Annotate some bugs

This commit is contained in:
Michael Goulet 2023-12-15 03:19:46 +00:00
parent 96df494340
commit 70b9dad3dc
34 changed files with 295 additions and 197 deletions

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@ -2815,7 +2815,7 @@ pub fn trait_def_id(&self) -> Option<DefId> {
match self.path.res {
Res::Def(DefKind::Trait | DefKind::TraitAlias, did) => Some(did),
Res::Err => None,
_ => unreachable!(),
res => panic!("{res:?} did not resolve to a trait or trait alias"),
}
}
}

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@ -477,7 +477,10 @@ fn provided_kind(
ty::Const::new_misc_error(tcx, ty).into()
}
}
_ => unreachable!(),
(kind, arg) => span_bug!(
self.span,
"mismatched path argument for kind {kind:?}: found arg {arg:?}"
),
}
}
@ -1946,7 +1949,7 @@ pub fn prohibit_generics<'a>(
"s",
),
[only] => (only.to_string(), ""),
[] => unreachable!(),
[] => unreachable!("expected at least one generic to prohibit"),
};
let last_span = *arg_spans.last().unwrap();
let span: MultiSpan = arg_spans.into();
@ -2555,8 +2558,19 @@ fn impl_trait_ty_to_ty(
if let Some(i) = (param.index as usize).checked_sub(generics.count() - lifetimes.len())
{
// Resolve our own lifetime parameters.
let GenericParamDefKind::Lifetime { .. } = param.kind else { bug!() };
let hir::GenericArg::Lifetime(lifetime) = &lifetimes[i] else { bug!() };
let GenericParamDefKind::Lifetime { .. } = param.kind else {
span_bug!(
tcx.def_span(param.def_id),
"only expected lifetime for opaque's own generics, got {:?}",
param.kind
);
};
let hir::GenericArg::Lifetime(lifetime) = &lifetimes[i] else {
bug!(
"expected lifetime argument for param {param:?}, found {:?}",
&lifetimes[i]
)
};
self.ast_region_to_region(lifetime, None).into()
} else {
tcx.mk_param_from_def(param)

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@ -73,7 +73,7 @@ pub(super) fn conv_object_ty_poly_trait_ref(
| ty::ClauseKind::ConstArgHasType(..)
| ty::ClauseKind::WellFormed(_)
| ty::ClauseKind::ConstEvaluatable(_) => {
bug!()
span_bug!(span, "did not expect {pred} clause in object bounds");
}
}
}

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@ -1086,8 +1086,14 @@ fn try_fold_region(
_ => return Ok(region),
}
let e = if let Some(region) = self.map.get(&region) {
if let ty::ReEarlyParam(e) = region.kind() { e } else { bug!() }
let e = if let Some(id_region) = self.map.get(&region) {
if let ty::ReEarlyParam(e) = id_region.kind() {
e
} else {
bug!(
"expected to map region {region} to early-bound identity region, but got {id_region}"
);
}
} else {
let guar = match region.kind() {
ty::ReEarlyParam(ty::EarlyParamRegion { def_id, .. })
@ -1710,10 +1716,9 @@ fn compare_synthetic_generics<'tcx>(
trait_m.name
);
err.span_label(trait_span, "declaration in trait here");
match (impl_synthetic, trait_synthetic) {
if impl_synthetic {
// The case where the impl method uses `impl Trait` but the trait method uses
// explicit generics
(true, false) => {
err.span_label(impl_span, "expected generic parameter, found `impl Trait`");
let _: Option<_> = try {
// try taking the name from the trait impl
@ -1730,8 +1735,7 @@ fn compare_synthetic_generics<'tcx>(
// and the opening paren of the argument list
let new_generics_span = tcx.def_ident_span(impl_def_id)?.shrink_to_hi();
// in case there are generics, just replace them
let generics_span =
impl_m.generics.span.substitute_dummy(new_generics_span);
let generics_span = impl_m.generics.span.substitute_dummy(new_generics_span);
// replace with the generics from the trait
let new_generics =
tcx.sess.source_map().span_to_snippet(trait_m.generics.span).ok()?;
@ -1749,10 +1753,9 @@ fn compare_synthetic_generics<'tcx>(
Applicability::MaybeIncorrect,
);
};
}
} else {
// The case where the trait method uses `impl Trait`, but the impl method uses
// explicit generics.
(false, true) => {
err.span_label(impl_span, "expected `impl Trait`, found generic parameter");
let _: Option<_> = try {
let impl_m = impl_m.def_id.as_local()?;
@ -1795,8 +1798,6 @@ fn visit_ty(&mut self, ty: &'v hir::Ty<'v>) {
);
};
}
_ => unreachable!(),
}
error_found = Some(err.emit_unless(delay));
}
}
@ -1859,7 +1860,9 @@ fn compare_generic_param_kinds<'tcx>(
// this is exhaustive so that anyone adding new generic param kinds knows
// to make sure this error is reported for them.
(Const { .. }, Const { .. }) | (Type { .. }, Type { .. }) => false,
(Lifetime { .. }, _) | (_, Lifetime { .. }) => unreachable!(),
(Lifetime { .. }, _) | (_, Lifetime { .. }) => {
bug!("lifetime params are expected to be filtered by `ty_const_params_of`")
}
} {
let param_impl_span = tcx.def_span(param_impl.def_id);
let param_trait_span = tcx.def_span(param_trait.def_id);
@ -1883,7 +1886,10 @@ fn compare_generic_param_kinds<'tcx>(
)
}
Type { .. } => format!("{prefix} type parameter"),
Lifetime { .. } => unreachable!(),
Lifetime { .. } => span_bug!(
tcx.def_span(param.def_id),
"lifetime params are expected to be filtered by `ty_const_params_of`"
),
};
let trait_header_span = tcx.def_ident_span(tcx.parent(trait_item.def_id)).unwrap();
@ -2187,7 +2193,10 @@ pub(super) fn check_type_bounds<'tcx>(
..
}) => ty.span,
hir::Node::ImplItem(hir::ImplItem { kind: hir::ImplItemKind::Type(ty), .. }) => ty.span,
_ => bug!(),
item => span_bug!(
tcx.def_span(impl_ty_def_id),
"cannot call `check_type_bounds` on item: {item:?}",
),
}
};
let assumed_wf_types = ocx.assumed_wf_types_and_report_errors(param_env, impl_ty_def_id)?;

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@ -262,7 +262,10 @@ fn report_mismatched_rpitit_signature<'tcx>(
if tcx.asyncness(impl_m_def_id).is_async() && tcx.asyncness(trait_m_def_id).is_async() {
let ty::Alias(ty::Projection, future_ty) = return_ty.kind() else {
bug!();
span_bug!(
tcx.def_span(trait_m_def_id),
"expected return type of async fn in trait to be a AFIT projection"
);
};
let Some(future_output_ty) = tcx
.explicit_item_bounds(future_ty.def_id)
@ -272,7 +275,7 @@ fn report_mismatched_rpitit_signature<'tcx>(
_ => None,
})
else {
bug!()
span_bug!(tcx.def_span(trait_m_def_id), "expected `Future` projection bound in AFIT");
};
return_ty = future_output_ty;
}

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@ -49,7 +49,7 @@ fn get_asm_ty(&self, ty: Ty<'tcx>) -> Option<InlineAsmType> {
16 => InlineAsmType::I16,
32 => InlineAsmType::I32,
64 => InlineAsmType::I64,
_ => unreachable!(),
width => bug!("unsupported pointer width: {width}"),
};
match *ty.kind() {
@ -101,7 +101,7 @@ fn get_asm_ty(&self, ty: Ty<'tcx>) -> Option<InlineAsmType> {
16 => InlineAsmType::VecI16(size),
32 => InlineAsmType::VecI32(size),
64 => InlineAsmType::VecI64(size),
_ => unreachable!(),
width => bug!("unsupported pointer width: {width}"),
})
}
ty::Float(FloatTy::F32) => Some(InlineAsmType::VecF32(size)),
@ -109,7 +109,7 @@ fn get_asm_ty(&self, ty: Ty<'tcx>) -> Option<InlineAsmType> {
_ => None,
}
}
ty::Infer(_) => unreachable!(),
ty::Infer(_) => bug!("unexpected infer ty in asm operand"),
_ => None,
}
}
@ -136,8 +136,15 @@ fn check_asm_operand_type(
ty::Adt(adt, args) if Some(adt.did()) == self.tcx.lang_items().maybe_uninit() => {
let fields = &adt.non_enum_variant().fields;
let ty = fields[FieldIdx::from_u32(1)].ty(self.tcx, args);
let ty::Adt(ty, args) = ty.kind() else { unreachable!() };
assert!(ty.is_manually_drop());
// FIXME: Are we just trying to map to the `T` in `MaybeUninit<T>`?
// If so, just get it from the args.
let ty::Adt(ty, args) = ty.kind() else {
unreachable!("expected first field of `MaybeUninit` to be an ADT")
};
assert!(
ty.is_manually_drop(),
"expected first field of `MaybeUnit` to be `ManuallyDrop`"
);
let fields = &ty.non_enum_variant().fields;
let ty = fields[FieldIdx::from_u32(0)].ty(self.tcx, args);
self.get_asm_ty(ty)

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@ -204,11 +204,14 @@ fn check_item<'tcx>(tcx: TyCtxt<'tcx>, item: &'tcx hir::Item<'tcx>) -> Result<()
res = Err(err.emit());
}
// We match on both `ty::ImplPolarity` and `ast::ImplPolarity` just to get the `!` span.
match (tcx.impl_polarity(def_id), impl_.polarity) {
(ty::ImplPolarity::Positive, _) => {
match tcx.impl_polarity(def_id) {
ty::ImplPolarity::Positive => {
res = res.and(check_impl(tcx, item, impl_.self_ty, &impl_.of_trait));
}
(ty::ImplPolarity::Negative, ast::ImplPolarity::Negative(span)) => {
ty::ImplPolarity::Negative => {
let ast::ImplPolarity::Negative(span) = impl_.polarity else {
bug!("impl_polarity query disagrees with impl's polarity in AST");
};
// FIXME(#27579): what amount of WF checking do we need for neg impls?
if let hir::Defaultness::Default { .. } = impl_.defaultness {
let mut spans = vec![span];
@ -222,10 +225,9 @@ fn check_item<'tcx>(tcx: TyCtxt<'tcx>, item: &'tcx hir::Item<'tcx>) -> Result<()
.emit());
}
}
(ty::ImplPolarity::Reservation, _) => {
ty::ImplPolarity::Reservation => {
// FIXME: what amount of WF checking do we need for reservation impls?
}
_ => unreachable!(),
}
res
}
@ -1068,9 +1070,14 @@ fn check_type_defn<'tcx>(
hir_ty.span,
wfcx.body_def_id,
traits::FieldSized {
adt_kind: match item_adt_kind(&item.kind) {
Some(i) => i,
None => bug!(),
adt_kind: match &item.kind {
ItemKind::Struct(..) => AdtKind::Struct,
ItemKind::Union(..) => AdtKind::Union,
ItemKind::Enum(..) => AdtKind::Enum,
kind => span_bug!(
item.span,
"should be wfchecking an ADT, got {kind:?}"
),
},
span: hir_ty.span,
last,
@ -1302,7 +1309,9 @@ fn check_where_clauses<'tcx>(wfcx: &WfCheckingCtxt<'_, 'tcx>, span: Span, def_id
| GenericParamDefKind::Const { has_default, .. } => {
has_default && def.index >= generics.parent_count as u32
}
GenericParamDefKind::Lifetime => unreachable!(),
GenericParamDefKind::Lifetime => {
span_bug!(tcx.def_span(def.def_id), "lifetime params can have no default")
}
};
// Check that concrete defaults are well-formed. See test `type-check-defaults.rs`.
@ -1750,15 +1759,15 @@ fn check_variances_for_type_defn<'tcx>(
}
}
ItemKind::TyAlias(..) => {
if tcx.type_alias_is_lazy(item.owner_id) {
assert!(
tcx.type_alias_is_lazy(item.owner_id),
"should not be computing variance of non-weak type alias"
);
if tcx.type_of(item.owner_id).skip_binder().references_error() {
return;
}
} else {
bug!();
}
}
_ => bug!(),
kind => span_bug!(item.span, "cannot compute the variances of {kind:?}"),
}
let ty_predicates = tcx.predicates_of(item.owner_id);

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@ -836,7 +836,7 @@ fn adt_def(tcx: TyCtxt<'_>, def_id: LocalDefId) -> ty::AdtDef<'_> {
use rustc_hir::*;
let Node::Item(item) = tcx.hir_node_by_def_id(def_id) else {
bug!();
bug!("expected ADT to be an item");
};
let repr = tcx.repr_options_of_def(def_id.to_def_id());
@ -887,7 +887,7 @@ fn adt_def(tcx: TyCtxt<'_>, def_id: LocalDefId) -> ty::AdtDef<'_> {
(adt_kind, variants)
}
_ => bug!(),
_ => bug!("{:?} is not an ADT", item.owner_id.def_id),
};
tcx.mk_adt_def(def_id.to_def_id(), kind, variants, repr)
}

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@ -97,8 +97,10 @@ pub(super) fn explicit_item_bounds(
item.span,
));
}
// These should have been fed!
Some(ty::ImplTraitInTraitData::Impl { .. }) => unreachable!(),
Some(ty::ImplTraitInTraitData::Impl { .. }) => span_bug!(
tcx.def_span(def_id),
"item bounds for RPITIT in impl to be fed on def-id creation"
),
None => {}
}
@ -128,7 +130,7 @@ pub(super) fn explicit_item_bounds(
let (hir::OpaqueTyOrigin::FnReturn(fn_def_id)
| hir::OpaqueTyOrigin::AsyncFn(fn_def_id)) = *origin
else {
bug!()
span_bug!(*span, "RPITIT cannot be a TAIT, but got origin {origin:?}");
};
let args = GenericArgs::identity_for_item(tcx, def_id);
let item_ty = Ty::new_opaque(tcx, def_id.to_def_id(), args);

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@ -296,7 +296,12 @@ fn gather_explicit_predicates_of(tcx: TyCtxt<'_>, def_id: LocalDefId) -> ty::Gen
hir::GenericBound::Outlives(lt) => {
(icx.astconv().ast_region_to_region(lt, None), lt.ident.span)
}
_ => bug!(),
bound => {
span_bug!(
bound.span(),
"lifetime param bounds must be outlives, but found {bound:?}"
)
}
};
let pred = ty::ClauseKind::RegionOutlives(ty::OutlivesPredicate(r1, r2))
.to_predicate(tcx);

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@ -1300,7 +1300,11 @@ fn resolve_lifetime_ref(
what,
})
}
_ => unreachable!(),
kind => span_bug!(
use_span,
"did not expect to resolve lifetime to {}",
kind.descr(param_def_id)
),
};
def = ResolvedArg::Error(guar);
} else if let Some(body_id) = outermost_body {
@ -1441,7 +1445,11 @@ fn resolve_type_ref(&mut self, param_def_id: LocalDefId, hir_id: hir::HirId) {
what,
})
}
_ => unreachable!(),
kind => span_bug!(
use_span,
"did not expect to resolve non-lifetime param to {}",
kind.descr(param_def_id.to_def_id())
),
};
self.map.defs.insert(hir_id, ResolvedArg::Error(guar));
} else {
@ -2123,7 +2131,7 @@ pub fn deny_non_region_late_bound(
for (var, arg) in bound_vars {
let Node::GenericParam(param) = tcx.hir_node_by_def_id(*var) else {
bug!();
span_bug!(tcx.def_span(*var), "expected bound-var def-id to resolve to param");
};
let what = match param.kind {

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@ -20,7 +20,13 @@ fn anon_const_type_of<'tcx>(tcx: TyCtxt<'tcx>, def_id: LocalDefId) -> Ty<'tcx> {
use rustc_middle::ty::Ty;
let hir_id = tcx.local_def_id_to_hir_id(def_id);
let Node::AnonConst(_) = tcx.hir_node(hir_id) else { panic!() };
let node = tcx.hir_node(hir_id);
let Node::AnonConst(_) = node else {
span_bug!(
tcx.def_span(def_id),
"expected anon const in `anon_const_type_of`, got {node:?}"
);
};
let parent_node_id = tcx.hir().parent_id(hir_id);
let parent_node = tcx.hir_node(parent_node_id);

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@ -2003,18 +2003,14 @@ fn print_closure_params(&mut self, decl: &hir::FnDecl<'_>, body_id: hir::BodyId)
});
self.word("|");
if let hir::FnRetTy::DefaultReturn(..) = decl.output {
return;
}
self.space_if_not_bol();
self.word_space("->");
match decl.output {
hir::FnRetTy::Return(ty) => {
self.space_if_not_bol();
self.word_space("->");
self.print_type(ty);
self.maybe_print_comment(ty.span.lo());
}
hir::FnRetTy::DefaultReturn(..) => unreachable!(),
hir::FnRetTy::DefaultReturn(..) => {}
}
}
@ -2179,7 +2175,7 @@ fn print_where_clause(&mut self, generics: &hir::Generics<'_>) {
GenericBound::Outlives(lt) => {
self.print_lifetime(lt);
}
_ => panic!(),
_ => panic!("unexpected bound on lifetime param: {bound:?}"),
}
if i != 0 {
@ -2216,16 +2212,14 @@ fn print_mt(&mut self, mt: &hir::MutTy<'_>, print_const: bool) {
}
fn print_fn_output(&mut self, decl: &hir::FnDecl<'_>) {
if let hir::FnRetTy::DefaultReturn(..) = decl.output {
return;
}
match decl.output {
hir::FnRetTy::Return(ty) => {
self.space_if_not_bol();
self.ibox(INDENT_UNIT);
self.word_space("->");
match decl.output {
hir::FnRetTy::DefaultReturn(..) => unreachable!(),
hir::FnRetTy::Return(ty) => self.print_type(ty),
self.print_type(ty);
}
hir::FnRetTy::DefaultReturn(..) => return,
}
self.end();

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@ -271,7 +271,7 @@ fn report_cast_error(&self, fcx: &FnCtxt<'a, 'tcx>, e: CastError) {
match e {
CastError::NeedViaPtr => "a raw pointer",
CastError::NeedViaThinPtr => "a thin pointer",
_ => bug!(),
e => unreachable!("control flow means we should never encounter a {e:?}"),
}
));
}
@ -288,13 +288,7 @@ fn report_cast_error(&self, fcx: &FnCtxt<'a, 'tcx>, e: CastError) {
self.cast_ty,
fcx,
)
.help(format!(
"cast through {} first",
match e {
CastError::NeedViaInt => "an integer",
_ => bug!(),
}
))
.help("cast through an integer first")
.emit();
}
CastError::IllegalCast => {
@ -534,7 +528,7 @@ fn report_cast_error(&self, fcx: &FnCtxt<'a, 'tcx>, e: CastError) {
let unknown_cast_to = match e {
CastError::UnknownCastPtrKind => true,
CastError::UnknownExprPtrKind => false,
_ => bug!(),
e => unreachable!("control flow means we should never encounter a {e:?}"),
};
let (span, sub) = if unknown_cast_to {
(self.cast_span, errors::CastUnknownPointerSub::To(self.cast_span))

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@ -1182,14 +1182,14 @@ fn try_find_coercion_lub<E>(
Adjust::Pointer(PointerCoercion::ClosureFnPointer(a_sig.unsafety()))
}
ty::FnDef(..) => Adjust::Pointer(PointerCoercion::ReifyFnPointer),
_ => unreachable!(),
_ => span_bug!(cause.span, "should not try to coerce a {prev_ty} to a fn pointer"),
};
let next_adjustment = match new_ty.kind() {
ty::Closure(..) => {
Adjust::Pointer(PointerCoercion::ClosureFnPointer(b_sig.unsafety()))
}
ty::FnDef(..) => Adjust::Pointer(PointerCoercion::ReifyFnPointer),
_ => unreachable!(),
_ => span_bug!(new.span, "should not try to coerce a {new_ty} to a fn pointer"),
};
for expr in exprs.iter().map(|e| e.as_coercion_site()) {
self.apply_adjustments(
@ -1918,7 +1918,7 @@ fn as_coercion_site(&self) -> &hir::Expr<'_> {
impl AsCoercionSite for ! {
fn as_coercion_site(&self) -> &hir::Expr<'_> {
unreachable!()
*self
}
}

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@ -331,13 +331,15 @@ fn visit_expr(&mut self, ex: &'tcx hir::Expr<'tcx>) {
ty_op: |ty| {
if let ty::Infer(infer) = ty.kind() {
match infer {
ty::InferTy::TyVar(_) => self.next_ty_var(TypeVariableOrigin {
ty::TyVar(_) => self.next_ty_var(TypeVariableOrigin {
kind: TypeVariableOriginKind::MiscVariable,
span: DUMMY_SP,
}),
ty::InferTy::IntVar(_) => self.next_int_var(),
ty::InferTy::FloatVar(_) => self.next_float_var(),
_ => bug!(),
ty::IntVar(_) => self.next_int_var(),
ty::FloatVar(_) => self.next_float_var(),
ty::FreshTy(_) | ty::FreshIntTy(_) | ty::FreshFloatTy(_) => {
bug!("unexpected fresh ty outside of the trait solver")
}
}
} else {
ty

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@ -2087,7 +2087,7 @@ fn report_private_fields(
let names = names.iter().map(|name| format!("`{name}`")).collect::<Vec<_>>();
format!("{} and `{last}` ", names.join(", "))
}
[] => unreachable!(),
[] => bug!("expected at least one private field to report"),
};
err.note(format!(
"{}private field{s} {names}that {were} not provided",

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@ -993,7 +993,9 @@ enum SuggestionText {
}) {
match e {
Error::Missing(expected_idx) => missing_idxs.push(expected_idx),
_ => unreachable!(),
_ => unreachable!(
"control flow ensures that we should always get an `Error::Missing`"
),
}
}

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@ -2072,8 +2072,7 @@ pub(crate) fn suggest_compatible_variants(
Some(CtorKind::Fn) => ("(".to_owned(), ")"),
None => (format!(" {{ {field_name}: "), " }"),
// unit variants don't have fields
Some(CtorKind::Const) => unreachable!(),
Some(CtorKind::Const) => unreachable!("unit variants don't have fields"),
};
// Suggest constructor as deep into the block tree as possible.

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@ -415,7 +415,9 @@ fn provided_kind(
)
.into()
}
_ => unreachable!(),
(kind, arg) => {
bug!("mismatched method arg kind {kind:?} in turbofish: {arg:?}")
}
}
}

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@ -1820,7 +1820,11 @@ fn lint_non_exhaustive_omitted_patterns(
fn joined_uncovered_patterns(witnesses: &[&Ident]) -> String {
const LIMIT: usize = 3;
match witnesses {
[] => bug!(),
[] => {
unreachable!(
"expected an uncovered pattern, otherwise why are we emitting an error?"
)
}
[witness] => format!("`{witness}`"),
[head @ .., tail] if head.len() < LIMIT => {
let head: Vec<_> = head.iter().map(<_>::to_string).collect();

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@ -103,15 +103,19 @@ pub fn super_combine_tys<R>(
}
// We don't expect `TyVar` or `Fresh*` vars at this point with lazy norm.
(
ty::Alias(..),
ty::Infer(ty::TyVar(_) | ty::FreshTy(_) | ty::FreshIntTy(_) | ty::FreshFloatTy(_)),
(ty::Alias(..), ty::Infer(ty::TyVar(_))) | (ty::Infer(ty::TyVar(_)), ty::Alias(..))
if self.next_trait_solver() =>
{
bug!(
"We do not expect to encounter `TyVar` this late in combine \
-- they should have been handled earlier"
)
| (
ty::Infer(ty::TyVar(_) | ty::FreshTy(_) | ty::FreshIntTy(_) | ty::FreshFloatTy(_)),
ty::Alias(..),
) if self.next_trait_solver() => {
bug!()
}
(_, ty::Infer(ty::FreshTy(_) | ty::FreshIntTy(_) | ty::FreshFloatTy(_)))
| (ty::Infer(ty::FreshTy(_) | ty::FreshIntTy(_) | ty::FreshFloatTy(_)), _)
if self.next_trait_solver() =>
{
bug!("We do not expect to encounter `Fresh` variables in the new solver")
}
(_, ty::Alias(..)) | (ty::Alias(..), _) if self.next_trait_solver() => {

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@ -232,7 +232,9 @@ fn ty_to_string<'tcx>(
/// something users are familiar with. Directly printing the `fn_sig` of closures also
/// doesn't work as they actually use the "rust-call" API.
fn closure_as_fn_str<'tcx>(infcx: &InferCtxt<'tcx>, ty: Ty<'tcx>) -> String {
let ty::Closure(_, args) = ty.kind() else { unreachable!() };
let ty::Closure(_, args) = ty.kind() else {
bug!("cannot convert non-closure to fn str in `closure_as_fn_str`")
};
let fn_sig = args.as_closure().sig();
let args = fn_sig
.inputs()

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@ -375,7 +375,9 @@ pub(super) fn report_placeholder_failure(
err.span_note(span, "the lifetime requirement is introduced here");
err
} else {
unreachable!()
unreachable!(
"control flow ensures we have a `BindingObligation` or `ExprBindingObligation` here..."
)
}
}
infer::Subtype(box trace) => {

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@ -247,7 +247,9 @@ fn relate_opaques(&mut self, a: Ty<'tcx>, b: Ty<'tcx>) -> RelateResult<'tcx, Ty<
let (a, b) = match (a.kind(), b.kind()) {
(&ty::Alias(ty::Opaque, ..), _) => (a, generalize(b, false)?),
(_, &ty::Alias(ty::Opaque, ..)) => (generalize(a, true)?, b),
_ => unreachable!(),
_ => unreachable!(
"expected at least one opaque type in `relate_opaques`, got {a} and {b}."
),
};
let cause = ObligationCause::dummy_with_span(self.delegate.span());
let obligations = self
@ -707,7 +709,9 @@ fn register_type_relate_obligation(&mut self, a: Ty<'tcx>, b: Ty<'tcx>) {
),
// FIXME(deferred_projection_equality): Implement this when we trigger it.
// Probably just need to do nothing here.
ty::Variance::Bivariant => unreachable!(),
ty::Variance::Bivariant => {
unreachable!("cannot defer an alias-relate goal with Bivariant variance (yet?)")
}
})]);
}
}

View File

@ -203,7 +203,9 @@ pub(super) fn compute_alias_components_recursive<'tcx>(
out: &mut SmallVec<[Component<'tcx>; 4]>,
visited: &mut SsoHashSet<GenericArg<'tcx>>,
) {
let ty::Alias(kind, alias_ty) = alias_ty.kind() else { bug!() };
let ty::Alias(kind, alias_ty) = alias_ty.kind() else {
unreachable!("can only call `compute_alias_components_recursive` on an alias type")
};
let opt_variances = if *kind == ty::Opaque { tcx.variances_of(alias_ty.def_id) } else { &[] };
for (index, child) in alias_ty.args.iter().enumerate() {
if opt_variances.get(index) == Some(&ty::Bivariant) {

View File

@ -203,7 +203,11 @@ fn consider_impl_candidate(
)
.into(),
ty::AssocKind::Type => Ty::new_error(tcx, guar).into(),
ty::AssocKind::Fn => unreachable!(),
// This makes no sense...
ty::AssocKind::Fn => span_bug!(
tcx.def_span(assoc_def.item.def_id),
"cannot project to an associated function"
),
};
ecx.eq(goal.param_env, goal.predicate.term, error_term)
.expect("expected goal term to be fully unconstrained");

View File

@ -256,7 +256,10 @@ fn consider_builtin_fn_ptr_trait_candidate(
Err(NoSolution)
}
}
ty::ImplPolarity::Reservation => bug!(),
// FIXME: Goal polarity should be split from impl polarity
ty::ImplPolarity::Reservation => {
bug!("we never expect a `Reservation` polarity in a trait goal")
}
}
}

View File

@ -487,7 +487,7 @@ fn visit_ty(&mut self, ty: Ty<'tcx>) -> ControlFlow<Self::BreakTy> {
),
)
else {
bug!()
bug!("we always expect to be able to plug an infer var with placeholder")
};
assert_eq!(obligations, &[]);
ControlFlow::Continue(())
@ -510,7 +510,7 @@ fn visit_const(&mut self, ct: ty::Const<'tcx>) -> ControlFlow<Self::BreakTy> {
),
)
else {
bug!()
bug!("we always expect to be able to plug an infer var with placeholder")
};
assert_eq!(obligations, &[]);
ControlFlow::Continue(())
@ -544,7 +544,7 @@ fn visit_region(&mut self, r: ty::Region<'tcx>) -> ControlFlow<Self::BreakTy> {
),
)
else {
bug!()
bug!("we always expect to be able to plug an infer var with placeholder")
};
assert_eq!(obligations, &[]);
}

View File

@ -250,7 +250,12 @@ fn report_overflow_error<T>(
err.emit();
self.tcx.sess.abort_if_errors();
bug!();
// FIXME: this should be something like `build_overflow_error_fatal`, which returns
// `DiagnosticBuilder<', !>`. Then we don't even need anything after that `emit()`.
unreachable!(
"did not expect compilation to continue after `abort_if_errors`, \
since an error was definitely emitted!"
);
}
fn build_overflow_error<T>(

View File

@ -191,7 +191,9 @@ fn push_candidate(&mut self, candidate: ProjectionCandidate<'tcx>) -> bool {
match (current, candidate) {
(ParamEnv(..), ParamEnv(..)) => convert_to_ambiguous = (),
(ParamEnv(..), _) => return false,
(_, ParamEnv(..)) => unreachable!(),
(_, ParamEnv(..)) => bug!(
"should never prefer non-param-env candidates over param-env candidates"
),
(_, _) => convert_to_ambiguous = (),
}
}
@ -2080,10 +2082,11 @@ fn confirm_coroutine_candidate<'cx, 'tcx>(
obligation: &ProjectionTyObligation<'tcx>,
nested: Vec<PredicateObligation<'tcx>>,
) -> Progress<'tcx> {
let ty::Coroutine(_, args, _) =
selcx.infcx.shallow_resolve(obligation.predicate.self_ty()).kind()
else {
unreachable!()
let self_ty = selcx.infcx.shallow_resolve(obligation.predicate.self_ty());
let ty::Coroutine(_, args, _) = self_ty.kind() else {
unreachable!(
"expected coroutine self type for built-in coroutine candidate, found {self_ty}"
)
};
let coroutine_sig = args.as_coroutine().sig();
let Normalized { value: coroutine_sig, obligations } = normalize_with_depth(
@ -2113,7 +2116,10 @@ fn confirm_coroutine_candidate<'cx, 'tcx>(
} else if name == sym::Yield {
yield_ty
} else {
bug!()
span_bug!(
tcx.def_span(obligation.predicate.def_id),
"unexpected associated type: `Coroutine::{name}`"
);
};
let predicate = ty::ProjectionPredicate {
@ -2131,10 +2137,11 @@ fn confirm_future_candidate<'cx, 'tcx>(
obligation: &ProjectionTyObligation<'tcx>,
nested: Vec<PredicateObligation<'tcx>>,
) -> Progress<'tcx> {
let ty::Coroutine(_, args, _) =
selcx.infcx.shallow_resolve(obligation.predicate.self_ty()).kind()
else {
unreachable!()
let self_ty = selcx.infcx.shallow_resolve(obligation.predicate.self_ty());
let ty::Coroutine(_, args, _) = self_ty.kind() else {
unreachable!(
"expected coroutine self type for built-in async future candidate, found {self_ty}"
)
};
let coroutine_sig = args.as_coroutine().sig();
let Normalized { value: coroutine_sig, obligations } = normalize_with_depth(
@ -2174,10 +2181,9 @@ fn confirm_iterator_candidate<'cx, 'tcx>(
obligation: &ProjectionTyObligation<'tcx>,
nested: Vec<PredicateObligation<'tcx>>,
) -> Progress<'tcx> {
let ty::Coroutine(_, args, _) =
selcx.infcx.shallow_resolve(obligation.predicate.self_ty()).kind()
else {
unreachable!()
let self_ty = selcx.infcx.shallow_resolve(obligation.predicate.self_ty());
let ty::Coroutine(_, args, _) = self_ty.kind() else {
unreachable!("expected coroutine self type for built-in gen candidate, found {self_ty}")
};
let gen_sig = args.as_coroutine().sig();
let Normalized { value: gen_sig, obligations } = normalize_with_depth(
@ -2341,9 +2347,9 @@ fn confirm_closure_candidate<'cx, 'tcx>(
obligation: &ProjectionTyObligation<'tcx>,
nested: Vec<PredicateObligation<'tcx>>,
) -> Progress<'tcx> {
let ty::Closure(_, args) = selcx.infcx.shallow_resolve(obligation.predicate.self_ty()).kind()
else {
unreachable!()
let self_ty = selcx.infcx.shallow_resolve(obligation.predicate.self_ty());
let ty::Closure(_, args) = self_ty.kind() else {
unreachable!("expected closure self type for closure candidate, found {self_ty}")
};
let closure_sig = args.as_closure().sig();
let Normalized { value: closure_sig, obligations } = normalize_with_depth(

View File

@ -285,7 +285,7 @@ fn try_fold_ty(&mut self, ty: Ty<'tcx>) -> Result<Ty<'tcx>, Self::Error> {
ty::Projection => tcx.normalize_projection_ty(c_data),
ty::Weak => tcx.normalize_weak_ty(c_data),
ty::Inherent => tcx.normalize_inherent_projection_ty(c_data),
_ => unreachable!(),
kind => unreachable!("did not expect {kind:?} due to match arm above"),
}?;
// We don't expect ambiguity.
if !result.value.is_proven() {

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@ -184,7 +184,9 @@ pub fn compute_implied_outlives_bounds_inner<'tcx>(
push_outlives_components(tcx, ty_a, &mut components);
implied_bounds.extend(implied_bounds_from_components(r_b, components))
}
ty::GenericArgKind::Const(_) => unreachable!(),
ty::GenericArgKind::Const(_) => {
unreachable!("consts do not participate in outlives bounds")
}
}
}

View File

@ -942,8 +942,12 @@ fn confirm_trait_upcasting_unsize_candidate(
let a_ty = self.infcx.shallow_resolve(predicate.self_ty());
let b_ty = self.infcx.shallow_resolve(predicate.trait_ref.args.type_at(1));
let ty::Dynamic(a_data, a_region, ty::Dyn) = *a_ty.kind() else { bug!() };
let ty::Dynamic(b_data, b_region, ty::Dyn) = *b_ty.kind() else { bug!() };
let ty::Dynamic(a_data, a_region, ty::Dyn) = *a_ty.kind() else {
bug!("expected `dyn` type in `confirm_trait_upcasting_unsize_candidate`")
};
let ty::Dynamic(b_data, b_region, ty::Dyn) = *b_ty.kind() else {
bug!("expected `dyn` type in `confirm_trait_upcasting_unsize_candidate`")
};
let source_principal = a_data.principal().unwrap().with_self_ty(tcx, a_ty);
let unnormalized_upcast_principal =