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Rollup merge of #114059 - fmease:rustdoc-fix-x-crate-impl-sized, r=GuillaumeGomez

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rustdoc: fix cross-crate `impl Sized` & `impl ?Sized`

Previously, cross-crate impl-Trait (APIT, RPIT, etc.) that only consists of a single `Sized` bound (modulo outlives-bounds) and ones that are `?Sized` were incorrectly rendered. To give you a taste (before vs. after):

```diff
- fn sized(x: impl ) -> impl
+ fn sized(x: impl Sized) -> impl Sized

- fn sized_outlives<'a>(x: impl 'a) -> impl 'a
+ fn sized_outlives<'a>(x: impl Sized + 'a) -> impl Sized + 'a

- fn maybe_sized(x: &impl ) -> &impl
+ fn maybe_sized(x: &impl ?Sized) -> &impl ?Sized

- fn debug_maybe_sized(x: &impl Debug) -> &impl ?Sized + Debug
+ fn debug_maybe_sized(x: &(impl Debug + ?Sized)) -> &(impl Debug + ?Sized)
```

Moreover, we now surround impl-Trait that has multiple bounds with parentheses if they're the pointee of a reference or raw pointer type. This affects both local and cross-crate docs. The current output isn't correct (rustc would emit the error *ambiguous `+` in a type* if we fed the rendered code back to it).

---

Best reviewed commit by commit :)

`@rustbot` label A-cross-crate-reexports
This commit is contained in:
Guillaume Gomez 2023-07-27 16:05:13 +02:00 committed by GitHub
commit 1fa0c4db4f
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GPG Key ID: 4AEE18F83AFDEB23
7 changed files with 136 additions and 48 deletions
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76
src/librustdoc/clean/mod.rs
View File

@ -804,10 +804,10 @@ fn clean_ty_generics<'tcx>(
let where_predicates = preds
.predicates
.iter()
.flat_map(|(p, _)| {
.flat_map(|(pred, _)| {
let mut projection = None;
let param_idx = (|| {
let bound_p = p.kind();
let bound_p = pred.kind();
match bound_p.skip_binder() {
ty::ClauseKind::Trait(pred) => {
if let ty::Param(param) = pred.self_ty().kind() {
@ -832,33 +832,26 @@ fn clean_ty_generics<'tcx>(
})();
if let Some(param_idx) = param_idx
&& let Some(b) = impl_trait.get_mut(&param_idx.into())
&& let Some(bounds) = impl_trait.get_mut(&param_idx.into())
{
let p: WherePredicate = clean_predicate(*p, cx)?;
let pred = clean_predicate(*pred, cx)?;
b.extend(
p.get_bounds()
bounds.extend(
pred.get_bounds()
.into_iter()
.flatten()
.cloned()
.filter(|b| !b.is_sized_bound(cx)),
);
let proj = projection.map(|p| {
(
clean_projection(p.map_bound(|p| p.projection_ty), cx, None),
p.map_bound(|p| p.term),
)
});
if let Some(((_, trait_did, name), rhs)) = proj
.as_ref()
.and_then(|(lhs, rhs): &(Type, _)| Some((lhs.projection()?, rhs)))
if let Some(proj) = projection
&& let lhs = clean_projection(proj.map_bound(|p| p.projection_ty), cx, None)
&& let Some((_, trait_did, name)) = lhs.projection()
{
impl_trait_proj.entry(param_idx).or_default().push((
trait_did,
name,
*rhs,
p.get_bound_params()
proj.map_bound(|p| p.term),
pred.get_bound_params()
.into_iter()
.flatten()
.cloned()
@ -869,13 +862,32 @@ fn clean_ty_generics<'tcx>(
return None;
}
Some(p)
Some(pred)
})
.collect::<Vec<_>>();
for (param, mut bounds) in impl_trait {
let mut has_sized = false;
bounds.retain(|b| {
if b.is_sized_bound(cx) {
has_sized = true;
false
} else {
true
}
});
if !has_sized {
bounds.push(GenericBound::maybe_sized(cx));
}
// Move trait bounds to the front.
bounds.sort_by_key(|b| !matches!(b, GenericBound::TraitBound(..)));
bounds.sort_by_key(|b| !b.is_trait_bound());
// Add back a `Sized` bound if there are no *trait* bounds remaining (incl. `?Sized`).
// Since all potential trait bounds are at the front we can just check the first bound.
if bounds.first().map_or(true, |b| !b.is_trait_bound()) {
bounds.insert(0, GenericBound::sized(cx));
}
let crate::core::ImplTraitParam::ParamIndex(idx) = param else { unreachable!() };
if let Some(proj) = impl_trait_proj.remove(&idx) {
@ -897,7 +909,7 @@ fn clean_ty_generics<'tcx>(
// implicit `Sized` bound unless removed with `?Sized`.
// However, in the list of where-predicates below, `Sized` appears like a
// normal bound: It's either present (the type is sized) or
// absent (the type is unsized) but never *maybe* (i.e. `?Sized`).
// absent (the type might be unsized) but never *maybe* (i.e. `?Sized`).
//
// This is unsuitable for rendering.
// Thus, as a first step remove all `Sized` bounds that should be implicit.
@ -2119,7 +2131,6 @@ fn clean_middle_opaque_bounds<'tcx>(
cx: &mut DocContext<'tcx>,
bounds: Vec<ty::Clause<'tcx>>,
) -> Type {
let mut regions = vec![];
let mut has_sized = false;
let mut bounds = bounds
.iter()
@ -2128,10 +2139,7 @@ fn clean_middle_opaque_bounds<'tcx>(
let trait_ref = match bound_predicate.skip_binder() {
ty::ClauseKind::Trait(tr) => bound_predicate.rebind(tr.trait_ref),
ty::ClauseKind::TypeOutlives(ty::OutlivesPredicate(_ty, reg)) => {
if let Some(r) = clean_middle_region(reg) {
regions.push(GenericBound::Outlives(r));
}
return None;
return clean_middle_region(reg).map(GenericBound::Outlives);
}
_ => return None,
};
@ -2167,10 +2175,20 @@ fn clean_middle_opaque_bounds<'tcx>(
Some(clean_poly_trait_ref_with_bindings(cx, trait_ref, bindings))
})
.collect::<Vec<_>>();
bounds.extend(regions);
if !has_sized && !bounds.is_empty() {
bounds.insert(0, GenericBound::maybe_sized(cx));
if !has_sized {
bounds.push(GenericBound::maybe_sized(cx));
}
// Move trait bounds to the front.
bounds.sort_by_key(|b| !b.is_trait_bound());
// Add back a `Sized` bound if there are no *trait* bounds remaining (incl. `?Sized`).
// Since all potential trait bounds are at the front we can just check the first bound.
if bounds.first().map_or(true, |b| !b.is_trait_bound()) {
bounds.insert(0, GenericBound::sized(cx));
}
ImplTrait(bounds)
}

17
src/librustdoc/clean/types.rs
View File

@ -1219,15 +1219,24 @@ pub(crate) enum GenericBound {
}
impl GenericBound {
pub(crate) fn sized(cx: &mut DocContext<'_>) -> GenericBound {
Self::sized_with(cx, hir::TraitBoundModifier::None)
}
pub(crate) fn maybe_sized(cx: &mut DocContext<'_>) -> GenericBound {
Self::sized_with(cx, hir::TraitBoundModifier::Maybe)
}
fn sized_with(cx: &mut DocContext<'_>, modifier: hir::TraitBoundModifier) -> GenericBound {
let did = cx.tcx.require_lang_item(LangItem::Sized, None);
let empty = ty::Binder::dummy(ty::GenericArgs::empty());
let path = external_path(cx, did, false, ThinVec::new(), empty);
inline::record_extern_fqn(cx, did, ItemType::Trait);
GenericBound::TraitBound(
PolyTrait { trait_: path, generic_params: Vec::new() },
hir::TraitBoundModifier::Maybe,
)
GenericBound::TraitBound(PolyTrait { trait_: path, generic_params: Vec::new() }, modifier)
}
pub(crate) fn is_trait_bound(&self) -> bool {
matches!(self, Self::TraitBound(..))
}
pub(crate) fn is_sized_bound(&self, cx: &DocContext<'_>) -> bool {

35
src/librustdoc/html/format.rs
View File

@ -1102,22 +1102,35 @@ fn fmt_type<'cx>(
};
let m = mutability.print_with_space();
let amp = if f.alternate() { "&" } else { "&amp;" };
match **ty {
if let clean::Generic(name) = **ty {
return primitive_link(
f,
PrimitiveType::Reference,
&format!("{amp}{lt}{m}{name}"),
cx,
);
}
write!(f, "{amp}{lt}{m}")?;
let needs_parens = match **ty {
clean::DynTrait(ref bounds, ref trait_lt)
if bounds.len() > 1 || trait_lt.is_some() =>
{
write!(f, "{}{}{}(", amp, lt, m)?;
true
}
clean::ImplTrait(ref bounds) if bounds.len() > 1 => true,
_ => false,
};
if needs_parens {
f.write_str("(")?;
}
fmt_type(ty, f, use_absolute, cx)?;
write!(f, ")")
}
clean::Generic(name) => {
primitive_link(f, PrimitiveType::Reference, &format!("{amp}{lt}{m}{name}"), cx)
}
_ => {
write!(f, "{}{}{}", amp, lt, m)?;
fmt_type(ty, f, use_absolute, cx)
}
if needs_parens {
f.write_str(")")?;
}
Ok(())
}
clean::ImplTrait(ref bounds) => {
if f.alternate() {

2
tests/rustdoc/extern-impl-trait.rs
View File

@ -7,5 +7,5 @@ extern crate extern_impl_trait;
// @has 'foo/struct.X.html' '//h4[@class="code-header"]' "impl Foo<Associated = ()> + 'a"
pub use extern_impl_trait::X;
// @has 'foo/struct.Y.html' '//h4[@class="code-header"]' "impl ?Sized + Foo<Associated = ()> + 'a"
// @has 'foo/struct.Y.html' '//h4[@class="code-header"]' "impl Foo<Associated = ()> + ?Sized + 'a"
pub use extern_impl_trait::Y;

2
tests/rustdoc/impl-everywhere.rs
View File

@ -25,6 +25,6 @@ pub fn foo_foo() -> impl Foo + Foo2 {
Bar
}
// @has foo/fn.foo_foo_foo.html '//section[@id="main-content"]//pre' "x: &'x impl Foo + Foo2"
// @has foo/fn.foo_foo_foo.html '//section[@id="main-content"]//pre' "x: &'x (impl Foo + Foo2)"
pub fn foo_foo_foo<'x>(_x: &'x (impl Foo + Foo2)) {
}

21
tests/rustdoc/inline_cross/auxiliary/impl-sized.rs Normal file
View File

@ -0,0 +1,21 @@
use std::fmt::Debug;
pub fn sized(x: impl Sized) -> impl Sized {
x
}
pub fn sized_outlives<'a>(x: impl Sized + 'a) -> impl Sized + 'a {
x
}
pub fn maybe_sized(x: &impl ?Sized) -> &impl ?Sized {
x
}
pub fn debug_maybe_sized(x: &(impl Debug + ?Sized)) -> &(impl Debug + ?Sized) {
x
}
pub fn maybe_sized_outlives<'t>(x: &(impl ?Sized + 't)) -> &(impl ?Sized + 't) {
x
}

27
tests/rustdoc/inline_cross/impl-sized.rs Normal file
View File

@ -0,0 +1,27 @@
#![crate_name = "user"]
// aux-crate:impl_sized=impl-sized.rs
// edition:2021
// @has user/fn.sized.html
// @has - '//pre[@class="rust item-decl"]' "sized(x: impl Sized) -> impl Sized"
pub use impl_sized::sized;
// @has user/fn.sized_outlives.html
// @has - '//pre[@class="rust item-decl"]' \
// "sized_outlives<'a>(x: impl Sized + 'a) -> impl Sized + 'a"
pub use impl_sized::sized_outlives;
// @has user/fn.maybe_sized.html
// @has - '//pre[@class="rust item-decl"]' "maybe_sized(x: &impl ?Sized) -> &impl ?Sized"
pub use impl_sized::maybe_sized;
// @has user/fn.debug_maybe_sized.html
// @has - '//pre[@class="rust item-decl"]' \
// "debug_maybe_sized(x: &(impl Debug + ?Sized)) -> &(impl Debug + ?Sized)"
pub use impl_sized::debug_maybe_sized;
// @has user/fn.maybe_sized_outlives.html
// @has - '//pre[@class="rust item-decl"]' \
// "maybe_sized_outlives<'t>(x: &(impl ?Sized + 't)) -> &(impl ?Sized + 't)"
pub use impl_sized::maybe_sized_outlives;