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Auto merge of #132840 - matthiaskrgr:rollup-ibarl2r, r=matthiaskrgr

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Rollup of 2 pull requests

Successful merges:

 - #132136 (ABI compatibility: remove section on target features)
 - #132816 (Dont suggest `use<impl Trait>` when we have an edition-2024-related borrowck issue)

r? `@ghost`
`@rustbot` modify labels: rollup
This commit is contained in:
bors 2024-11-10 09:31:15 +00:00
commit c24e166527
11 changed files with 323 additions and 105 deletions
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71
compiler/rustc_borrowck/src/diagnostics/opaque_suggestions.rs
View File

@ -4,15 +4,16 @@
use std::ops::ControlFlow;
use either::Either;
use itertools::Itertools as _;
use rustc_data_structures::fx::FxIndexSet;
use rustc_errors::{Applicability, Diag};
use rustc_errors::{Diag, Subdiagnostic};
use rustc_hir as hir;
use rustc_hir::def_id::DefId;
use rustc_middle::mir::{self, ConstraintCategory, Location};
use rustc_middle::ty::{
self, Ty, TyCtxt, TypeSuperVisitable, TypeVisitable, TypeVisitableExt, TypeVisitor,
};
use rustc_span::Symbol;
use rustc_trait_selection::errors::impl_trait_overcapture_suggestion;
use crate::MirBorrowckCtxt;
use crate::borrow_set::BorrowData;
@ -61,6 +62,7 @@ pub(crate) fn note_due_to_edition_2024_opaque_capture_rules(
// *does* mention. We'll use that for the `+ use<'a>` suggestion below.
let mut visitor = CheckExplicitRegionMentionAndCollectGenerics {
tcx,
generics: tcx.generics_of(opaque_def_id),
offending_region_idx,
seen_opaques: [opaque_def_id].into_iter().collect(),
seen_lifetimes: Default::default(),
@ -83,34 +85,50 @@ pub(crate) fn note_due_to_edition_2024_opaque_capture_rules(
"this call may capture more lifetimes than intended, \
because Rust 2024 has adjusted the `impl Trait` lifetime capture rules",
);
let mut seen_generics: Vec<_> =
visitor.seen_lifetimes.iter().map(ToString::to_string).collect();
// Capture all in-scope ty/const params.
seen_generics.extend(
ty::GenericArgs::identity_for_item(tcx, opaque_def_id)
.iter()
.filter(|arg| {
matches!(
arg.unpack(),
ty::GenericArgKind::Type(_) | ty::GenericArgKind::Const(_)
)
})
.map(|arg| arg.to_string()),
);
if opaque_def_id.is_local() {
diag.span_suggestion_verbose(
tcx.def_span(opaque_def_id).shrink_to_hi(),
"add a precise capturing bound to avoid overcapturing",
format!(" + use<{}>", seen_generics.join(", ")),
Applicability::MaybeIncorrect,
);
let mut captured_args = visitor.seen_lifetimes;
// Add in all of the type and const params, too.
// Ordering here is kinda strange b/c we're walking backwards,
// but we're trying to provide *a* suggestion, not a nice one.
let mut next_generics = Some(visitor.generics);
let mut any_synthetic = false;
while let Some(generics) = next_generics {
for param in &generics.own_params {
if param.kind.is_ty_or_const() {
captured_args.insert(param.def_id);
}
if param.kind.is_synthetic() {
any_synthetic = true;
}
}
next_generics = generics.parent.map(|def_id| tcx.generics_of(def_id));
}
if let Some(opaque_def_id) = opaque_def_id.as_local()
&& let hir::OpaqueTyOrigin::FnReturn { parent, .. } =
tcx.hir().expect_opaque_ty(opaque_def_id).origin
{
if let Some(sugg) = impl_trait_overcapture_suggestion(
tcx,
opaque_def_id,
parent,
captured_args,
) {
sugg.add_to_diag(diag);
}
} else {
diag.span_help(
tcx.def_span(opaque_def_id),
format!(
"if you can modify this crate, add a precise \
capturing bound to avoid overcapturing: `+ use<{}>`",
seen_generics.join(", ")
if any_synthetic {
"/* Args */".to_string()
} else {
captured_args
.into_iter()
.map(|def_id| tcx.item_name(def_id))
.join(", ")
}
),
);
}
@ -182,9 +200,10 @@ fn visit_ty(&mut self, ty: Ty<'tcx>) -> Self::Result {
struct CheckExplicitRegionMentionAndCollectGenerics<'tcx> {
tcx: TyCtxt<'tcx>,
generics: &'tcx ty::Generics,
offending_region_idx: usize,
seen_opaques: FxIndexSet<DefId>,
seen_lifetimes: FxIndexSet<Symbol>,
seen_lifetimes: FxIndexSet<DefId>,
}
impl<'tcx> TypeVisitor<TyCtxt<'tcx>> for CheckExplicitRegionMentionAndCollectGenerics<'tcx> {
@ -214,7 +233,7 @@ fn visit_region(&mut self, r: ty::Region<'tcx>) -> Self::Result {
if param.index as usize == self.offending_region_idx {
ControlFlow::Break(())
} else {
self.seen_lifetimes.insert(param.name);
self.seen_lifetimes.insert(self.generics.region_param(param, self.tcx).def_id);
ControlFlow::Continue(())
}
}

1
compiler/rustc_lint/messages.ftl
View File

@ -346,7 +346,6 @@ lint_impl_trait_overcaptures = `{$self_ty}` will capture more lifetimes than pos
*[other] these lifetimes are
} in scope but not mentioned in the type's bounds
.note2 = all lifetimes in scope will be captured by `impl Trait`s in edition 2024
.suggestion = use the precise capturing `use<...>` syntax to make the captures explicit
lint_impl_trait_redundant_captures = all possible in-scope parameters are already captured, so `use<...>` syntax is redundant
.suggestion = remove the `use<...>` syntax

48
compiler/rustc_lint/src/impl_trait_overcaptures.rs
View File

@ -3,7 +3,7 @@
use rustc_data_structures::fx::{FxHashMap, FxIndexMap, FxIndexSet};
use rustc_data_structures::unord::UnordSet;
use rustc_errors::{Applicability, LintDiagnostic};
use rustc_errors::{LintDiagnostic, Subdiagnostic};
use rustc_hir as hir;
use rustc_hir::def::DefKind;
use rustc_hir::def_id::{DefId, LocalDefId};
@ -22,6 +22,9 @@
use rustc_session::{declare_lint, declare_lint_pass};
use rustc_span::edition::Edition;
use rustc_span::{Span, Symbol};
use rustc_trait_selection::errors::{
AddPreciseCapturingForOvercapture, impl_trait_overcapture_suggestion,
};
use rustc_trait_selection::traits::ObligationCtxt;
use rustc_trait_selection::traits::outlives_bounds::InferCtxtExt;
@ -334,32 +337,12 @@ fn visit_ty(&mut self, t: Ty<'tcx>) {
// If we have uncaptured args, and if the opaque doesn't already have
// `use<>` syntax on it, and we're < edition 2024, then warn the user.
if !uncaptured_args.is_empty() {
let suggestion = if let Ok(snippet) =
self.tcx.sess.source_map().span_to_snippet(opaque_span)
&& snippet.starts_with("impl ")
{
let (lifetimes, others): (Vec<_>, Vec<_>) =
captured.into_iter().partition(|def_id| {
self.tcx.def_kind(*def_id) == DefKind::LifetimeParam
});
// Take all lifetime params first, then all others (ty/ct).
let generics: Vec<_> = lifetimes
.into_iter()
.chain(others)
.map(|def_id| self.tcx.item_name(def_id).to_string())
.collect();
// Make sure that we're not trying to name any APITs
if generics.iter().all(|name| !name.starts_with("impl ")) {
Some((
format!(" + use<{}>", generics.join(", ")),
opaque_span.shrink_to_hi(),
))
} else {
None
}
} else {
None
};
let suggestion = impl_trait_overcapture_suggestion(
self.tcx,
opaque_def_id,
self.parent_def_id,
captured,
);
let uncaptured_spans: Vec<_> = uncaptured_args
.into_iter()
@ -451,7 +434,7 @@ struct ImplTraitOvercapturesLint<'tcx> {
uncaptured_spans: Vec<Span>,
self_ty: Ty<'tcx>,
num_captured: usize,
suggestion: Option<(String, Span)>,
suggestion: Option<AddPreciseCapturingForOvercapture>,
}
impl<'a> LintDiagnostic<'a, ()> for ImplTraitOvercapturesLint<'_> {
@ -461,13 +444,8 @@ fn decorate_lint<'b>(self, diag: &'b mut rustc_errors::Diag<'a, ()>) {
.arg("num_captured", self.num_captured)
.span_note(self.uncaptured_spans, fluent::lint_note)
.note(fluent::lint_note2);
if let Some((suggestion, span)) = self.suggestion {
diag.span_suggestion(
span,
fluent::lint_suggestion,
suggestion,
Applicability::MachineApplicable,
);
if let Some(suggestion) = self.suggestion {
suggestion.add_to_diag(diag);
}
}
}

6
compiler/rustc_trait_selection/messages.ftl
View File

@ -282,6 +282,8 @@ trait_selection_precise_capturing_new = add a `use<...>` bound to explicitly cap
trait_selection_precise_capturing_new_but_apit = add a `use<...>` bound to explicitly capture `{$new_lifetime}` after turning all argument-position `impl Trait` into type parameters, noting that this possibly affects the API of this crate
trait_selection_precise_capturing_overcaptures = use the precise capturing `use<...>` syntax to make the captures explicit
trait_selection_prlf_defined_with_sub = the lifetime `{$sub_symbol}` defined here...
trait_selection_prlf_defined_without_sub = the lifetime defined here...
trait_selection_prlf_known_limitation = this is a known limitation that will be removed in the future (see issue #100013 <https://github.com/rust-lang/rust/issues/100013> for more information)
@ -455,7 +457,9 @@ trait_selection_unable_to_construct_constant_value = unable to construct a const
trait_selection_unknown_format_parameter_for_on_unimplemented_attr = there is no parameter `{$argument_name}` on trait `{$trait_name}`
.help = expect either a generic argument name or {"`{Self}`"} as format argument
trait_selection_warn_removing_apit_params = you could use a `use<...>` bound to explicitly capture `{$new_lifetime}`, but argument-position `impl Trait`s are not nameable
trait_selection_warn_removing_apit_params_for_overcapture = you could use a `use<...>` bound to explicitly specify captures, but argument-position `impl Trait`s are not nameable
trait_selection_warn_removing_apit_params_for_undercapture = you could use a `use<...>` bound to explicitly capture `{$new_lifetime}`, but argument-position `impl Trait`s are not nameable
trait_selection_where_copy_predicates = copy the `where` clause predicates from the trait

131
compiler/rustc_trait_selection/src/errors.rs
View File

@ -1,13 +1,14 @@
use std::path::PathBuf;
use rustc_data_structures::fx::FxHashSet;
use rustc_data_structures::fx::{FxHashSet, FxIndexSet};
use rustc_errors::codes::*;
use rustc_errors::{
Applicability, Diag, DiagCtxtHandle, DiagMessage, DiagStyledString, Diagnostic,
EmissionGuarantee, IntoDiagArg, Level, MultiSpan, SubdiagMessageOp, Subdiagnostic,
};
use rustc_hir as hir;
use rustc_hir::def_id::LocalDefId;
use rustc_hir::def::DefKind;
use rustc_hir::def_id::{DefId, LocalDefId};
use rustc_hir::intravisit::{Visitor, walk_ty};
use rustc_hir::{FnRetTy, GenericParamKind};
use rustc_macros::{Diagnostic, Subdiagnostic};
@ -1792,6 +1793,130 @@ fn add_to_diag_with<G: EmissionGuarantee, F: SubdiagMessageOp<G>>(
self.suggs,
Applicability::MaybeIncorrect,
);
diag.span_note(self.apit_spans, fluent::trait_selection_warn_removing_apit_params);
diag.span_note(
self.apit_spans,
fluent::trait_selection_warn_removing_apit_params_for_undercapture,
);
}
}
/// Given a set of captured `DefId` for an RPIT (opaque_def_id) and a given
/// function (fn_def_id), try to suggest adding `+ use<...>` to capture just
/// the specified parameters. If one of those parameters is an APIT, then try
/// to suggest turning it into a regular type parameter.
pub fn impl_trait_overcapture_suggestion<'tcx>(
tcx: TyCtxt<'tcx>,
opaque_def_id: LocalDefId,
fn_def_id: LocalDefId,
captured_args: FxIndexSet<DefId>,
) -> Option<AddPreciseCapturingForOvercapture> {
let generics = tcx.generics_of(fn_def_id);
let mut captured_lifetimes = FxIndexSet::default();
let mut captured_non_lifetimes = FxIndexSet::default();
let mut synthetics = vec![];
for arg in captured_args {
if tcx.def_kind(arg) == DefKind::LifetimeParam {
captured_lifetimes.insert(tcx.item_name(arg));
} else {
let idx = generics.param_def_id_to_index(tcx, arg).expect("expected arg in scope");
let param = generics.param_at(idx as usize, tcx);
if param.kind.is_synthetic() {
synthetics.push((tcx.def_span(arg), param.name));
} else {
captured_non_lifetimes.insert(tcx.item_name(arg));
}
}
}
let mut next_fresh_param = || {
["T", "U", "V", "W", "X", "Y", "A", "B", "C"]
.into_iter()
.map(Symbol::intern)
.chain((0..).map(|i| Symbol::intern(&format!("T{i}"))))
.find(|s| captured_non_lifetimes.insert(*s))
.unwrap()
};
let mut suggs = vec![];
let mut apit_spans = vec![];
if !synthetics.is_empty() {
let mut new_params = String::new();
for (i, (span, name)) in synthetics.into_iter().enumerate() {
apit_spans.push(span);
let fresh_param = next_fresh_param();
// Suggest renaming.
suggs.push((span, fresh_param.to_string()));
// Super jank. Turn `impl Trait` into `T: Trait`.
//
// This currently involves stripping the `impl` from the name of
// the parameter, since APITs are always named after how they are
// rendered in the AST. This sucks! But to recreate the bound list
// from the APIT itself would be miserable, so we're stuck with
// this for now!
if i > 0 {
new_params += ", ";
}
let name_as_bounds = name.as_str().trim_start_matches("impl").trim_start();
new_params += fresh_param.as_str();
new_params += ": ";
new_params += name_as_bounds;
}
let Some(generics) = tcx.hir().get_generics(fn_def_id) else {
// This shouldn't happen, but don't ICE.
return None;
};
// Add generics or concatenate to the end of the list.
suggs.push(if let Some(params_span) = generics.span_for_param_suggestion() {
(params_span, format!(", {new_params}"))
} else {
(generics.span, format!("<{new_params}>"))
});
}
let concatenated_bounds = captured_lifetimes
.into_iter()
.chain(captured_non_lifetimes)
.map(|sym| sym.to_string())
.collect::<Vec<_>>()
.join(", ");
suggs.push((
tcx.def_span(opaque_def_id).shrink_to_hi(),
format!(" + use<{concatenated_bounds}>"),
));
Some(AddPreciseCapturingForOvercapture { suggs, apit_spans })
}
pub struct AddPreciseCapturingForOvercapture {
pub suggs: Vec<(Span, String)>,
pub apit_spans: Vec<Span>,
}
impl Subdiagnostic for AddPreciseCapturingForOvercapture {
fn add_to_diag_with<G: EmissionGuarantee, F: SubdiagMessageOp<G>>(
self,
diag: &mut Diag<'_, G>,
_f: &F,
) {
diag.multipart_suggestion_verbose(
fluent::trait_selection_precise_capturing_overcaptures,
self.suggs,
Applicability::MaybeIncorrect,
);
if !self.apit_spans.is_empty() {
diag.span_note(
self.apit_spans,
fluent::trait_selection_warn_removing_apit_params_for_overcapture,
);
}
}
}

32
library/core/src/primitive_docs.rs
View File

@ -1746,11 +1746,10 @@ mod prim_ref {}
/// alignment, they might be passed in different registers and hence not be ABI-compatible.
///
/// ABI compatibility as a concern only arises in code that alters the type of function pointers,
/// code that imports functions via `extern` blocks, and in code that combines `#[target_feature]`
/// with `extern fn`. Altering the type of function pointers is wildly unsafe (as in, a lot more
/// unsafe than even [`transmute_copy`][mem::transmute_copy]), and should only occur in the most
/// exceptional circumstances. Most Rust code just imports functions via `use`. `#[target_feature]`
/// is also used rarely. So, most likely you do not have to worry about ABI compatibility.
/// and code that imports functions via `extern` blocks. Altering the type of function pointers is
/// wildly unsafe (as in, a lot more unsafe than even [`transmute_copy`][mem::transmute_copy]), and
/// should only occur in the most exceptional circumstances. Most Rust code just imports functions
/// via `use`. So, most likely you do not have to worry about ABI compatibility.
///
/// But assuming such circumstances, what are the rules? For this section, we are only considering
/// the ABI of direct Rust-to-Rust calls (with both definition and callsite visible to the
@ -1762,9 +1761,8 @@ mod prim_ref {}
/// types from `core::ffi` or `libc`**.
///
/// For two signatures to be considered *ABI-compatible*, they must use a compatible ABI string,
/// must take the same number of arguments, the individual argument types and the return types must
/// be ABI-compatible, and the target feature requirements must be met (see the subsection below for
/// the last point). The ABI string is declared via `extern "ABI" fn(...) -> ...`; note that
/// must take the same number of arguments, and the individual argument types and the return types
/// must be ABI-compatible. The ABI string is declared via `extern "ABI" fn(...) -> ...`; note that
/// `fn name(...) -> ...` implicitly uses the `"Rust"` ABI string and `extern fn name(...) -> ...`
/// implicitly uses the `"C"` ABI string.
///
@ -1834,24 +1832,6 @@ mod prim_ref {}
/// Behavior since transmuting `None::<NonZero<i32>>` to `NonZero<i32>` violates the non-zero
/// requirement.
///
/// #### Requirements concerning target features
///
/// Under some conditions, the signature used by the caller and the callee can be ABI-incompatible
/// even if the exact same ABI string and types are being used. As an example, the
/// `std::arch::x86_64::__m256` type has a different `extern "C"` ABI when the `avx` feature is
/// enabled vs when it is not enabled.
///
/// Therefore, to ensure ABI compatibility when code using different target features is combined
/// (such as via `#[target_feature]`), we further require that one of the following conditions is
/// met:
///
/// - The function uses the `"Rust"` ABI string (which is the default without `extern`).
/// - Caller and callee are using the exact same set of target features. For the callee we consider
/// the features enabled (via `#[target_feature]` and `-C target-feature`/`-C target-cpu`) at the
/// declaration site; for the caller we consider the features enabled at the call site.
/// - Neither any argument nor the return value involves a SIMD type (`#[repr(simd)]`) that is not
/// behind a pointer indirection (i.e., `*mut __m256` is fine, but `(i32, __m256)` is not).
///
/// ### Trait implementations
///
/// In this documentation the shorthand `fn(T₁, T₂, …, Tₙ)` is used to represent non-variadic

15
tests/ui/impl-trait/precise-capturing/migration-note.rs
View File

@ -187,4 +187,19 @@ fn returned() -> impl Sized {
}
//~^ NOTE `x` dropped here while still borrowed
fn capture_apit(x: &impl Sized) -> impl Sized {}
//~^ NOTE you could use a `use<...>` bound to explicitly specify captures, but
fn test_apit() {
let x = String::new();
//~^ NOTE binding `x` declared here
let y = capture_apit(&x);
//~^ NOTE borrow of `x` occurs here
//~| NOTE this call may capture more lifetimes than intended
drop(x);
//~^ ERROR cannot move out of `x` because it is borrowed
//~| NOTE move out of `x` occurs here
}
//~^ NOTE borrow might be used here, when `y` is dropped
fn main() {}

58
tests/ui/impl-trait/precise-capturing/migration-note.stderr
View File

@ -30,7 +30,7 @@ note: this call may capture more lifetimes than intended, because Rust 2024 has
|
LL | let a = display_len(&x);
| ^^^^^^^^^^^^^^^
help: add a precise capturing bound to avoid overcapturing
help: use the precise capturing `use<...>` syntax to make the captures explicit
|
LL | fn display_len<T>(x: &Vec<T>) -> impl Display + use<T> {
| ++++++++
@ -55,7 +55,7 @@ note: this call may capture more lifetimes than intended, because Rust 2024 has
|
LL | let a = display_len(&x);
| ^^^^^^^^^^^^^^^
help: add a precise capturing bound to avoid overcapturing
help: use the precise capturing `use<...>` syntax to make the captures explicit
|
LL | fn display_len<T>(x: &Vec<T>) -> impl Display + use<T> {
| ++++++++
@ -80,7 +80,7 @@ note: this call may capture more lifetimes than intended, because Rust 2024 has
|
LL | let a = display_len(&x);
| ^^^^^^^^^^^^^^^
help: add a precise capturing bound to avoid overcapturing
help: use the precise capturing `use<...>` syntax to make the captures explicit
|
LL | fn display_len<T>(x: &Vec<T>) -> impl Display + use<T> {
| ++++++++
@ -106,7 +106,7 @@ note: this call may capture more lifetimes than intended, because Rust 2024 has
|
LL | let a = display_len_mut(&mut x);
| ^^^^^^^^^^^^^^^^^^^^^^^
help: add a precise capturing bound to avoid overcapturing
help: use the precise capturing `use<...>` syntax to make the captures explicit
|
LL | fn display_len_mut<T>(x: &mut Vec<T>) -> impl Display + use<T> {
| ++++++++
@ -131,7 +131,7 @@ note: this call may capture more lifetimes than intended, because Rust 2024 has
|
LL | let a = display_len_mut(&mut x);
| ^^^^^^^^^^^^^^^^^^^^^^^
help: add a precise capturing bound to avoid overcapturing
help: use the precise capturing `use<...>` syntax to make the captures explicit
|
LL | fn display_len_mut<T>(x: &mut Vec<T>) -> impl Display + use<T> {
| ++++++++
@ -156,7 +156,7 @@ note: this call may capture more lifetimes than intended, because Rust 2024 has
|
LL | let a = display_len_mut(&mut x);
| ^^^^^^^^^^^^^^^^^^^^^^^
help: add a precise capturing bound to avoid overcapturing
help: use the precise capturing `use<...>` syntax to make the captures explicit
|
LL | fn display_len_mut<T>(x: &mut Vec<T>) -> impl Display + use<T> {
| ++++++++
@ -182,7 +182,7 @@ note: this call may capture more lifetimes than intended, because Rust 2024 has
|
LL | let a = display_field(&s.f);
| ^^^^^^^^^^^^^^^^^^^
help: add a precise capturing bound to avoid overcapturing
help: use the precise capturing `use<...>` syntax to make the captures explicit
|
LL | fn display_field<T: Copy + Display>(t: &T) -> impl Display + use<T> {
| ++++++++
@ -204,7 +204,7 @@ note: this call may capture more lifetimes than intended, because Rust 2024 has
|
LL | let a = display_field(&mut s.f);
| ^^^^^^^^^^^^^^^^^^^^^^^
help: add a precise capturing bound to avoid overcapturing
help: use the precise capturing `use<...>` syntax to make the captures explicit
|
LL | fn display_field<T: Copy + Display>(t: &T) -> impl Display + use<T> {
| ++++++++
@ -226,7 +226,7 @@ note: this call may capture more lifetimes than intended, because Rust 2024 has
|
LL | let a = display_field(&mut s.f);
| ^^^^^^^^^^^^^^^^^^^^^^^
help: add a precise capturing bound to avoid overcapturing
help: use the precise capturing `use<...>` syntax to make the captures explicit
|
LL | fn display_field<T: Copy + Display>(t: &T) -> impl Display + use<T> {
| ++++++++
@ -252,7 +252,7 @@ note: this call may capture more lifetimes than intended, because Rust 2024 has
|
LL | x = display_len(&z.f);
| ^^^^^^^^^^^^^^^^^
help: add a precise capturing bound to avoid overcapturing
help: use the precise capturing `use<...>` syntax to make the captures explicit
|
LL | fn display_len<T>(x: &Vec<T>) -> impl Display + use<T> {
| ++++++++
@ -273,12 +273,46 @@ note: this call may capture more lifetimes than intended, because Rust 2024 has
LL | let x = { let x = display_len(&mut vec![0]); x };
| ^^^^^^^^^^^^^^^^^^^^^^^^^
= note: this error originates in the macro `vec` (in Nightly builds, run with -Z macro-backtrace for more info)
help: add a precise capturing bound to avoid overcapturing
help: use the precise capturing `use<...>` syntax to make the captures explicit
|
LL | fn display_len<T>(x: &Vec<T>) -> impl Display + use<T> {
| ++++++++
error: aborting due to 12 previous errors
error[E0505]: cannot move out of `x` because it is borrowed
--> $DIR/migration-note.rs:199:10
|
LL | let x = String::new();
| - binding `x` declared here
LL |
LL | let y = capture_apit(&x);
| -- borrow of `x` occurs here
...
LL | drop(x);
| ^ move out of `x` occurs here
...
LL | }
| - borrow might be used here, when `y` is dropped and runs the destructor for type `impl Sized`
|
note: this call may capture more lifetimes than intended, because Rust 2024 has adjusted the `impl Trait` lifetime capture rules
--> $DIR/migration-note.rs:196:13
|
LL | let y = capture_apit(&x);
| ^^^^^^^^^^^^^^^^
note: you could use a `use<...>` bound to explicitly specify captures, but argument-position `impl Trait`s are not nameable
--> $DIR/migration-note.rs:190:21
|
LL | fn capture_apit(x: &impl Sized) -> impl Sized {}
| ^^^^^^^^^^
help: use the precise capturing `use<...>` syntax to make the captures explicit
|
LL | fn capture_apit<T: Sized>(x: &T) -> impl Sized + use<T> {}
| ++++++++++ ~ ++++++++
help: consider cloning the value if the performance cost is acceptable
|
LL | let y = capture_apit(&x.clone());
| ++++++++
error: aborting due to 13 previous errors
Some errors have detailed explanations: E0499, E0502, E0503, E0505, E0506, E0597, E0716.
For more information about an error, try `rustc --explain E0499`.

8
tests/ui/impl-trait/precise-capturing/overcaptures-2024.fixed
View File

@ -29,4 +29,12 @@ fn hrtb() -> impl for<'a> Higher<'a, Output = impl Sized + use<>> {}
//~^ ERROR `impl Sized` will capture more lifetimes than possibly intended in edition 2024
//~| WARN this changes meaning in Rust 2024
fn apit<T: Sized>(_: &T) -> impl Sized + use<T> {}
//~^ ERROR `impl Sized` will capture more lifetimes than possibly intended in edition 2024
//~| WARN this changes meaning in Rust 2024
fn apit2<U, T: Sized>(_: &T, _: U) -> impl Sized + use<U, T> {}
//~^ ERROR `impl Sized` will capture more lifetimes than possibly intended in edition 2024
//~| WARN this changes meaning in Rust 2024
fn main() {}

8
tests/ui/impl-trait/precise-capturing/overcaptures-2024.rs
View File

@ -29,4 +29,12 @@ fn hrtb() -> impl for<'a> Higher<'a, Output = impl Sized> {}
//~^ ERROR `impl Sized` will capture more lifetimes than possibly intended in edition 2024
//~| WARN this changes meaning in Rust 2024
fn apit(_: &impl Sized) -> impl Sized {}
//~^ ERROR `impl Sized` will capture more lifetimes than possibly intended in edition 2024
//~| WARN this changes meaning in Rust 2024
fn apit2<U>(_: &impl Sized, _: U) -> impl Sized {}
//~^ ERROR `impl Sized` will capture more lifetimes than possibly intended in edition 2024
//~| WARN this changes meaning in Rust 2024
fn main() {}

50
tests/ui/impl-trait/precise-capturing/overcaptures-2024.stderr
View File

@ -79,5 +79,53 @@ help: use the precise capturing `use<...>` syntax to make the captures explicit
LL | fn hrtb() -> impl for<'a> Higher<'a, Output = impl Sized + use<>> {}
| +++++++
error: aborting due to 4 previous errors
error: `impl Sized` will capture more lifetimes than possibly intended in edition 2024
--> $DIR/overcaptures-2024.rs:32:28
|
LL | fn apit(_: &impl Sized) -> impl Sized {}
| ^^^^^^^^^^
|
= warning: this changes meaning in Rust 2024
= note: for more information, see <https://doc.rust-lang.org/nightly/edition-guide/rust-2024/rpit-lifetime-capture.html>
note: specifically, this lifetime is in scope but not mentioned in the type's bounds
--> $DIR/overcaptures-2024.rs:32:12
|
LL | fn apit(_: &impl Sized) -> impl Sized {}
| ^
= note: all lifetimes in scope will be captured by `impl Trait`s in edition 2024
note: you could use a `use<...>` bound to explicitly specify captures, but argument-position `impl Trait`s are not nameable
--> $DIR/overcaptures-2024.rs:32:13
|
LL | fn apit(_: &impl Sized) -> impl Sized {}
| ^^^^^^^^^^
help: use the precise capturing `use<...>` syntax to make the captures explicit
|
LL | fn apit<T: Sized>(_: &T) -> impl Sized + use<T> {}
| ++++++++++ ~ ++++++++
error: `impl Sized` will capture more lifetimes than possibly intended in edition 2024
--> $DIR/overcaptures-2024.rs:36:38
|
LL | fn apit2<U>(_: &impl Sized, _: U) -> impl Sized {}
| ^^^^^^^^^^
|
= warning: this changes meaning in Rust 2024
= note: for more information, see <https://doc.rust-lang.org/nightly/edition-guide/rust-2024/rpit-lifetime-capture.html>
note: specifically, this lifetime is in scope but not mentioned in the type's bounds
--> $DIR/overcaptures-2024.rs:36:16
|
LL | fn apit2<U>(_: &impl Sized, _: U) -> impl Sized {}
| ^
= note: all lifetimes in scope will be captured by `impl Trait`s in edition 2024
note: you could use a `use<...>` bound to explicitly specify captures, but argument-position `impl Trait`s are not nameable
--> $DIR/overcaptures-2024.rs:36:17
|
LL | fn apit2<U>(_: &impl Sized, _: U) -> impl Sized {}
| ^^^^^^^^^^
help: use the precise capturing `use<...>` syntax to make the captures explicit
|
LL | fn apit2<U, T: Sized>(_: &T, _: U) -> impl Sized + use<U, T> {}
| ++++++++++ ~ +++++++++++
error: aborting due to 6 previous errors