
371 self.buffer_error(diag);
376 let (fr_is_local, outlived_fr_is_local): (bool, bool) = (
377 self.regioncx.universal_regions().is_local_free_region(fr),
378 self.regioncx.universal_regions().is_local_free_region(outlived_fr),
382 "report_region_error: fr_is_local={:?} outlived_fr_is_local={:?} category={:?}",
383 fr_is_local, outlived_fr_is_local, category
386 let errci = ErrorConstraintInfo {
390 outlived_fr_is_local,
395 let mut diag = match (category, fr_is_local, outlived_fr_is_local) {
396 (ConstraintCategory::Return(kind), true, false) if self.is_closure_fn_mut(fr) => {
397 self.report_fnmut_error(&errci, kind)
399 (ConstraintCategory::Assignment, true, false)
400 | (ConstraintCategory::CallArgument(_), true, false) => {
401 let mut db = self.report_escaping_data_error(&errci);
403 outlives_suggestion.intermediate_suggestion(self, &errci, &mut db);
404 outlives_suggestion.collect_constraint(fr, outlived_fr);
409 let mut db = self.report_general_error(&errci);
411 outlives_suggestion.intermediate_suggestion(self, &errci, &mut db);
412 outlives_suggestion.collect_constraint(fr, outlived_fr);
418 match variance_info {
419 ty::VarianceDiagInfo::None => {}
420 ty::VarianceDiagInfo::Invariant { ty, param_index } => {
421 let (desc, note) = match ty.kind() {
422 ty::RawPtr(ty_mut) => {
423 assert_eq!(ty_mut.mutbl, rustc_hir::Mutability::Mut);
425 format!("a mutable pointer to `{}`", ty_mut.ty),
426 "mutable pointers are invariant over their type parameter".to_string(),
429 ty::Ref(_, inner_ty, mutbl) => {
430 assert_eq!(*mutbl, rustc_hir::Mutability::Mut);
432 format!("a mutable reference to `{inner_ty}`"),
433 "mutable references are invariant over their type parameter"
437 ty::Adt(adt, substs) => {
438 let generic_arg = substs[param_index as usize];
439 let identity_substs =
440 InternalSubsts::identity_for_item(self.infcx.tcx, adt.did());
441 let base_ty = self.infcx.tcx.mk_adt(*adt, identity_substs);
442 let base_generic_arg = identity_substs[param_index as usize];
443 let adt_desc = adt.descr();
446 "the type `{ty}`, which makes the generic argument `{generic_arg}` invariant"
449 "the {adt_desc} `{base_ty}` is invariant over the parameter `{base_generic_arg}`"
453 ty::FnDef(def_id, _) => {
454 let name = self.infcx.tcx.item_name(*def_id);
455 let identity_substs =
456 InternalSubsts::identity_for_item(self.infcx.tcx, *def_id);
457 let desc = format!("a function pointer to `{name}`");
459 "the function `{name}` is invariant over the parameter `{}`",
460 identity_substs[param_index as usize]
464 _ => panic!("Unexpected type {:?}", ty),
466 diag.note(&format!("requirement occurs because of {desc}",));
468 diag.help("see <https://doc.rust-lang.org/nomicon/subtyping.html> for more information about variance");
472 for extra in extra_info {
474 ExtraConstraintInfo::PlaceholderFromPredicate(span) => {
475 diag.span_note(span, format!("due to current limitations in the borrow checker, this implies a `'static` lifetime"));
480 self.buffer_error(diag);
483 /// Report a specialized error when `FnMut` closures return a reference to a captured variable.
484 /// This function expects `fr` to be local and `outlived_fr` to not be local.
487 /// error: captured variable cannot escape `FnMut` closure body
488 /// --> $DIR/issue-53040.rs:15:8
491 /// | -- ^^^^^^ creates a reference to a captured variable which escapes the closure body
493 /// | inferred to be a `FnMut` closure
495 /// = note: `FnMut` closures only have access to their captured variables while they are
497 /// = note: ...therefore, returned references to captured variables will escape the closure
499 fn report_fnmut_error(
501 errci: &ErrorConstraintInfo<'tcx>,
502 kind: ReturnConstraint,
503 ) -> DiagnosticBuilder<'tcx, ErrorGuaranteed> {
504 let ErrorConstraintInfo { outlived_fr, span, .. } = errci;
506 let mut output_ty = self.regioncx.universal_regions().unnormalized_output_ty;
507 if let ty::Opaque(def_id, _) = *output_ty.kind() {
508 output_ty = self.infcx.tcx.type_of(def_id)
511 debug!("report_fnmut_error: output_ty={:?}", output_ty);
513 let err = FnMutError {
515 ty_err: match output_ty.kind() {
516 ty::Closure(_, _) => FnMutReturnTypeErr::ReturnClosure { span: *span },
517 ty::Generator(def, ..) if self.infcx.tcx.generator_is_async(*def) => {
518 FnMutReturnTypeErr::ReturnAsyncBlock { span: *span }
520 _ => FnMutReturnTypeErr::ReturnRef { span: *span },
524 let mut diag = self.infcx.tcx.sess.create_err(err);
526 if let ReturnConstraint::ClosureUpvar(upvar_field) = kind {
527 let def_id = match self.regioncx.universal_regions().defining_ty {
528 DefiningTy::Closure(def_id, _) => def_id,
529 ty => bug!("unexpected DefiningTy {:?}", ty),
532 let captured_place = &self.upvars[upvar_field.index()].place;
533 let defined_hir = match captured_place.place.base {
534 PlaceBase::Local(hirid) => Some(hirid),
535 PlaceBase::Upvar(upvar) => Some(upvar.var_path.hir_id),
539 if let Some(def_hir) = defined_hir {
540 let upvars_map = self.infcx.tcx.upvars_mentioned(def_id).unwrap();
541 let upvar_def_span = self.infcx.tcx.hir().span(def_hir);
542 let upvar_span = upvars_map.get(&def_hir).unwrap().span;
543 diag.subdiagnostic(VarHereDenote::Defined { span: upvar_def_span });
544 diag.subdiagnostic(VarHereDenote::Captured { span: upvar_span });
548 if let Some(fr_span) = self.give_region_a_name(*outlived_fr).unwrap().span() {
549 diag.subdiagnostic(VarHereDenote::FnMutInferred { span: fr_span });
552 self.suggest_move_on_borrowing_closure(&mut diag);
557 /// Reports an error specifically for when data is escaping a closure.
560 /// error: borrowed data escapes outside of function
561 /// --> $DIR/lifetime-bound-will-change-warning.rs:44:5
563 /// LL | fn test2<'a>(x: &'a Box<Fn()+'a>) {
564 /// | - `x` is a reference that is only valid in the function body
565 /// LL | // but ref_obj will not, so warn.
567 /// | ^^^^^^^^^^ `x` escapes the function body here
569 #[instrument(level = "debug", skip(self))]
570 fn report_escaping_data_error(
572 errci: &ErrorConstraintInfo<'tcx>,
573 ) -> DiagnosticBuilder<'tcx, ErrorGuaranteed> {
574 let ErrorConstraintInfo { span, category, .. } = errci;
576 let fr_name_and_span = self.regioncx.get_var_name_and_span_for_region(
583 let outlived_fr_name_and_span = self.regioncx.get_var_name_and_span_for_region(
591 let (_, escapes_from) = self
594 .article_and_description(self.regioncx.universal_regions().defining_ty.def_id());
596 // Revert to the normal error in these cases.
597 // Assignments aren't "escapes" in function items.
598 if (fr_name_and_span.is_none() && outlived_fr_name_and_span.is_none())
599 || (*category == ConstraintCategory::Assignment
600 && self.regioncx.universal_regions().defining_ty.is_fn_def())
601 || self.regioncx.universal_regions().defining_ty.is_const()
603 return self.report_general_error(&ErrorConstraintInfo {
605 outlived_fr_is_local: false,
611 borrowck_errors::borrowed_data_escapes_closure(self.infcx.tcx, *span, escapes_from);
613 if let Some((Some(outlived_fr_name), outlived_fr_span)) = outlived_fr_name_and_span {
616 format!("`{outlived_fr_name}` declared here, outside of the {escapes_from} body",),
620 if let Some((Some(fr_name), fr_span)) = fr_name_and_span {
624 "`{fr_name}` is a reference that is only valid in the {escapes_from} body",
628 diag.span_label(*span, format!("`{fr_name}` escapes the {escapes_from} body here"));
631 // Only show an extra note if we can find an 'error region' for both of the region
632 // variables. This avoids showing a noisy note that just mentions 'synthetic' regions
633 // that don't help the user understand the error.
634 match (self.to_error_region(errci.fr), self.to_error_region(errci.outlived_fr)) {
635 (Some(f), Some(o)) => {
636 self.maybe_suggest_constrain_dyn_trait_impl(&mut diag, f, o, category);
638 let fr_region_name = self.give_region_a_name(errci.fr).unwrap();
639 fr_region_name.highlight_region_name(&mut diag);
640 let outlived_fr_region_name = self.give_region_a_name(errci.outlived_fr).unwrap();
641 outlived_fr_region_name.highlight_region_name(&mut diag);
646 "{}requires that `{}` must outlive `{}`",
647 category.description(),
649 outlived_fr_region_name,
659 /// Reports a region inference error for the general case with named/synthesized lifetimes to
660 /// explain what is happening.
663 /// error: unsatisfied lifetime constraints
664 /// --> $DIR/regions-creating-enums3.rs:17:5
666 /// LL | fn mk_add_bad1<'a,'b>(x: &'a ast<'a>, y: &'b ast<'b>) -> ast<'a> {
667 /// | -- -- lifetime `'b` defined here
669 /// | lifetime `'a` defined here
670 /// LL | ast::add(x, y)
671 /// | ^^^^^^^^^^^^^^ function was supposed to return data with lifetime `'a` but it
672 /// | is returning data with lifetime `'b`
674 fn report_general_error(
676 errci: &ErrorConstraintInfo<'tcx>,
677 ) -> DiagnosticBuilder<'tcx, ErrorGuaranteed> {
678 let ErrorConstraintInfo {
682 outlived_fr_is_local,
688 let (_, mir_def_name) =
689 self.infcx.tcx.article_and_description(self.mir_def_id().to_def_id());
691 let err = LifetimeOutliveErr { span: *span };
692 let mut diag = self.infcx.tcx.sess.create_err(err);
694 let fr_name = self.give_region_a_name(*fr).unwrap();
695 fr_name.highlight_region_name(&mut diag);
696 let outlived_fr_name = self.give_region_a_name(*outlived_fr).unwrap();
697 outlived_fr_name.highlight_region_name(&mut diag);
699 let err_category = match (category, outlived_fr_is_local, fr_is_local) {
700 (ConstraintCategory::Return(_), true, _) => LifetimeReturnCategoryErr::WrongReturn {
706 _ => LifetimeReturnCategoryErr::ShortReturn {
708 category_desc: category.description(),
709 free_region_name: &fr_name,
714 diag.subdiagnostic(err_category);
716 self.add_static_impl_trait_suggestion(&mut diag, *fr, fr_name, *outlived_fr);
717 self.suggest_adding_lifetime_params(&mut diag, *fr, *outlived_fr);
718 self.suggest_move_on_borrowing_closure(&mut diag);
723 /// Adds a suggestion to errors where an `impl Trait` is returned.
726 /// help: to allow this `impl Trait` to capture borrowed data with lifetime `'1`, add `'_` as
729 /// LL | fn iter_values_anon(&self) -> impl Iterator<Item=u32> + 'a {
730 /// | ^^^^^^^^^^^^^^^^^^^^^^^^^^^^
732 fn add_static_impl_trait_suggestion(
734 diag: &mut Diagnostic,
736 // We need to pass `fr_name` - computing it again will label it twice.
738 outlived_fr: RegionVid,
740 if let (Some(f), Some(outlived_f)) =
741 (self.to_error_region(fr), self.to_error_region(outlived_fr))
743 if *outlived_f != ty::ReStatic {
747 let fn_returns = self
750 .is_suitable_region(f)
751 .map(|r| self.infcx.tcx.return_type_impl_or_dyn_traits(r.def_id))
752 .unwrap_or_default();
754 if fn_returns.is_empty() {
758 let param = if let Some(param) = find_param_with_region(self.infcx.tcx, f, outlived_f) {
764 let lifetime = if f.has_name() { fr_name.name } else { kw::UnderscoreLifetime };
766 let arg = match param.param.pat.simple_ident() {
767 Some(simple_ident) => format!("argument `{}`", simple_ident),
768 None => "the argument".to_string(),
770 let captures = format!("captures data from {}", arg);
772 return nice_region_error::suggest_new_region_bound(
776 lifetime.to_string(),
779 Some((param.param_ty_span, param.param_ty.to_string())),
784 fn maybe_suggest_constrain_dyn_trait_impl(
786 diag: &mut Diagnostic,
789 category: &ConstraintCategory<'tcx>,
795 let tcx = self.infcx.tcx;
797 let instance = if let ConstraintCategory::CallArgument(Some(func_ty)) = category {
798 let (fn_did, substs) = match func_ty.kind() {
799 ty::FnDef(fn_did, substs) => (fn_did, substs),
802 debug!(?fn_did, ?substs);
804 // Only suggest this on function calls, not closures
805 let ty = tcx.type_of(fn_did);
806 debug!("ty: {:?}, ty.kind: {:?}", ty, ty.kind());
807 if let ty::Closure(_, _) = ty.kind() {
811 if let Ok(Some(instance)) = ty::Instance::resolve(
815 self.infcx.resolve_vars_if_possible(substs),
825 let param = match find_param_with_region(tcx, f, o) {
826 Some(param) => param,
831 let mut visitor = TraitObjectVisitor(FxIndexSet::default());
832 visitor.visit_ty(param.param_ty);
834 let Some((ident, self_ty)) =
835 self.get_impl_ident_and_self_ty_from_trait(instance.def_id(), &visitor.0) else {return};
837 self.suggest_constrain_dyn_trait_in_impl(diag, &visitor.0, ident, self_ty);
840 #[instrument(skip(self, err), level = "debug")]
841 fn suggest_constrain_dyn_trait_in_impl(
843 err: &mut Diagnostic,
844 found_dids: &FxIndexSet<DefId>,
846 self_ty: &hir::Ty<'_>,
848 debug!("err: {:#?}", err);
849 let mut suggested = false;
850 for found_did in found_dids {
851 let mut traits = vec![];
852 let mut hir_v = HirTraitObjectVisitor(&mut traits, *found_did);
853 hir_v.visit_ty(&self_ty);
854 debug!("trait spans found: {:?}", traits);
855 for span in &traits {
856 let mut multi_span: MultiSpan = vec![*span].into();
858 .push_span_label(*span, "this has an implicit `'static` lifetime requirement");
859 multi_span.push_span_label(
861 "calling this method introduces the `impl`'s 'static` requirement",
863 err.subdiagnostic(RequireStaticErr::UsedImpl { multi_span });
864 err.span_suggestion_verbose(
866 "consider relaxing the implicit `'static` requirement",
868 Applicability::MaybeIncorrect,
876 fn suggest_adding_lifetime_params(
878 diag: &mut Diagnostic,
882 let (Some(sub), Some(sup)) = (self.to_error_region(sub), self.to_error_region(sup)) else {
886 let Some((ty_sub, _)) = self
889 .is_suitable_region(sub)
890 .and_then(|anon_reg| find_anon_type(self.infcx.tcx, sub, &anon_reg.boundregion)) else {
894 let Some((ty_sup, _)) = self
897 .is_suitable_region(sup)
898 .and_then(|anon_reg| find_anon_type(self.infcx.tcx, sup, &anon_reg.boundregion)) else {
902 suggest_adding_lifetime_params(self.infcx.tcx, sub, ty_sup, ty_sub, diag);
905 fn suggest_move_on_borrowing_closure(&self, diag: &mut Diagnostic) {
906 let map = self.infcx.tcx.hir();
907 let body_id = map.body_owned_by(self.mir_def_id());
908 let expr = &map.body(body_id).value;
909 let mut closure_span = None::<rustc_span::Span>;
911 hir::ExprKind::MethodCall(.., args, _) => {
913 if let hir::ExprKind::Closure(hir::Closure {
914 capture_clause: hir::CaptureBy::Ref,
918 closure_span = Some(arg.span.shrink_to_lo());
923 hir::ExprKind::Block(blk, _) => {
924 if let Some(expr) = blk.expr {
925 // only when the block is a closure
926 if let hir::ExprKind::Closure(hir::Closure {
927 capture_clause: hir::CaptureBy::Ref,
932 let body = map.body(*body);
933 if !matches!(body.generator_kind, Some(hir::GeneratorKind::Async(..))) {
934 closure_span = Some(expr.span.shrink_to_lo());
941 if let Some(closure_span) = closure_span {
942 diag.span_suggestion_verbose(
944 "consider adding 'move' keyword before the nested closure",
946 Applicability::MaybeIncorrect,