rust/compiler/rustc_ast_lowering/src/path.rs

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use super::{AnonymousLifetimeMode, ImplTraitContext, LoweringContext, ParamMode};
use super::{GenericArgsCtor, ParenthesizedGenericArgs};
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use rustc_ast::{self as ast, *};
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use rustc_errors::{struct_span_err, Applicability};
use rustc_hir as hir;
use rustc_hir::def::{DefKind, PartialRes, Res};
use rustc_hir::def_id::DefId;
use rustc_hir::GenericArg;
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use rustc_span::symbol::Ident;
use rustc_span::{BytePos, Span, DUMMY_SP};
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use smallvec::smallvec;
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use tracing::debug;
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impl<'a, 'hir> LoweringContext<'a, 'hir> {
crate fn lower_qpath(
&mut self,
id: NodeId,
qself: &Option<QSelf>,
p: &Path,
param_mode: ParamMode,
mut itctx: ImplTraitContext<'_, 'hir>,
) -> hir::QPath<'hir> {
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debug!("lower_qpath(id: {:?}, qself: {:?}, p: {:?})", id, qself, p);
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let qself_position = qself.as_ref().map(|q| q.position);
let qself = qself.as_ref().map(|q| self.lower_ty(&q.ty, itctx.reborrow()));
let partial_res =
self.resolver.get_partial_res(id).unwrap_or_else(|| PartialRes::new(Res::Err));
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let path_span_lo = p.span.shrink_to_lo();
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let proj_start = p.segments.len() - partial_res.unresolved_segments();
let path = self.arena.alloc(hir::Path {
res: self.lower_res(partial_res.base_res()),
segments: self.arena.alloc_from_iter(p.segments[..proj_start].iter().enumerate().map(
|(i, segment)| {
let param_mode = match (qself_position, param_mode) {
(Some(j), ParamMode::Optional) if i < j => {
// This segment is part of the trait path in a
// qualified path - one of `a`, `b` or `Trait`
// in `<X as a::b::Trait>::T::U::method`.
ParamMode::Explicit
}
_ => param_mode,
};
// Figure out if this is a type/trait segment,
// which may need lifetime elision performed.
let parent_def_id = |this: &mut Self, def_id: DefId| DefId {
krate: def_id.krate,
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index: this.resolver.def_key(def_id).parent.expect("missing parent"),
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};
let type_def_id = match partial_res.base_res() {
Res::Def(DefKind::AssocTy, def_id) if i + 2 == proj_start => {
Some(parent_def_id(self, def_id))
}
Res::Def(DefKind::Variant, def_id) if i + 1 == proj_start => {
Some(parent_def_id(self, def_id))
}
Res::Def(DefKind::Struct, def_id)
| Res::Def(DefKind::Union, def_id)
| Res::Def(DefKind::Enum, def_id)
| Res::Def(DefKind::TyAlias, def_id)
| Res::Def(DefKind::Trait, def_id)
if i + 1 == proj_start =>
{
Some(def_id)
}
_ => None,
};
let parenthesized_generic_args = match partial_res.base_res() {
// `a::b::Trait(Args)`
Res::Def(DefKind::Trait, _) if i + 1 == proj_start => {
ParenthesizedGenericArgs::Ok
}
// `a::b::Trait(Args)::TraitItem`
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Res::Def(DefKind::AssocFn, _)
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| Res::Def(DefKind::AssocConst, _)
| Res::Def(DefKind::AssocTy, _)
if i + 2 == proj_start =>
{
ParenthesizedGenericArgs::Ok
}
// Avoid duplicated errors.
Res::Err => ParenthesizedGenericArgs::Ok,
// An error
_ => ParenthesizedGenericArgs::Err,
};
let num_lifetimes = type_def_id
.map_or(0, |def_id| self.resolver.item_generics_num_lifetimes(def_id));
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self.lower_path_segment(
p.span,
segment,
param_mode,
num_lifetimes,
parenthesized_generic_args,
itctx.reborrow(),
)
},
)),
span: self.lower_span(
p.segments[..proj_start]
.last()
.map_or(path_span_lo, |segment| path_span_lo.to(segment.span())),
),
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});
// Simple case, either no projections, or only fully-qualified.
// E.g., `std::mem::size_of` or `<I as Iterator>::Item`.
if partial_res.unresolved_segments() == 0 {
return hir::QPath::Resolved(qself, path);
}
// Create the innermost type that we're projecting from.
let mut ty = if path.segments.is_empty() {
// If the base path is empty that means there exists a
// syntactical `Self`, e.g., `&i32` in `<&i32>::clone`.
qself.expect("missing QSelf for <T>::...")
} else {
// Otherwise, the base path is an implicit `Self` type path,
// e.g., `Vec` in `Vec::new` or `<I as Iterator>::Item` in
// `<I as Iterator>::Item::default`.
let new_id = self.next_id();
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self.arena.alloc(self.ty_path(new_id, path.span, hir::QPath::Resolved(qself, path)))
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};
// Anything after the base path are associated "extensions",
// out of which all but the last one are associated types,
// e.g., for `std::vec::Vec::<T>::IntoIter::Item::clone`:
// * base path is `std::vec::Vec<T>`
// * "extensions" are `IntoIter`, `Item` and `clone`
// * type nodes are:
// 1. `std::vec::Vec<T>` (created above)
// 2. `<std::vec::Vec<T>>::IntoIter`
// 3. `<<std::vec::Vec<T>>::IntoIter>::Item`
// * final path is `<<<std::vec::Vec<T>>::IntoIter>::Item>::clone`
for (i, segment) in p.segments.iter().enumerate().skip(proj_start) {
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let hir_segment = self.arena.alloc(self.lower_path_segment(
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p.span,
segment,
param_mode,
0,
ParenthesizedGenericArgs::Err,
itctx.reborrow(),
));
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let qpath = hir::QPath::TypeRelative(ty, hir_segment);
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// It's finished, return the extension of the right node type.
if i == p.segments.len() - 1 {
return qpath;
}
// Wrap the associated extension in another type node.
let new_id = self.next_id();
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ty = self.arena.alloc(self.ty_path(new_id, path_span_lo.to(segment.span()), qpath));
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}
// We should've returned in the for loop above.
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self.sess.diagnostic().span_bug(
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p.span,
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&format!(
"lower_qpath: no final extension segment in {}..{}",
proj_start,
p.segments.len()
),
);
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}
crate fn lower_path_extra(
&mut self,
res: Res,
p: &Path,
param_mode: ParamMode,
) -> &'hir hir::Path<'hir> {
self.arena.alloc(hir::Path {
res,
segments: self.arena.alloc_from_iter(p.segments.iter().map(|segment| {
self.lower_path_segment(
p.span,
segment,
param_mode,
0,
ParenthesizedGenericArgs::Err,
ImplTraitContext::disallowed(),
)
})),
span: self.lower_span(p.span),
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})
}
crate fn lower_path(
&mut self,
id: NodeId,
p: &Path,
param_mode: ParamMode,
) -> &'hir hir::Path<'hir> {
let res = self.expect_full_res(id);
let res = self.lower_res(res);
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self.lower_path_extra(res, p, param_mode)
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}
crate fn lower_path_segment(
&mut self,
path_span: Span,
segment: &PathSegment,
param_mode: ParamMode,
expected_lifetimes: usize,
parenthesized_generic_args: ParenthesizedGenericArgs,
itctx: ImplTraitContext<'_, 'hir>,
) -> hir::PathSegment<'hir> {
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debug!(
"path_span: {:?}, lower_path_segment(segment: {:?}, expected_lifetimes: {:?})",
path_span, segment, expected_lifetimes
);
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let (mut generic_args, infer_args) = if let Some(ref generic_args) = segment.args {
let msg = "parenthesized type parameters may only be used with a `Fn` trait";
match **generic_args {
GenericArgs::AngleBracketed(ref data) => {
self.lower_angle_bracketed_parameter_data(data, param_mode, itctx)
}
GenericArgs::Parenthesized(ref data) => match parenthesized_generic_args {
ParenthesizedGenericArgs::Ok => self.lower_parenthesized_parameter_data(data),
ParenthesizedGenericArgs::Err => {
let mut err = struct_span_err!(self.sess, data.span, E0214, "{}", msg);
err.span_label(data.span, "only `Fn` traits may use parentheses");
if let Ok(snippet) = self.sess.source_map().span_to_snippet(data.span) {
// Do not suggest going from `Trait()` to `Trait<>`
if !data.inputs.is_empty() {
// Suggest replacing `(` and `)` with `<` and `>`
// The snippet may be missing the closing `)`, skip that case
if snippet.ends_with(')') {
if let Some(split) = snippet.find('(') {
let trait_name = &snippet[0..split];
let args = &snippet[split + 1..snippet.len() - 1];
err.span_suggestion(
data.span,
"use angle brackets instead",
format!("{}<{}>", trait_name, args),
Applicability::MaybeIncorrect,
);
}
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}
}
};
err.emit();
(
self.lower_angle_bracketed_parameter_data(
&data.as_angle_bracketed_args(),
param_mode,
itctx,
)
.0,
false,
)
}
},
}
} else {
(
GenericArgsCtor {
args: Default::default(),
bindings: &[],
parenthesized: false,
span: path_span.shrink_to_hi(),
},
param_mode == ParamMode::Optional,
)
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};
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let has_lifetimes =
generic_args.args.iter().any(|arg| matches!(arg, GenericArg::Lifetime(_)));
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if !generic_args.parenthesized && !has_lifetimes && expected_lifetimes > 0 {
// Note: these spans are used for diagnostics when they can't be inferred.
// See rustc_resolve::late::lifetimes::LifetimeContext::add_missing_lifetime_specifiers_label
let elided_lifetime_span = if generic_args.span.is_empty() {
// If there are no brackets, use the identifier span.
path_span
} else if generic_args.is_empty() {
// If there are brackets, but not generic arguments, then use the opening bracket
generic_args.span.with_hi(generic_args.span.lo() + BytePos(1))
} else {
// Else use an empty span right after the opening bracket.
generic_args.span.with_lo(generic_args.span.lo() + BytePos(1)).shrink_to_lo()
};
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generic_args.args = self
.elided_path_lifetimes(elided_lifetime_span, expected_lifetimes, param_mode)
.map(GenericArg::Lifetime)
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.chain(generic_args.args.into_iter())
.collect();
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// In create-parameter mode we error here because we don't want to support
// deprecated impl elision in new features like impl elision and `async fn`,
// both of which work using the `CreateParameter` mode:
//
// impl Foo for std::cell::Ref<u32> // note lack of '_
// async fn foo(_: std::cell::Ref<u32>) { ... }
if let (ParamMode::Explicit, AnonymousLifetimeMode::CreateParameter) =
(param_mode, self.anonymous_lifetime_mode)
{
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let anon_lt_suggestion = vec!["'_"; expected_lifetimes].join(", ");
let no_non_lt_args = generic_args.args.len() == expected_lifetimes;
let no_bindings = generic_args.bindings.is_empty();
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let (incl_angl_brckt, suggestion) = if no_non_lt_args && no_bindings {
// If there are no generic args, our suggestion can include the angle brackets.
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(true, format!("<{}>", anon_lt_suggestion))
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} else {
// Otherwise we'll insert a `'_, ` right after the opening bracket.
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(false, format!("{}, ", anon_lt_suggestion))
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};
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let insertion_sp = elided_lifetime_span.shrink_to_hi();
let mut err = struct_span_err!(
self.sess,
path_span,
E0726,
"implicit elided lifetime not allowed here"
);
rustc_errors::add_elided_lifetime_in_path_suggestion(
&self.sess.source_map(),
&mut err,
expected_lifetimes,
path_span,
incl_angl_brckt,
insertion_sp,
suggestion,
);
err.note("assuming a `'static` lifetime...");
err.emit();
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}
}
let res = self.expect_full_res(segment.id);
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let id = self.lower_node_id(segment.id);
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debug!(
"lower_path_segment: ident={:?} original-id={:?} new-id={:?}",
segment.ident, segment.id, id,
);
hir::PathSegment {
ident: self.lower_ident(segment.ident),
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hir_id: Some(id),
res: Some(self.lower_res(res)),
infer_args,
args: if generic_args.is_empty() && generic_args.span.is_empty() {
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None
} else {
Some(generic_args.into_generic_args(self))
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},
}
}
pub(crate) fn lower_angle_bracketed_parameter_data(
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&mut self,
data: &AngleBracketedArgs,
param_mode: ParamMode,
mut itctx: ImplTraitContext<'_, 'hir>,
) -> (GenericArgsCtor<'hir>, bool) {
let has_non_lt_args = data.args.iter().any(|arg| match arg {
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AngleBracketedArg::Arg(ast::GenericArg::Lifetime(_))
| AngleBracketedArg::Constraint(_) => false,
AngleBracketedArg::Arg(ast::GenericArg::Type(_) | ast::GenericArg::Const(_)) => true,
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});
let args = data
.args
.iter()
.filter_map(|arg| match arg {
AngleBracketedArg::Arg(arg) => Some(self.lower_generic_arg(arg, itctx.reborrow())),
AngleBracketedArg::Constraint(_) => None,
})
.collect();
let bindings = self.arena.alloc_from_iter(data.args.iter().filter_map(|arg| match arg {
AngleBracketedArg::Constraint(c) => {
Some(self.lower_assoc_ty_constraint(c, itctx.reborrow()))
}
AngleBracketedArg::Arg(_) => None,
}));
let ctor = GenericArgsCtor { args, bindings, parenthesized: false, span: data.span };
(ctor, !has_non_lt_args && param_mode == ParamMode::Optional)
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}
fn lower_parenthesized_parameter_data(
&mut self,
data: &ParenthesizedArgs,
) -> (GenericArgsCtor<'hir>, bool) {
// Switch to `PassThrough` mode for anonymous lifetimes; this
// means that we permit things like `&Ref<T>`, where `Ref` has
// a hidden lifetime parameter. This is needed for backwards
// compatibility, even in contexts like an impl header where
// we generally don't permit such things (see #51008).
self.with_anonymous_lifetime_mode(AnonymousLifetimeMode::PassThrough, |this| {
let ParenthesizedArgs { span, inputs, inputs_span, output } = data;
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let inputs = this.arena.alloc_from_iter(
inputs.iter().map(|ty| this.lower_ty_direct(ty, ImplTraitContext::disallowed())),
);
let output_ty = match output {
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FnRetTy::Ty(ty) => this.lower_ty(&ty, ImplTraitContext::disallowed()),
FnRetTy::Default(_) => this.arena.alloc(this.ty_tup(*span, &[])),
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};
let args = smallvec![GenericArg::Type(this.ty_tup(*inputs_span, inputs))];
let binding = this.output_ty_binding(output_ty.span, output_ty);
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(
GenericArgsCtor {
args,
bindings: arena_vec![this; binding],
parenthesized: true,
span: data.inputs_span,
},
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false,
)
})
}
/// An associated type binding `Output = $ty`.
crate fn output_ty_binding(
&mut self,
span: Span,
ty: &'hir hir::Ty<'hir>,
) -> hir::TypeBinding<'hir> {
let ident = Ident::with_dummy_span(hir::FN_OUTPUT_NAME);
let kind = hir::TypeBindingKind::Equality { ty };
let args = arena_vec![self;];
let bindings = arena_vec![self;];
let gen_args = self.arena.alloc(hir::GenericArgs {
args,
bindings,
parenthesized: false,
span_ext: DUMMY_SP,
});
hir::TypeBinding {
hir_id: self.next_id(),
gen_args,
span: self.lower_span(span),
ident,
kind,
}
}
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}