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Auto merge of rust-lang#133360 - compiler-errors:rollup-a2o38tq, r=co…
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…mpiler-errors

Rollup of 8 pull requests

Successful merges:

 - rust-lang#132090 (Stop being so bail-y in candidate assembly)
 - rust-lang#132658 (Detect const in pattern with typo)
 - rust-lang#132911 (Pretty print async fn sugar in opaques and trait bounds)
 - rust-lang#133102 (aarch64 softfloat target: always pass floats in int registers)
 - rust-lang#133159 (Don't allow `-Zunstable-options` to take a value )
 - rust-lang#133208 (generate-copyright: Now generates a library file too.)
 - rust-lang#133215 (Fix missing submodule in `./x vendor`)
 - rust-lang#133264 (implement OsString::truncate)

r? `@ghost`
`@rustbot` modify labels: rollup
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bors committed Nov 23, 2024
2 parents 743003b + 7b3e593 commit c49a687
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11 changes: 11 additions & 0 deletions compiler/rustc_middle/src/middle/lang_items.rs
Original file line number Diff line number Diff line change
Expand Up @@ -68,6 +68,17 @@ impl<'tcx> TyCtxt<'tcx> {
}
}

/// Given a [`ty::ClosureKind`], get the [`DefId`] of its corresponding `Fn`-family
/// trait, if it is defined.
pub fn async_fn_trait_kind_to_def_id(self, kind: ty::ClosureKind) -> Option<DefId> {
let items = self.lang_items();
match kind {
ty::ClosureKind::Fn => items.async_fn_trait(),
ty::ClosureKind::FnMut => items.async_fn_mut_trait(),
ty::ClosureKind::FnOnce => items.async_fn_once_trait(),
}
}

/// Returns `true` if `id` is a `DefId` of [`Fn`], [`FnMut`] or [`FnOnce`] traits.
pub fn is_fn_trait(self, id: DefId) -> bool {
self.fn_trait_kind_from_def_id(id).is_some()
Expand Down
203 changes: 85 additions & 118 deletions compiler/rustc_middle/src/ty/print/pretty.rs
Original file line number Diff line number Diff line change
Expand Up @@ -16,8 +16,8 @@ use rustc_hir::definitions::{DefKey, DefPathDataName};
use rustc_macros::{Lift, extension};
use rustc_session::Limit;
use rustc_session::cstore::{ExternCrate, ExternCrateSource};
use rustc_span::FileNameDisplayPreference;
use rustc_span::symbol::{Ident, Symbol, kw};
use rustc_span::{FileNameDisplayPreference, sym};
use rustc_type_ir::{Upcast as _, elaborate};
use smallvec::SmallVec;

Expand All @@ -26,8 +26,8 @@ use super::*;
use crate::mir::interpret::{AllocRange, GlobalAlloc, Pointer, Provenance, Scalar};
use crate::query::{IntoQueryParam, Providers};
use crate::ty::{
ConstInt, Expr, GenericArgKind, ParamConst, ScalarInt, Term, TermKind, TypeFoldable,
TypeSuperFoldable, TypeSuperVisitable, TypeVisitable, TypeVisitableExt,
ConstInt, Expr, GenericArgKind, ParamConst, ScalarInt, Term, TermKind, TraitPredicate,
TypeFoldable, TypeSuperFoldable, TypeSuperVisitable, TypeVisitable, TypeVisitableExt,
};

macro_rules! p {
Expand Down Expand Up @@ -993,10 +993,8 @@ pub trait PrettyPrinter<'tcx>: Printer<'tcx> + fmt::Write {

match bound_predicate.skip_binder() {
ty::ClauseKind::Trait(pred) => {
let trait_ref = bound_predicate.rebind(pred.trait_ref);

// Don't print `+ Sized`, but rather `+ ?Sized` if absent.
if tcx.is_lang_item(trait_ref.def_id(), LangItem::Sized) {
if tcx.is_lang_item(pred.def_id(), LangItem::Sized) {
match pred.polarity {
ty::PredicatePolarity::Positive => {
has_sized_bound = true;
Expand All @@ -1007,24 +1005,22 @@ pub trait PrettyPrinter<'tcx>: Printer<'tcx> + fmt::Write {
}

self.insert_trait_and_projection(
trait_ref,
pred.polarity,
bound_predicate.rebind(pred),
None,
&mut traits,
&mut fn_traits,
);
}
ty::ClauseKind::Projection(pred) => {
let proj_ref = bound_predicate.rebind(pred);
let trait_ref = proj_ref.required_poly_trait_ref(tcx);

// Projection type entry -- the def-id for naming, and the ty.
let proj_ty = (proj_ref.projection_def_id(), proj_ref.term());
let proj = bound_predicate.rebind(pred);
let trait_ref = proj.map_bound(|proj| TraitPredicate {
trait_ref: proj.projection_term.trait_ref(tcx),
polarity: ty::PredicatePolarity::Positive,
});

self.insert_trait_and_projection(
trait_ref,
ty::PredicatePolarity::Positive,
Some(proj_ty),
Some((proj.projection_def_id(), proj.term())),
&mut traits,
&mut fn_traits,
);
Expand All @@ -1042,88 +1038,66 @@ pub trait PrettyPrinter<'tcx>: Printer<'tcx> + fmt::Write {
// Insert parenthesis around (Fn(A, B) -> C) if the opaque ty has more than one other trait
let paren_needed = fn_traits.len() > 1 || traits.len() > 0 || !has_sized_bound;

for (fn_once_trait_ref, entry) in fn_traits {
for ((bound_args, is_async), entry) in fn_traits {
write!(self, "{}", if first { "" } else { " + " })?;
write!(self, "{}", if paren_needed { "(" } else { "" })?;

self.wrap_binder(&fn_once_trait_ref, |trait_ref, cx| {
define_scoped_cx!(cx);
// Get the (single) generic ty (the args) of this FnOnce trait ref.
let generics = tcx.generics_of(trait_ref.def_id);
let own_args = generics.own_args_no_defaults(tcx, trait_ref.args);

match (entry.return_ty, own_args[0].expect_ty()) {
// We can only print `impl Fn() -> ()` if we have a tuple of args and we recorded
// a return type.
(Some(return_ty), arg_tys) if matches!(arg_tys.kind(), ty::Tuple(_)) => {
let name = if entry.fn_trait_ref.is_some() {
"Fn"
} else if entry.fn_mut_trait_ref.is_some() {
"FnMut"
} else {
"FnOnce"
};

p!(write("{}(", name));
let trait_def_id = if is_async {
tcx.async_fn_trait_kind_to_def_id(entry.kind).expect("expected AsyncFn lang items")
} else {
tcx.fn_trait_kind_to_def_id(entry.kind).expect("expected Fn lang items")
};

for (idx, ty) in arg_tys.tuple_fields().iter().enumerate() {
if idx > 0 {
p!(", ");
}
p!(print(ty));
}
if let Some(return_ty) = entry.return_ty {
self.wrap_binder(&bound_args, |args, cx| {
define_scoped_cx!(cx);
p!(write("{}", tcx.item_name(trait_def_id)));
p!("(");

p!(")");
if let Some(ty) = return_ty.skip_binder().as_type() {
if !ty.is_unit() {
p!(" -> ", print(return_ty));
}
for (idx, ty) in args.iter().enumerate() {
if idx > 0 {
p!(", ");
}
p!(write("{}", if paren_needed { ")" } else { "" }));

first = false;
p!(print(ty));
}
// If we got here, we can't print as a `impl Fn(A, B) -> C`. Just record the
// trait_refs we collected in the OpaqueFnEntry as normal trait refs.
_ => {
if entry.has_fn_once {
traits
.entry((fn_once_trait_ref, ty::PredicatePolarity::Positive))
.or_default()
.extend(
// Group the return ty with its def id, if we had one.
entry.return_ty.map(|ty| {
(tcx.require_lang_item(LangItem::FnOnceOutput, None), ty)
}),
);
}
if let Some(trait_ref) = entry.fn_mut_trait_ref {
traits.entry((trait_ref, ty::PredicatePolarity::Positive)).or_default();
}
if let Some(trait_ref) = entry.fn_trait_ref {
traits.entry((trait_ref, ty::PredicatePolarity::Positive)).or_default();

p!(")");
if let Some(ty) = return_ty.skip_binder().as_type() {
if !ty.is_unit() {
p!(" -> ", print(return_ty));
}
}
}
p!(write("{}", if paren_needed { ")" } else { "" }));

Ok(())
})?;
first = false;
Ok(())
})?;
} else {
// Otherwise, render this like a regular trait.
traits.insert(
bound_args.map_bound(|args| ty::TraitPredicate {
polarity: ty::PredicatePolarity::Positive,
trait_ref: ty::TraitRef::new(tcx, trait_def_id, [Ty::new_tup(tcx, args)]),
}),
FxIndexMap::default(),
);
}
}

// Print the rest of the trait types (that aren't Fn* family of traits)
for ((trait_ref, polarity), assoc_items) in traits {
for (trait_pred, assoc_items) in traits {
write!(self, "{}", if first { "" } else { " + " })?;

self.wrap_binder(&trait_ref, |trait_ref, cx| {
self.wrap_binder(&trait_pred, |trait_pred, cx| {
define_scoped_cx!(cx);

if polarity == ty::PredicatePolarity::Negative {
if trait_pred.polarity == ty::PredicatePolarity::Negative {
p!("!");
}
p!(print(trait_ref.print_only_trait_name()));
p!(print(trait_pred.trait_ref.print_only_trait_name()));

let generics = tcx.generics_of(trait_ref.def_id);
let own_args = generics.own_args_no_defaults(tcx, trait_ref.args);
let generics = tcx.generics_of(trait_pred.def_id());
let own_args = generics.own_args_no_defaults(tcx, trait_pred.trait_ref.args);

if !own_args.is_empty() || !assoc_items.is_empty() {
let mut first = true;
Expand Down Expand Up @@ -1230,51 +1204,48 @@ pub trait PrettyPrinter<'tcx>: Printer<'tcx> + fmt::Write {
/// traits map or fn_traits map, depending on if the trait is in the Fn* family of traits.
fn insert_trait_and_projection(
&mut self,
trait_ref: ty::PolyTraitRef<'tcx>,
polarity: ty::PredicatePolarity,
trait_pred: ty::PolyTraitPredicate<'tcx>,
proj_ty: Option<(DefId, ty::Binder<'tcx, Term<'tcx>>)>,
traits: &mut FxIndexMap<
(ty::PolyTraitRef<'tcx>, ty::PredicatePolarity),
ty::PolyTraitPredicate<'tcx>,
FxIndexMap<DefId, ty::Binder<'tcx, Term<'tcx>>>,
>,
fn_traits: &mut FxIndexMap<ty::PolyTraitRef<'tcx>, OpaqueFnEntry<'tcx>>,
fn_traits: &mut FxIndexMap<
(ty::Binder<'tcx, &'tcx ty::List<Ty<'tcx>>>, bool),
OpaqueFnEntry<'tcx>,
>,
) {
let trait_def_id = trait_ref.def_id();

// If our trait_ref is FnOnce or any of its children, project it onto the parent FnOnce
// super-trait ref and record it there.
// We skip negative Fn* bounds since they can't use parenthetical notation anyway.
if polarity == ty::PredicatePolarity::Positive
&& let Some(fn_once_trait) = self.tcx().lang_items().fn_once_trait()
{
// If we have a FnOnce, then insert it into
if trait_def_id == fn_once_trait {
let entry = fn_traits.entry(trait_ref).or_default();
// Optionally insert the return_ty as well.
if let Some((_, ty)) = proj_ty {
entry.return_ty = Some(ty);
}
entry.has_fn_once = true;
return;
} else if self.tcx().is_lang_item(trait_def_id, LangItem::FnMut) {
let super_trait_ref = elaborate::supertraits(self.tcx(), trait_ref)
.find(|super_trait_ref| super_trait_ref.def_id() == fn_once_trait)
.unwrap();
let tcx = self.tcx();
let trait_def_id = trait_pred.def_id();

fn_traits.entry(super_trait_ref).or_default().fn_mut_trait_ref = Some(trait_ref);
return;
} else if self.tcx().is_lang_item(trait_def_id, LangItem::Fn) {
let super_trait_ref = elaborate::supertraits(self.tcx(), trait_ref)
.find(|super_trait_ref| super_trait_ref.def_id() == fn_once_trait)
.unwrap();
let fn_trait_and_async = if let Some(kind) = tcx.fn_trait_kind_from_def_id(trait_def_id) {
Some((kind, false))
} else if let Some(kind) = tcx.async_fn_trait_kind_from_def_id(trait_def_id) {
Some((kind, true))
} else {
None
};

fn_traits.entry(super_trait_ref).or_default().fn_trait_ref = Some(trait_ref);
return;
if trait_pred.polarity() == ty::PredicatePolarity::Positive
&& let Some((kind, is_async)) = fn_trait_and_async
&& let ty::Tuple(types) = *trait_pred.skip_binder().trait_ref.args.type_at(1).kind()
{
let entry = fn_traits
.entry((trait_pred.rebind(types), is_async))
.or_insert_with(|| OpaqueFnEntry { kind, return_ty: None });
if kind.extends(entry.kind) {
entry.kind = kind;
}
if let Some((proj_def_id, proj_ty)) = proj_ty
&& tcx.item_name(proj_def_id) == sym::Output
{
entry.return_ty = Some(proj_ty);
}
return;
}

// Otherwise, just group our traits and projection types.
traits.entry((trait_ref, polarity)).or_default().extend(proj_ty);
traits.entry(trait_pred).or_default().extend(proj_ty);
}

fn pretty_print_inherent_projection(
Expand Down Expand Up @@ -3189,10 +3160,10 @@ define_print_and_forward_display! {

TraitRefPrintSugared<'tcx> {
if !with_reduced_queries()
&& let Some(kind) = cx.tcx().fn_trait_kind_from_def_id(self.0.def_id)
&& cx.tcx().trait_def(self.0.def_id).paren_sugar
&& let ty::Tuple(args) = self.0.args.type_at(1).kind()
{
p!(write("{}", kind.as_str()), "(");
p!(write("{}", cx.tcx().item_name(self.0.def_id)), "(");
for (i, arg) in args.iter().enumerate() {
if i > 0 {
p!(", ");
Expand Down Expand Up @@ -3415,11 +3386,7 @@ pub fn provide(providers: &mut Providers) {
*providers = Providers { trimmed_def_paths, ..*providers };
}

#[derive(Default)]
pub struct OpaqueFnEntry<'tcx> {
// The trait ref is already stored as a key, so just track if we have it as a real predicate
has_fn_once: bool,
fn_mut_trait_ref: Option<ty::PolyTraitRef<'tcx>>,
fn_trait_ref: Option<ty::PolyTraitRef<'tcx>>,
kind: ty::ClosureKind,
return_ty: Option<ty::Binder<'tcx, Term<'tcx>>>,
}
7 changes: 7 additions & 0 deletions compiler/rustc_mir_build/messages.ftl
Original file line number Diff line number Diff line change
Expand Up @@ -338,6 +338,13 @@ mir_build_unreachable_pattern = unreachable pattern
.unreachable_covered_by_catchall = matches any value
.unreachable_covered_by_one = matches all the relevant values
.unreachable_covered_by_many = multiple earlier patterns match some of the same values
.unreachable_pattern_const_reexport_accessible = there is a constant of the same name imported in another scope, which could have been used to pattern match against its value instead of introducing a new catch-all binding, but it needs to be imported in the pattern's scope
.unreachable_pattern_wanted_const = you might have meant to pattern match against the value of {$is_typo ->
[true] similarly named constant
*[false] constant
} `{$const_name}` instead of introducing a new catch-all binding
.unreachable_pattern_const_inaccessible = there is a constant of the same name, which could have been used to pattern match against its value instead of introducing a new catch-all binding, but it is not accessible from this scope
.unreachable_pattern_let_binding = there is a binding of the same name; if you meant to pattern match against the value of that binding, that is a feature of constants that is not available for `let` bindings
.suggestion = remove the match arm
mir_build_unsafe_fn_safe_body = an unsafe function restricts its caller, but its body is safe by default
Expand Down
22 changes: 22 additions & 0 deletions compiler/rustc_mir_build/src/errors.rs
Original file line number Diff line number Diff line change
Expand Up @@ -593,6 +593,14 @@ pub(crate) struct UnreachablePattern<'tcx> {
pub(crate) uninhabited_note: Option<()>,
#[label(mir_build_unreachable_covered_by_catchall)]
pub(crate) covered_by_catchall: Option<Span>,
#[subdiagnostic]
pub(crate) wanted_constant: Option<WantedConstant>,
#[note(mir_build_unreachable_pattern_const_reexport_accessible)]
pub(crate) accessible_constant: Option<Span>,
#[note(mir_build_unreachable_pattern_const_inaccessible)]
pub(crate) inaccessible_constant: Option<Span>,
#[note(mir_build_unreachable_pattern_let_binding)]
pub(crate) pattern_let_binding: Option<Span>,
#[label(mir_build_unreachable_covered_by_one)]
pub(crate) covered_by_one: Option<Span>,
#[note(mir_build_unreachable_covered_by_many)]
Expand All @@ -602,6 +610,20 @@ pub(crate) struct UnreachablePattern<'tcx> {
pub(crate) suggest_remove: Option<Span>,
}

#[derive(Subdiagnostic)]
#[suggestion(
mir_build_unreachable_pattern_wanted_const,
code = "{const_path}",
applicability = "machine-applicable"
)]
pub(crate) struct WantedConstant {
#[primary_span]
pub(crate) span: Span,
pub(crate) is_typo: bool,
pub(crate) const_name: String,
pub(crate) const_path: String,
}

#[derive(Diagnostic)]
#[diag(mir_build_const_pattern_depends_on_generic_parameter, code = E0158)]
pub(crate) struct ConstPatternDependsOnGenericParameter {
Expand Down
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