Auto merge of #103623 - matthiaskrgr:rollup-318yc1t, r=matthiaskrgr

Rollup of 9 pull requests

Successful merges:

 - #103035 (Even nicer errors from assert_unsafe_precondition)
 - #103106 (Try to say that memory outside the AM is always exposed)
 - #103475 (Make param index generation a bit more robust)
 - #103525 (Move a wf-check into the site where the value is instantiated)
 - #103564 (library: allow some unused things in Miri)
 - #103586 (Process registered region obligation in `resolve_regions_with_wf_tys`)
 - #103592 (rustdoc: remove redundant CSS selector `.notable-traits .notable`)
 - #103593 (Remove an unused parser function (`Expr::returns`))
 - #103611 (Add test for issue 103574)

Failed merges:

r? `@ghost`
`@rustbot` modify labels: rollup
This commit is contained in:
bors 2022-10-27 10:05:16 +00:00
commit 0da281b606
36 changed files with 431 additions and 140 deletions

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@ -1112,24 +1112,6 @@ pub struct Expr {
}
impl Expr {
/// Returns `true` if this expression would be valid somewhere that expects a value;
/// for example, an `if` condition.
pub fn returns(&self) -> bool {
if let ExprKind::Block(ref block, _) = self.kind {
match block.stmts.last().map(|last_stmt| &last_stmt.kind) {
// Implicit return
Some(StmtKind::Expr(_)) => true,
// Last statement is an explicit return?
Some(StmtKind::Semi(expr)) => matches!(expr.kind, ExprKind::Ret(_)),
// This is a block that doesn't end in either an implicit or explicit return.
_ => false,
}
} else {
// This is not a block, it is a value.
true
}
}
/// Is this expr either `N`, or `{ N }`.
///
/// If this is not the case, name resolution does not resolve `N` when using

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@ -137,3 +137,12 @@ hir_analysis_expected_used_symbol = expected `used`, `used(compiler)` or `used(l
hir_analysis_missing_parentheses_in_range = can't call method `{$method_name}` on type `{$ty_str}`
hir_analysis_add_missing_parentheses_in_range = you must surround the range in parentheses to call its `{$func_name}` function
hir_analysis_const_impl_for_non_const_trait =
const `impl` for trait `{$trait_name}` which is not marked with `#[const_trait]`
.suggestion = mark `{$trait_name}` as const
.note = marking a trait with `#[const_trait]` ensures all default method bodies are `const`
.adding = adding a non-const method body in the future would be a breaking change
hir_analysis_const_bound_for_non_const_trait =
~const can only be applied to `#[const_trait]` traits

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@ -36,7 +36,7 @@ use rustc_session::lint::builtin::{AMBIGUOUS_ASSOCIATED_ITEMS, BARE_TRAIT_OBJECT
use rustc_span::edition::Edition;
use rustc_span::lev_distance::find_best_match_for_name;
use rustc_span::symbol::{kw, Ident, Symbol};
use rustc_span::Span;
use rustc_span::{sym, Span};
use rustc_target::spec::abi;
use rustc_trait_selection::traits;
use rustc_trait_selection::traits::astconv_object_safety_violations;
@ -275,6 +275,7 @@ impl<'o, 'tcx> dyn AstConv<'tcx> + 'o {
item_segment.args(),
item_segment.infer_args,
None,
None,
);
if let Some(b) = item_segment.args().bindings.first() {
Self::prohibit_assoc_ty_binding(self.tcx(), b.span);
@ -324,6 +325,7 @@ impl<'o, 'tcx> dyn AstConv<'tcx> + 'o {
generic_args: &'a hir::GenericArgs<'_>,
infer_args: bool,
self_ty: Option<Ty<'tcx>>,
constness: Option<ty::BoundConstness>,
) -> (SubstsRef<'tcx>, GenericArgCountResult) {
// If the type is parameterized by this region, then replace this
// region with the current anon region binding (in other words,
@ -534,6 +536,12 @@ impl<'o, 'tcx> dyn AstConv<'tcx> + 'o {
&mut substs_ctx,
);
if let Some(ty::BoundConstness::ConstIfConst) = constness
&& generics.has_self && !tcx.has_attr(def_id, sym::const_trait)
{
tcx.sess.emit_err(crate::errors::ConstBoundForNonConstTrait { span } );
}
(substs, arg_count)
}
@ -601,6 +609,7 @@ impl<'o, 'tcx> dyn AstConv<'tcx> + 'o {
item_segment.args(),
item_segment.infer_args,
None,
None,
);
if let Some(b) = item_segment.args().bindings.first() {
@ -620,6 +629,7 @@ impl<'o, 'tcx> dyn AstConv<'tcx> + 'o {
&self,
trait_ref: &hir::TraitRef<'_>,
self_ty: Ty<'tcx>,
constness: ty::BoundConstness,
) -> ty::TraitRef<'tcx> {
self.prohibit_generics(trait_ref.path.segments.split_last().unwrap().1.iter(), |_| {});
@ -629,6 +639,7 @@ impl<'o, 'tcx> dyn AstConv<'tcx> + 'o {
self_ty,
trait_ref.path.segments.last().unwrap(),
true,
Some(constness),
)
}
@ -655,6 +666,7 @@ impl<'o, 'tcx> dyn AstConv<'tcx> + 'o {
args,
infer_args,
Some(self_ty),
Some(constness),
);
let tcx = self.tcx();
@ -680,6 +692,7 @@ impl<'o, 'tcx> dyn AstConv<'tcx> + 'o {
speculative,
&mut dup_bindings,
binding_span.unwrap_or(binding.span),
constness,
);
// Okay to ignore `Err` because of `ErrorGuaranteed` (see above).
}
@ -783,6 +796,7 @@ impl<'o, 'tcx> dyn AstConv<'tcx> + 'o {
self_ty: Ty<'tcx>,
trait_segment: &hir::PathSegment<'_>,
is_impl: bool,
constness: Option<ty::BoundConstness>,
) -> ty::TraitRef<'tcx> {
let (substs, _) = self.create_substs_for_ast_trait_ref(
span,
@ -790,6 +804,7 @@ impl<'o, 'tcx> dyn AstConv<'tcx> + 'o {
self_ty,
trait_segment,
is_impl,
constness,
);
if let Some(b) = trait_segment.args().bindings.first() {
Self::prohibit_assoc_ty_binding(self.tcx(), b.span);
@ -805,6 +820,7 @@ impl<'o, 'tcx> dyn AstConv<'tcx> + 'o {
self_ty: Ty<'tcx>,
trait_segment: &'a hir::PathSegment<'a>,
is_impl: bool,
constness: Option<ty::BoundConstness>,
) -> (SubstsRef<'tcx>, GenericArgCountResult) {
self.complain_about_internal_fn_trait(span, trait_def_id, trait_segment, is_impl);
@ -816,6 +832,7 @@ impl<'o, 'tcx> dyn AstConv<'tcx> + 'o {
trait_segment.args(),
trait_segment.infer_args,
Some(self_ty),
constness,
)
}
@ -1027,6 +1044,7 @@ impl<'o, 'tcx> dyn AstConv<'tcx> + 'o {
speculative: bool,
dup_bindings: &mut FxHashMap<DefId, Span>,
path_span: Span,
constness: ty::BoundConstness,
) -> Result<(), ErrorGuaranteed> {
// Given something like `U: SomeTrait<T = X>`, we want to produce a
// predicate like `<U as SomeTrait>::T = X`. This is somewhat
@ -1122,10 +1140,7 @@ impl<'o, 'tcx> dyn AstConv<'tcx> + 'o {
trait_ref.substs,
);
debug!(
"add_predicates_for_ast_type_binding: substs for trait-ref and assoc_item: {:?}",
substs_trait_ref_and_assoc_item
);
debug!(?substs_trait_ref_and_assoc_item);
ty::ProjectionTy {
item_def_id: assoc_item.def_id,
@ -1146,8 +1161,8 @@ impl<'o, 'tcx> dyn AstConv<'tcx> + 'o {
tcx.collect_constrained_late_bound_regions(&projection_ty);
let late_bound_in_ty =
tcx.collect_referenced_late_bound_regions(&trait_ref.rebind(ty));
debug!("late_bound_in_trait_ref = {:?}", late_bound_in_trait_ref);
debug!("late_bound_in_ty = {:?}", late_bound_in_ty);
debug!(?late_bound_in_trait_ref);
debug!(?late_bound_in_ty);
// FIXME: point at the type params that don't have appropriate lifetimes:
// struct S1<F: for<'a> Fn(&i32, &i32) -> &'a i32>(F);
@ -1648,6 +1663,7 @@ impl<'o, 'tcx> dyn AstConv<'tcx> + 'o {
// Checks that `bounds` contains exactly one element and reports appropriate
// errors otherwise.
#[instrument(level = "debug", skip(self, all_candidates, ty_param_name, is_equality), ret)]
fn one_bound_for_assoc_type<I>(
&self,
all_candidates: impl Fn() -> I,
@ -1677,10 +1693,10 @@ impl<'o, 'tcx> dyn AstConv<'tcx> + 'o {
return Err(reported);
}
};
debug!("one_bound_for_assoc_type: bound = {:?}", bound);
debug!(?bound);
if let Some(bound2) = next_cand {
debug!("one_bound_for_assoc_type: bound2 = {:?}", bound2);
debug!(?bound2);
let is_equality = is_equality();
let bounds = IntoIterator::into_iter([bound, bound2]).chain(matching_candidates);
@ -1776,6 +1792,7 @@ impl<'o, 'tcx> dyn AstConv<'tcx> + 'o {
// parameter or `Self`.
// NOTE: When this function starts resolving `Trait::AssocTy` successfully
// it should also start reporting the `BARE_TRAIT_OBJECTS` lint.
#[instrument(level = "debug", skip(self, hir_ref_id, span, qself, assoc_segment), fields(assoc_ident=?assoc_segment.ident), ret)]
pub fn associated_path_to_ty(
&self,
hir_ref_id: hir::HirId,
@ -1793,8 +1810,6 @@ impl<'o, 'tcx> dyn AstConv<'tcx> + 'o {
Res::Err
};
debug!("associated_path_to_ty: {:?}::{}", qself_ty, assoc_ident);
// Check if we have an enum variant.
let mut variant_resolution = None;
if let ty::Adt(adt_def, _) = qself_ty.kind() {
@ -2050,6 +2065,7 @@ impl<'o, 'tcx> dyn AstConv<'tcx> + 'o {
item_def_id: DefId,
trait_segment: &hir::PathSegment<'_>,
item_segment: &hir::PathSegment<'_>,
constness: ty::BoundConstness,
) -> Ty<'tcx> {
let tcx = self.tcx();
@ -2094,8 +2110,14 @@ impl<'o, 'tcx> dyn AstConv<'tcx> + 'o {
debug!("qpath_to_ty: self_type={:?}", self_ty);
let trait_ref =
self.ast_path_to_mono_trait_ref(span, trait_def_id, self_ty, trait_segment, false);
let trait_ref = self.ast_path_to_mono_trait_ref(
span,
trait_def_id,
self_ty,
trait_segment,
false,
Some(constness),
);
let item_substs = self.create_substs_for_associated_item(
span,
@ -2534,12 +2556,19 @@ impl<'o, 'tcx> dyn AstConv<'tcx> + 'o {
Res::Def(DefKind::AssocTy, def_id) => {
debug_assert!(path.segments.len() >= 2);
self.prohibit_generics(path.segments[..path.segments.len() - 2].iter(), |_| {});
// HACK: until we support `<Type as ~const Trait>`, assume all of them are.
let constness = if tcx.has_attr(tcx.parent(def_id), sym::const_trait) {
ty::BoundConstness::ConstIfConst
} else {
ty::BoundConstness::NotConst
};
self.qpath_to_ty(
span,
opt_self_ty,
def_id,
&path.segments[path.segments.len() - 2],
path.segments.last().unwrap(),
constness,
)
}
Res::PrimTy(prim_ty) => {
@ -2658,6 +2687,7 @@ impl<'o, 'tcx> dyn AstConv<'tcx> + 'o {
&GenericArgs::none(),
true,
None,
None,
);
EarlyBinder(self.normalize_ty(span, tcx.at(span).type_of(def_id)))
.subst(tcx, substs)
@ -2766,6 +2796,7 @@ impl<'o, 'tcx> dyn AstConv<'tcx> + 'o {
}
}
#[instrument(level = "debug", skip(self, hir_id, unsafety, abi, decl, generics, hir_ty), ret)]
pub fn ty_of_fn(
&self,
hir_id: hir::HirId,
@ -2775,8 +2806,6 @@ impl<'o, 'tcx> dyn AstConv<'tcx> + 'o {
generics: Option<&hir::Generics<'_>>,
hir_ty: Option<&hir::Ty<'_>>,
) -> ty::PolyFnSig<'tcx> {
debug!("ty_of_fn");
let tcx = self.tcx();
let bound_vars = tcx.late_bound_vars(hir_id);
debug!(?bound_vars);
@ -2826,7 +2855,7 @@ impl<'o, 'tcx> dyn AstConv<'tcx> + 'o {
hir::FnRetTy::DefaultReturn(..) => tcx.mk_unit(),
};
debug!("ty_of_fn: output_ty={:?}", output_ty);
debug!(?output_ty);
let fn_ty = tcx.mk_fn_sig(input_tys.into_iter(), output_ty, decl.c_variadic, unsafety, abi);
let bare_fn_ty = ty::Binder::bind_with_vars(fn_ty, bound_vars);
@ -2903,8 +2932,11 @@ impl<'o, 'tcx> dyn AstConv<'tcx> + 'o {
let hir::Node::Item(hir::Item { kind: hir::ItemKind::Impl(i), .. }) =
hir.get(hir.get_parent_node(fn_hir_id)) else { bug!("ImplItem should have Impl parent") };
let trait_ref =
self.instantiate_mono_trait_ref(i.of_trait.as_ref()?, self.ast_ty_to_ty(i.self_ty));
let trait_ref = self.instantiate_mono_trait_ref(
i.of_trait.as_ref()?,
self.ast_ty_to_ty(i.self_ty),
ty::BoundConstness::NotConst,
);
let assoc = tcx.associated_items(trait_ref.def_id).find_by_name_and_kind(
tcx,

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@ -713,6 +713,10 @@ fn resolve_regions_with_wf_tys<'tcx>(
add_constraints(&infcx, region_bound_pairs);
infcx.process_registered_region_obligations(
outlives_environment.region_bound_pairs(),
param_env,
);
let errors = infcx.resolve_regions(&outlives_environment);
debug!(?errors, "errors");

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@ -1143,7 +1143,7 @@ fn fn_sig(tcx: TyCtxt<'_>, def_id: DefId) -> ty::PolyFnSig<'_> {
}
ImplItem(hir::ImplItem { kind: ImplItemKind::Fn(sig, _), generics, .. }) => {
// Do not try to inference the return type for a impl method coming from a trait
// Do not try to infer the return type for a impl method coming from a trait
if let Item(hir::Item { kind: ItemKind::Impl(i), .. }) =
tcx.hir().get(tcx.hir().get_parent_node(hir_id))
&& i.of_trait.is_some()
@ -1286,15 +1286,46 @@ fn infer_return_ty_for_fn_sig<'tcx>(
fn impl_trait_ref(tcx: TyCtxt<'_>, def_id: DefId) -> Option<ty::TraitRef<'_>> {
let icx = ItemCtxt::new(tcx, def_id);
match tcx.hir().expect_item(def_id.expect_local()).kind {
let item = tcx.hir().expect_item(def_id.expect_local());
match item.kind {
hir::ItemKind::Impl(ref impl_) => impl_.of_trait.as_ref().map(|ast_trait_ref| {
let selfty = tcx.type_of(def_id);
<dyn AstConv<'_>>::instantiate_mono_trait_ref(&icx, ast_trait_ref, selfty)
<dyn AstConv<'_>>::instantiate_mono_trait_ref(
&icx,
ast_trait_ref,
selfty,
check_impl_constness(tcx, impl_.constness, ast_trait_ref),
)
}),
_ => bug!(),
}
}
fn check_impl_constness(
tcx: TyCtxt<'_>,
constness: hir::Constness,
ast_trait_ref: &hir::TraitRef<'_>,
) -> ty::BoundConstness {
match constness {
hir::Constness::Const => {
if let Some(trait_def_id) = ast_trait_ref.trait_def_id() && !tcx.has_attr(trait_def_id, sym::const_trait) {
let trait_name = tcx.item_name(trait_def_id).to_string();
tcx.sess.emit_err(errors::ConstImplForNonConstTrait {
trait_ref_span: ast_trait_ref.path.span,
trait_name,
local_trait_span: trait_def_id.as_local().map(|_| tcx.def_span(trait_def_id).shrink_to_lo()),
marking: (),
adding: (),
});
ty::BoundConstness::NotConst
} else {
ty::BoundConstness::ConstIfConst
}
},
hir::Constness::NotConst => ty::BoundConstness::NotConst,
}
}
fn impl_polarity(tcx: TyCtxt<'_>, def_id: DefId) -> ty::ImplPolarity {
let is_rustc_reservation = tcx.has_attr(def_id, sym::rustc_reservation_impl);
let item = tcx.hir().expect_item(def_id.expect_local());

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@ -249,6 +249,11 @@ pub(super) fn generics_of(tcx: TyCtxt<'_>, def_id: DefId) -> ty::Generics {
// Now create the real type and const parameters.
let type_start = own_start - has_self as u32 + params.len() as u32;
let mut i = 0;
let mut next_index = || {
let prev = i;
i += 1;
prev as u32 + type_start
};
const TYPE_DEFAULT_NOT_ALLOWED: &'static str = "defaults for type parameters are only allowed in \
`struct`, `enum`, `type`, or `trait` definitions";
@ -278,15 +283,13 @@ pub(super) fn generics_of(tcx: TyCtxt<'_>, def_id: DefId) -> ty::Generics {
let kind = ty::GenericParamDefKind::Type { has_default: default.is_some(), synthetic };
let param_def = ty::GenericParamDef {
index: type_start + i as u32,
Some(ty::GenericParamDef {
index: next_index(),
name: param.name.ident().name,
def_id: tcx.hir().local_def_id(param.hir_id).to_def_id(),
pure_wrt_drop: param.pure_wrt_drop,
kind,
};
i += 1;
Some(param_def)
})
}
GenericParamKind::Const { default, .. } => {
if !matches!(allow_defaults, Defaults::Allowed) && default.is_some() {
@ -297,15 +300,13 @@ pub(super) fn generics_of(tcx: TyCtxt<'_>, def_id: DefId) -> ty::Generics {
);
}
let param_def = ty::GenericParamDef {
index: type_start + i as u32,
Some(ty::GenericParamDef {
index: next_index(),
name: param.name.ident().name,
def_id: tcx.hir().local_def_id(param.hir_id).to_def_id(),
pure_wrt_drop: param.pure_wrt_drop,
kind: ty::GenericParamDefKind::Const { has_default: default.is_some() },
};
i += 1;
Some(param_def)
})
}
}));
@ -323,8 +324,8 @@ pub(super) fn generics_of(tcx: TyCtxt<'_>, def_id: DefId) -> ty::Generics {
&["<closure_kind>", "<closure_signature>", "<upvars>"][..]
};
params.extend(dummy_args.iter().enumerate().map(|(i, &arg)| ty::GenericParamDef {
index: type_start + i as u32,
params.extend(dummy_args.iter().map(|&arg| ty::GenericParamDef {
index: next_index(),
name: Symbol::intern(arg),
def_id,
pure_wrt_drop: false,
@ -337,7 +338,7 @@ pub(super) fn generics_of(tcx: TyCtxt<'_>, def_id: DefId) -> ty::Generics {
let parent_node = tcx.hir().get(tcx.hir().get_parent_node(hir_id));
if let Node::Expr(&Expr { kind: ExprKind::ConstBlock(_), .. }) = parent_node {
params.push(ty::GenericParamDef {
index: type_start,
index: next_index(),
name: Symbol::intern("<const_ty>"),
def_id,
pure_wrt_drop: false,

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@ -249,3 +249,24 @@ pub struct ExpectedUsedSymbol {
#[primary_span]
pub span: Span,
}
#[derive(Diagnostic)]
#[diag(hir_analysis_const_impl_for_non_const_trait)]
pub struct ConstImplForNonConstTrait {
#[primary_span]
pub trait_ref_span: Span,
pub trait_name: String,
#[suggestion(applicability = "machine-applicable", code = "#[const_trait]")]
pub local_trait_span: Option<Span>,
#[note]
pub marking: (),
#[note(adding)]
pub adding: (),
}
#[derive(Diagnostic)]
#[diag(hir_analysis_const_bound_for_non_const_trait)]
pub struct ConstBoundForNonConstTrait {
#[primary_span]
pub span: Span,
}

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@ -303,32 +303,6 @@ impl<'tcx> WfPredicates<'tcx> {
let obligations = if trait_pred.constness == ty::BoundConstness::NotConst {
self.nominal_obligations_without_const(trait_ref.def_id, trait_ref.substs)
} else {
if !tcx.has_attr(trait_ref.def_id, rustc_span::sym::const_trait) {
if let Some(item) = self.item &&
let hir::ItemKind::Impl(impl_) = item.kind &&
let Some(trait_) = &impl_.of_trait &&
let Some(def_id) = trait_.trait_def_id() &&
def_id == trait_ref.def_id
{
let trait_name = tcx.item_name(def_id);
let mut err = tcx.sess.struct_span_err(
self.span,
&format!("const `impl` for trait `{trait_name}` which is not marked with `#[const_trait]`"),
);
if def_id.is_local() {
let sp = tcx.def_span(def_id).shrink_to_lo();
err.span_suggestion(sp, &format!("mark `{trait_name}` as const"), "#[const_trait]", rustc_errors::Applicability::MachineApplicable);
}
err.note("marking a trait with `#[const_trait]` ensures all default method bodies are `const`");
err.note("adding a non-const method body in the future would be a breaking change");
err.emit();
} else {
tcx.sess.span_err(
self.span,
"~const can only be applied to `#[const_trait]` traits",
);
}
}
self.nominal_obligations(trait_ref.def_id, trait_ref.substs)
};

View File

@ -101,7 +101,7 @@ pub const unsafe fn unreachable_unchecked() -> ! {
// SAFETY: the safety contract for `intrinsics::unreachable` must
// be upheld by the caller.
unsafe {
intrinsics::assert_unsafe_precondition!(() => false);
intrinsics::assert_unsafe_precondition!("hint::unreachable_unchecked must never be reached", () => false);
intrinsics::unreachable()
}
}

View File

@ -2203,7 +2203,7 @@ extern "rust-intrinsic" {
/// the occasional mistake, and this check should help them figure things out.
#[allow_internal_unstable(const_eval_select)] // permit this to be called in stably-const fn
macro_rules! assert_unsafe_precondition {
($([$($tt:tt)*])?($($i:ident:$ty:ty),*$(,)?) => $e:expr) => {
($name:expr, $([$($tt:tt)*])?($($i:ident:$ty:ty),*$(,)?) => $e:expr) => {
if cfg!(debug_assertions) {
// allow non_snake_case to allow capturing const generics
#[allow(non_snake_case)]
@ -2211,7 +2211,9 @@ macro_rules! assert_unsafe_precondition {
fn runtime$(<$($tt)*>)?($($i:$ty),*) {
if !$e {
// don't unwind to reduce impact on code size
::core::panicking::panic_str_nounwind("unsafe precondition violated");
::core::panicking::panic_str_nounwind(
concat!("unsafe precondition(s) violated: ", $name)
);
}
}
#[allow(non_snake_case)]
@ -2350,7 +2352,10 @@ pub const unsafe fn copy_nonoverlapping<T>(src: *const T, dst: *mut T, count: us
// SAFETY: the safety contract for `copy_nonoverlapping` must be
// upheld by the caller.
unsafe {
assert_unsafe_precondition!([T](src: *const T, dst: *mut T, count: usize) =>
assert_unsafe_precondition!(
"ptr::copy_nonoverlapping requires that both pointer arguments are aligned and non-null \
and the specified memory ranges do not overlap",
[T](src: *const T, dst: *mut T, count: usize) =>
is_aligned_and_not_null(src)
&& is_aligned_and_not_null(dst)
&& is_nonoverlapping(src, dst, count)
@ -2436,8 +2441,11 @@ pub const unsafe fn copy<T>(src: *const T, dst: *mut T, count: usize) {
// SAFETY: the safety contract for `copy` must be upheld by the caller.
unsafe {
assert_unsafe_precondition!([T](src: *const T, dst: *mut T) =>
is_aligned_and_not_null(src) && is_aligned_and_not_null(dst));
assert_unsafe_precondition!(
"ptr::copy requires that both pointer arguments are aligned aligned and non-null",
[T](src: *const T, dst: *mut T) =>
is_aligned_and_not_null(src) && is_aligned_and_not_null(dst)
);
copy(src, dst, count)
}
}
@ -2505,7 +2513,10 @@ pub const unsafe fn write_bytes<T>(dst: *mut T, val: u8, count: usize) {
// SAFETY: the safety contract for `write_bytes` must be upheld by the caller.
unsafe {
assert_unsafe_precondition!([T](dst: *mut T) => is_aligned_and_not_null(dst));
assert_unsafe_precondition!(
"ptr::write_bytes requires that the destination pointer is aligned and non-null",
[T](dst: *mut T) => is_aligned_and_not_null(dst)
);
write_bytes(dst, val, count)
}
}

View File

@ -56,7 +56,10 @@ macro_rules! nonzero_integers {
pub const unsafe fn new_unchecked(n: $Int) -> Self {
// SAFETY: this is guaranteed to be safe by the caller.
unsafe {
core::intrinsics::assert_unsafe_precondition!((n: $Int) => n != 0);
core::intrinsics::assert_unsafe_precondition!(
concat!(stringify!($Ty), "::new_unchecked requires a non-zero argument"),
(n: $Int) => n != 0
);
Self(n)
}
}

View File

@ -19,7 +19,12 @@ impl IndexRange {
#[inline]
pub const unsafe fn new_unchecked(start: usize, end: usize) -> Self {
// SAFETY: comparisons on usize are pure
unsafe { assert_unsafe_precondition!((start: usize, end: usize) => start <= end) };
unsafe {
assert_unsafe_precondition!(
"IndexRange::new_unchecked requires `start <= end`",
(start: usize, end: usize) => start <= end
)
};
IndexRange { start, end }
}

View File

@ -76,7 +76,12 @@ impl Alignment {
#[inline]
pub const unsafe fn new_unchecked(align: usize) -> Self {
// SAFETY: Precondition passed to the caller.
unsafe { assert_unsafe_precondition!((align: usize) => align.is_power_of_two()) };
unsafe {
assert_unsafe_precondition!(
"Alignment::new_unchecked requires a power of two",
(align: usize) => align.is_power_of_two()
)
};
// SAFETY: By precondition, this must be a power of two, and
// our variants encompass all possible powers of two.

View File

@ -761,7 +761,10 @@ impl<T: ?Sized> *const T {
// SAFETY: The comparison has no side-effects, and the intrinsic
// does this check internally in the CTFE implementation.
unsafe {
assert_unsafe_precondition!([T](this: *const T, origin: *const T) => this >= origin)
assert_unsafe_precondition!(
"ptr::sub_ptr requires `this >= origin`",
[T](this: *const T, origin: *const T) => this >= origin
)
};
let pointee_size = mem::size_of::<T>();

View File

@ -581,12 +581,21 @@ pub const fn invalid_mut<T>(addr: usize) -> *mut T {
/// Convert an address back to a pointer, picking up a previously 'exposed' provenance.
///
/// This is equivalent to `addr as *const T`. The provenance of the returned pointer is that of *any*
/// pointer that was previously passed to [`expose_addr`][pointer::expose_addr] or a `ptr as usize`
/// cast. If there is no previously 'exposed' provenance that justifies the way this pointer will be
/// used, the program has undefined behavior. Note that there is no algorithm that decides which
/// provenance will be used. You can think of this as "guessing" the right provenance, and the guess
/// will be "maximally in your favor", in the sense that if there is any way to avoid undefined
/// behavior, then that is the guess that will be taken.
/// pointer that was previously exposed by passing it to [`expose_addr`][pointer::expose_addr],
/// or a `ptr as usize` cast. In addition, memory which is outside the control of the Rust abstract
/// machine (MMIO registers, for example) is always considered to be exposed, so long as this memory
/// is disjoint from memory that will be used by the abstract machine such as the stack, heap,
/// and statics.
///
/// If there is no 'exposed' provenance that justifies the way this pointer will be used,
/// the program has undefined behavior. In particular, the aliasing rules still apply: pointers
/// and references that have been invalidated due to aliasing accesses cannot be used any more,
/// even if they have been exposed!
///
/// Note that there is no algorithm that decides which provenance will be used. You can think of this
/// as "guessing" the right provenance, and the guess will be "maximally in your favor", in the sense
/// that if there is any way to avoid undefined behavior (while upholding all aliasing requirements),
/// then that is the guess that will be taken.
///
/// On platforms with multiple address spaces, it is your responsibility to ensure that the
/// address makes sense in the address space that this pointer will be used with.
@ -889,7 +898,10 @@ pub const unsafe fn swap_nonoverlapping<T>(x: *mut T, y: *mut T, count: usize) {
// SAFETY: the caller must guarantee that `x` and `y` are
// valid for writes and properly aligned.
unsafe {
assert_unsafe_precondition!([T](x: *mut T, y: *mut T, count: usize) =>
assert_unsafe_precondition!(
"ptr::swap_nonoverlapping requires that both pointer arguments are aligned and non-null \
and the specified memory ranges do not overlap",
[T](x: *mut T, y: *mut T, count: usize) =>
is_aligned_and_not_null(x)
&& is_aligned_and_not_null(y)
&& is_nonoverlapping(x, y, count)
@ -986,7 +998,10 @@ pub const unsafe fn replace<T>(dst: *mut T, mut src: T) -> T {
// and cannot overlap `src` since `dst` must point to a distinct
// allocated object.
unsafe {
assert_unsafe_precondition!([T](dst: *mut T) => is_aligned_and_not_null(dst));
assert_unsafe_precondition!(
"ptr::replace requires that the pointer argument is aligned and non-null",
[T](dst: *mut T) => is_aligned_and_not_null(dst)
);
mem::swap(&mut *dst, &mut src); // cannot overlap
}
src
@ -1117,7 +1132,10 @@ pub const unsafe fn read<T>(src: *const T) -> T {
// Also, since we just wrote a valid value into `tmp`, it is guaranteed
// to be properly initialized.
unsafe {
assert_unsafe_precondition!([T](src: *const T) => is_aligned_and_not_null(src));
assert_unsafe_precondition!(
"ptr::read requires that the pointer argument is aligned and non-null",
[T](src: *const T) => is_aligned_and_not_null(src)
);
copy_nonoverlapping(src, tmp.as_mut_ptr(), 1);
tmp.assume_init()
}
@ -1311,7 +1329,10 @@ pub const unsafe fn write<T>(dst: *mut T, src: T) {
// `dst` cannot overlap `src` because the caller has mutable access
// to `dst` while `src` is owned by this function.
unsafe {
assert_unsafe_precondition!([T](dst: *mut T) => is_aligned_and_not_null(dst));
assert_unsafe_precondition!(
"ptr::write requires that the pointer argument is aligned and non-null",
[T](dst: *mut T) => is_aligned_and_not_null(dst)
);
copy_nonoverlapping(&src as *const T, dst, 1);
intrinsics::forget(src);
}
@ -1475,7 +1496,10 @@ pub const unsafe fn write_unaligned<T>(dst: *mut T, src: T) {
pub unsafe fn read_volatile<T>(src: *const T) -> T {
// SAFETY: the caller must uphold the safety contract for `volatile_load`.
unsafe {
assert_unsafe_precondition!([T](src: *const T) => is_aligned_and_not_null(src));
assert_unsafe_precondition!(
"ptr::read_volatile requires that the pointer argument is aligned and non-null",
[T](src: *const T) => is_aligned_and_not_null(src)
);
intrinsics::volatile_load(src)
}
}
@ -1546,7 +1570,10 @@ pub unsafe fn read_volatile<T>(src: *const T) -> T {
pub unsafe fn write_volatile<T>(dst: *mut T, src: T) {
// SAFETY: the caller must uphold the safety contract for `volatile_store`.
unsafe {
assert_unsafe_precondition!([T](dst: *mut T) => is_aligned_and_not_null(dst));
assert_unsafe_precondition!(
"ptr::write_volatile requires that the pointer argument is aligned and non-null",
[T](dst: *mut T) => is_aligned_and_not_null(dst)
);
intrinsics::volatile_store(dst, src);
}
}

View File

@ -197,7 +197,7 @@ impl<T: ?Sized> NonNull<T> {
pub const unsafe fn new_unchecked(ptr: *mut T) -> Self {
// SAFETY: the caller must guarantee that `ptr` is non-null.
unsafe {
assert_unsafe_precondition!([T: ?Sized](ptr: *mut T) => !ptr.is_null());
assert_unsafe_precondition!("NonNull::new_unchecked requires that the pointer is non-null", [T: ?Sized](ptr: *mut T) => !ptr.is_null());
NonNull { pointer: ptr as _ }
}
}

View File

@ -232,7 +232,10 @@ unsafe impl<T> const SliceIndex<[T]> for usize {
// `self` is in bounds of `slice` so `self` cannot overflow an `isize`,
// so the call to `add` is safe.
unsafe {
assert_unsafe_precondition!([T](this: usize, slice: *const [T]) => this < slice.len());
assert_unsafe_precondition!(
"slice::get_unchecked requires that the index is within the slice",
[T](this: usize, slice: *const [T]) => this < slice.len()
);
slice.as_ptr().add(self)
}
}
@ -242,7 +245,10 @@ unsafe impl<T> const SliceIndex<[T]> for usize {
let this = self;
// SAFETY: see comments for `get_unchecked` above.
unsafe {
assert_unsafe_precondition!([T](this: usize, slice: *mut [T]) => this < slice.len());
assert_unsafe_precondition!(
"slice::get_unchecked_mut requires that the index is within the slice",
[T](this: usize, slice: *mut [T]) => this < slice.len()
);
slice.as_mut_ptr().add(self)
}
}
@ -295,8 +301,10 @@ unsafe impl<T> const SliceIndex<[T]> for ops::IndexRange {
// so the call to `add` is safe.
unsafe {
assert_unsafe_precondition!([T](end: usize, slice: *const [T]) =>
end <= slice.len());
assert_unsafe_precondition!(
"slice::get_unchecked requires that the index is within the slice",
[T](end: usize, slice: *const [T]) => end <= slice.len()
);
ptr::slice_from_raw_parts(slice.as_ptr().add(self.start()), self.len())
}
}
@ -306,8 +314,10 @@ unsafe impl<T> const SliceIndex<[T]> for ops::IndexRange {
let end = self.end();
// SAFETY: see comments for `get_unchecked` above.
unsafe {
assert_unsafe_precondition!([T](end: usize, slice: *mut [T]) =>
end <= slice.len());
assert_unsafe_precondition!(
"slice::get_unchecked_mut requires that the index is within the slice",
[T](end: usize, slice: *mut [T]) => end <= slice.len()
);
ptr::slice_from_raw_parts_mut(slice.as_mut_ptr().add(self.start()), self.len())
}
}
@ -367,8 +377,11 @@ unsafe impl<T> const SliceIndex<[T]> for ops::Range<usize> {
// so the call to `add` is safe.
unsafe {
assert_unsafe_precondition!([T](this: ops::Range<usize>, slice: *const [T]) =>
this.end >= this.start && this.end <= slice.len());
assert_unsafe_precondition!(
"slice::get_unchecked requires that the range is within the slice",
[T](this: ops::Range<usize>, slice: *const [T]) =>
this.end >= this.start && this.end <= slice.len()
);
ptr::slice_from_raw_parts(slice.as_ptr().add(self.start), self.end - self.start)
}
}
@ -378,8 +391,11 @@ unsafe impl<T> const SliceIndex<[T]> for ops::Range<usize> {
let this = ops::Range { start: self.start, end: self.end };
// SAFETY: see comments for `get_unchecked` above.
unsafe {
assert_unsafe_precondition!([T](this: ops::Range<usize>, slice: *mut [T]) =>
this.end >= this.start && this.end <= slice.len());
assert_unsafe_precondition!(
"slice::get_unchecked_mut requires that the range is within the slice",
[T](this: ops::Range<usize>, slice: *mut [T]) =>
this.end >= this.start && this.end <= slice.len()
);
ptr::slice_from_raw_parts_mut(slice.as_mut_ptr().add(self.start), self.end - self.start)
}
}

View File

@ -653,7 +653,10 @@ impl<T> [T] {
let ptr = this.as_mut_ptr();
// SAFETY: caller has to guarantee that `a < self.len()` and `b < self.len()`
unsafe {
assert_unsafe_precondition!([T](a: usize, b: usize, this: &mut [T]) => a < this.len() && b < this.len());
assert_unsafe_precondition!(
"slice::swap_unchecked requires that the indices are within the slice",
[T](a: usize, b: usize, this: &mut [T]) => a < this.len() && b < this.len()
);
ptr::swap(ptr.add(a), ptr.add(b));
}
}
@ -969,7 +972,10 @@ impl<T> [T] {
let this = self;
// SAFETY: Caller must guarantee that `N` is nonzero and exactly divides the slice length
let new_len = unsafe {
assert_unsafe_precondition!([T](this: &[T], N: usize) => N != 0 && this.len() % N == 0);
assert_unsafe_precondition!(
"slice::as_chunks_unchecked requires `N != 0` and the slice to split exactly into `N`-element chunks",
[T](this: &[T], N: usize) => N != 0 && this.len() % N == 0
);
exact_div(self.len(), N)
};
// SAFETY: We cast a slice of `new_len * N` elements into
@ -1109,7 +1115,10 @@ impl<T> [T] {
let this = &*self;
// SAFETY: Caller must guarantee that `N` is nonzero and exactly divides the slice length
let new_len = unsafe {
assert_unsafe_precondition!([T](this: &[T], N: usize) => N != 0 && this.len() % N == 0);
assert_unsafe_precondition!(
"slice::as_chunks_unchecked_mut requires `N != 0` and the slice to split exactly into `N`-element chunks",
[T](this: &[T], N: usize) => N != 0 && this.len() % N == 0
);
exact_div(this.len(), N)
};
// SAFETY: We cast a slice of `new_len * N` elements into
@ -1685,7 +1694,10 @@ impl<T> [T] {
// `[ptr; mid]` and `[mid; len]` are not overlapping, so returning a mutable reference
// is fine.
unsafe {
assert_unsafe_precondition!((mid: usize, len: usize) => mid <= len);
assert_unsafe_precondition!(
"slice::split_at_mut_unchecked requires the index to be within the slice",
(mid: usize, len: usize) => mid <= len
);
(from_raw_parts_mut(ptr, mid), from_raw_parts_mut(ptr.add(mid), len - mid))
}
}

View File

@ -92,8 +92,10 @@ use crate::ptr;
pub const unsafe fn from_raw_parts<'a, T>(data: *const T, len: usize) -> &'a [T] {
// SAFETY: the caller must uphold the safety contract for `from_raw_parts`.
unsafe {
assert_unsafe_precondition!([T](data: *const T, len: usize) =>
is_aligned_and_not_null(data) && is_valid_allocation_size::<T>(len)
assert_unsafe_precondition!(
"slice::from_raw_parts requires the pointer to be aligned and non-null, and the total size of the slice not to exceed `isize::MAX`",
[T](data: *const T, len: usize) => is_aligned_and_not_null(data)
&& is_valid_allocation_size::<T>(len)
);
&*ptr::slice_from_raw_parts(data, len)
}
@ -135,8 +137,10 @@ pub const unsafe fn from_raw_parts<'a, T>(data: *const T, len: usize) -> &'a [T]
pub const unsafe fn from_raw_parts_mut<'a, T>(data: *mut T, len: usize) -> &'a mut [T] {
// SAFETY: the caller must uphold the safety contract for `from_raw_parts_mut`.
unsafe {
assert_unsafe_precondition!([T](data: *mut T, len: usize) =>
is_aligned_and_not_null(data) && is_valid_allocation_size::<T>(len)
assert_unsafe_precondition!(
"slice::from_raw_parts_mut requires the pointer to be aligned and non-null, and the total size of the slice not to exceed `isize::MAX`",
[T](data: *mut T, len: usize) => is_aligned_and_not_null(data)
&& is_valid_allocation_size::<T>(len)
);
&mut *ptr::slice_from_raw_parts_mut(data, len)
}

View File

@ -1,3 +1,6 @@
// miri has some special hacks here that make things unused.
#![cfg_attr(miri, allow(unused))]
use crate::os::unix::prelude::*;
use crate::ffi::{CStr, OsStr, OsString};
@ -850,7 +853,6 @@ impl DirEntry {
target_os = "fuchsia",
target_os = "redox"
)))]
#[cfg_attr(miri, allow(unused))]
fn name_cstr(&self) -> &CStr {
unsafe { CStr::from_ptr(self.entry.d_name.as_ptr()) }
}
@ -862,7 +864,6 @@ impl DirEntry {
target_os = "fuchsia",
target_os = "redox"
))]
#[cfg_attr(miri, allow(unused))]
fn name_cstr(&self) -> &CStr {
&self.name
}

View File

@ -20,6 +20,7 @@
#![feature(is_terminal)]
#![feature(staged_api)]
#![feature(process_exitcode_internals)]
#![feature(panic_can_unwind)]
#![feature(test)]
// Public reexports
@ -54,6 +55,7 @@ use std::{
collections::VecDeque,
env, io,
io::prelude::Write,
mem::ManuallyDrop,
panic::{self, catch_unwind, AssertUnwindSafe, PanicInfo},
process::{self, Command, Termination},
sync::mpsc::{channel, Sender},
@ -112,6 +114,29 @@ pub fn test_main(args: &[String], tests: Vec<TestDescAndFn>, options: Option<Opt
process::exit(ERROR_EXIT_CODE);
}
} else {
if !opts.nocapture {
// If we encounter a non-unwinding panic, flush any captured output from the current test,
// and stop capturing output to ensure that the non-unwinding panic message is visible.
// We also acquire the locks for both output streams to prevent output from other threads
// from interleaving with the panic message or appearing after it.
let builtin_panic_hook = panic::take_hook();
let hook = Box::new({
move |info: &'_ PanicInfo<'_>| {
if !info.can_unwind() {
std::mem::forget(std::io::stderr().lock());
let mut stdout = ManuallyDrop::new(std::io::stdout().lock());
if let Some(captured) = io::set_output_capture(None) {
if let Ok(data) = captured.lock() {
let _ = stdout.write_all(&data);
let _ = stdout.flush();
}
}
}
builtin_panic_hook(info);
}
});
panic::set_hook(hook);
}
match console::run_tests_console(&opts, tests) {
Ok(true) => {}
Ok(false) => process::exit(ERROR_EXIT_CODE),

View File

@ -1293,7 +1293,7 @@ h3.variant {
content: "\00a0\00a0\00a0";
}
.notable-traits .notable, .notable-traits .docblock {
.notable-traits .docblock {
margin: 0;
}

View File

@ -24,7 +24,23 @@ assert-position: (
"//*[@id='method.create_an_iterator_from_read']//*[@class='notable-traits']",
{"x": 951},
)
// The tooltip should be beside the `i`
click: "//*[@id='method.create_an_iterator_from_read']//*[@class='notable-traits']"
compare-elements-position-near: (
"//*[@id='method.create_an_iterator_from_read']//*[@class='notable-traits']",
"//*[@id='method.create_an_iterator_from_read']//*[@class='notable-traits-tooltiptext force-tooltip']",
{"y": 2}
)
compare-elements-position-false: (
"//*[@id='method.create_an_iterator_from_read']//*[@class='notable-traits']",
"//*[@id='method.create_an_iterator_from_read']//*[@class='notable-traits-tooltiptext force-tooltip']",
("x")
)
// The docblock should be flush with the border.
assert-css: (
"//*[@id='method.create_an_iterator_from_read']//*[@class='notable-traits-tooltiptext force-tooltip']/*[@class='docblock']",
{"margin-left": "0px"}
)
// Now only the `i` should be on the next line.
size: (1055, 600)
@ -81,6 +97,27 @@ assert-position: (
"//*[@id='method.create_an_iterator_from_read']//*[@class='notable-traits']",
{"x": 289},
)
// The tooltip should be below `i`
compare-elements-position-near-false: (
"//*[@id='method.create_an_iterator_from_read']//*[@class='notable-traits']",
"//*[@id='method.create_an_iterator_from_read']//*[@class='notable-traits-tooltiptext force-tooltip']",
{"y": 2}
)
compare-elements-position-false: (
"//*[@id='method.create_an_iterator_from_read']//*[@class='notable-traits']",
"//*[@id='method.create_an_iterator_from_read']//*[@class='notable-traits-tooltiptext force-tooltip']",
("x")
)
compare-elements-position-near: (
"//*[@id='method.create_an_iterator_from_read']/parent::*",
"//*[@id='method.create_an_iterator_from_read']//*[@class='notable-traits-tooltiptext force-tooltip']",
{"x": 5}
)
// The docblock should be flush with the border.
assert-css: (
"//*[@id='method.create_an_iterator_from_read']//*[@class='notable-traits-tooltiptext force-tooltip']/*[@class='docblock']",
{"margin-left": "0px"}
)
// Checking on very small mobile. The `i` should be on its own line.
size: (365, 600)

View File

@ -0,0 +1,10 @@
// check-pass
#![feature(marker_trait_attr)]
#[marker]
trait Marker {}
impl Marker for &'static () {}
impl Marker for &'static () {}
fn main() {}

View File

@ -0,0 +1,9 @@
#![feature(marker_trait_attr)]
#[marker]
trait Marker {}
impl Marker for &'_ () {} //~ ERROR type annotations needed
impl Marker for &'_ () {} //~ ERROR type annotations needed
fn main() {}

View File

@ -0,0 +1,31 @@
error[E0283]: type annotations needed: cannot satisfy `&(): Marker`
--> $DIR/overlap-marker-trait-with-underscore-lifetime.rs:6:6
|
LL | impl Marker for &'_ () {}
| ^^^^^^
|
note: multiple `impl`s satisfying `&(): Marker` found
--> $DIR/overlap-marker-trait-with-underscore-lifetime.rs:6:1
|
LL | impl Marker for &'_ () {}
| ^^^^^^^^^^^^^^^^^^^^^^
LL | impl Marker for &'_ () {}
| ^^^^^^^^^^^^^^^^^^^^^^
error[E0283]: type annotations needed: cannot satisfy `&(): Marker`
--> $DIR/overlap-marker-trait-with-underscore-lifetime.rs:7:6
|
LL | impl Marker for &'_ () {}
| ^^^^^^
|
note: multiple `impl`s satisfying `&(): Marker` found
--> $DIR/overlap-marker-trait-with-underscore-lifetime.rs:6:1
|
LL | impl Marker for &'_ () {}
| ^^^^^^^^^^^^^^^^^^^^^^
LL | impl Marker for &'_ () {}
| ^^^^^^^^^^^^^^^^^^^^^^
error: aborting due to 2 previous errors
For more information about this error, try `rustc --explain E0283`.

View File

@ -7,7 +7,8 @@
use std::fmt::{Debug, Display};
#[marker] trait Marker {}
#[marker]
trait Marker {}
impl<T: Debug> Marker for T {}
impl<T: Display> Marker for T {}

View File

@ -1,11 +1,11 @@
error[E0277]: the trait bound `NotDebugOrDisplay: Marker` is not satisfied
--> $DIR/overlap-marker-trait.rs:27:17
--> $DIR/overlap-marker-trait.rs:28:17
|
LL | is_marker::<NotDebugOrDisplay>();
| ^^^^^^^^^^^^^^^^^ the trait `Marker` is not implemented for `NotDebugOrDisplay`
|
note: required by a bound in `is_marker`
--> $DIR/overlap-marker-trait.rs:15:17
--> $DIR/overlap-marker-trait.rs:16:17
|
LL | fn is_marker<T: Marker>() { }
| ^^^^^^ required by this bound in `is_marker`

View File

@ -7,7 +7,8 @@
use std::fmt::{Debug, Display};
#[marker] trait MyMarker {}
#[marker]
trait MyMarker {}
impl<T: Debug> MyMarker for T {}
impl<T: Display> MyMarker for T {}

View File

@ -1,8 +1,8 @@
error: ~const can only be applied to `#[const_trait]` traits
--> $DIR/super-traits-fail-2.rs:11:12
--> $DIR/super-traits-fail-2.rs:11:19
|
LL | trait Bar: ~const Foo {}
| ^^^^^^^^^^
| ^^^
error: aborting due to previous error

View File

@ -1,8 +1,8 @@
error: ~const can only be applied to `#[const_trait]` traits
--> $DIR/super-traits-fail-2.rs:11:12
--> $DIR/super-traits-fail-2.rs:11:19
|
LL | trait Bar: ~const Foo {}
| ^^^^^^^^^^
| ^^^
error: aborting due to previous error

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@ -1,14 +1,14 @@
error: ~const can only be applied to `#[const_trait]` traits
--> $DIR/super-traits-fail-3.rs:12:12
--> $DIR/super-traits-fail-3.rs:12:19
|
LL | trait Bar: ~const Foo {}
| ^^^^^^^^^^
| ^^^
error: ~const can only be applied to `#[const_trait]` traits
--> $DIR/super-traits-fail-3.rs:15:17
--> $DIR/super-traits-fail-3.rs:15:24
|
LL | const fn foo<T: ~const Bar>(x: &T) {
| ^^^^^^^^^^
| ^^^
error: aborting due to 2 previous errors

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@ -1,8 +1,8 @@
error: ~const can only be applied to `#[const_trait]` traits
--> $DIR/super-traits-fail-3.rs:12:12
--> $DIR/super-traits-fail-3.rs:12:19
|
LL | trait Bar: ~const Foo {}
| ^^^^^^^^^^
| ^^^
error: aborting due to previous error

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@ -1,8 +1,8 @@
error: ~const can only be applied to `#[const_trait]` traits
--> $DIR/super-traits-fail-3.rs:15:17
--> $DIR/super-traits-fail-3.rs:15:24
|
LL | const fn foo<T: ~const Bar>(x: &T) {
| ^^^^^^^^^^
| ^^^
error: aborting due to previous error

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@ -0,0 +1,22 @@
trait TraitA {
type TypeA;
}
trait TraitD {
type TypeD;
}
pub trait TraitB {
type TypeB: TraitD;
fn f(_: &<Self::TypeB as TraitD>::TypeD);
}
pub trait TraitC<E> {
type TypeC<'a>: TraitB;
fn g<'a>(_: &<<Self::TypeC<'a> as TraitB>::TypeB as TraitA>::TypeA);
//~^ ERROR the trait bound `<<Self as TraitC<E>>::TypeC<'a> as TraitB>::TypeB: TraitA` is not satisfied
}
fn main() {}

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@ -0,0 +1,14 @@
error[E0277]: the trait bound `<<Self as TraitC<E>>::TypeC<'a> as TraitB>::TypeB: TraitA` is not satisfied
--> $DIR/issue-103573.rs:18:5
|
LL | fn g<'a>(_: &<<Self::TypeC<'a> as TraitB>::TypeB as TraitA>::TypeA);
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ the trait `TraitA` is not implemented for `<<Self as TraitC<E>>::TypeC<'a> as TraitB>::TypeB`
|
help: consider further restricting the associated type
|
LL | fn g<'a>(_: &<<Self::TypeC<'a> as TraitB>::TypeB as TraitA>::TypeA) where <<Self as TraitC<E>>::TypeC<'a> as TraitB>::TypeB: TraitA;
| +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
error: aborting due to previous error
For more information about this error, try `rustc --explain E0277`.