370 lines
11 KiB
Rust
370 lines
11 KiB
Rust
//! A desugared representation of paths like `crate::foo` or `<Type as Trait>::bar`.
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mod lower;
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use std::{
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fmt::{self, Display},
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iter,
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sync::Arc,
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};
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use crate::{body::LowerCtx, intern::Interned, type_ref::LifetimeRef};
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use base_db::CrateId;
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use hir_expand::{
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hygiene::Hygiene,
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name::{name, Name},
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};
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use syntax::ast;
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use crate::{
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type_ref::{TypeBound, TypeRef},
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InFile,
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};
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#[derive(Debug, Clone, PartialEq, Eq, PartialOrd, Ord, Hash)]
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pub struct ModPath {
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pub kind: PathKind,
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segments: Vec<Name>,
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}
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#[derive(Debug, Clone, PartialEq, Eq, PartialOrd, Ord, Hash)]
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pub enum PathKind {
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Plain,
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/// `self::` is `Super(0)`
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Super(u8),
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Crate,
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/// Absolute path (::foo)
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Abs,
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/// `$crate` from macro expansion
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DollarCrate(CrateId),
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}
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#[derive(Debug, Clone, PartialEq, Eq)]
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pub enum ImportAlias {
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/// Unnamed alias, as in `use Foo as _;`
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Underscore,
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/// Named alias
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Alias(Name),
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}
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impl ModPath {
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pub fn from_src(path: ast::Path, hygiene: &Hygiene) -> Option<ModPath> {
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lower::lower_path(path, hygiene).map(|it| (*it.mod_path).clone())
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}
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pub fn from_segments(kind: PathKind, segments: impl IntoIterator<Item = Name>) -> ModPath {
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let segments = segments.into_iter().collect::<Vec<_>>();
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ModPath { kind, segments }
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}
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/// Creates a `ModPath` from a `PathKind`, with no extra path segments.
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pub const fn from_kind(kind: PathKind) -> ModPath {
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ModPath { kind, segments: Vec::new() }
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}
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/// Calls `cb` with all paths, represented by this use item.
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pub(crate) fn expand_use_item(
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item_src: InFile<ast::Use>,
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hygiene: &Hygiene,
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mut cb: impl FnMut(ModPath, &ast::UseTree, /* is_glob */ bool, Option<ImportAlias>),
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) {
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if let Some(tree) = item_src.value.use_tree() {
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lower::lower_use_tree(None, tree, hygiene, &mut cb);
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}
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}
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pub fn segments(&self) -> &[Name] {
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&self.segments
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}
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pub fn push_segment(&mut self, segment: Name) {
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self.segments.push(segment);
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}
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pub fn pop_segment(&mut self) -> Option<Name> {
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self.segments.pop()
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}
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/// Returns the number of segments in the path (counting special segments like `$crate` and
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/// `super`).
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pub fn len(&self) -> usize {
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self.segments.len()
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+ match self.kind {
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PathKind::Plain => 0,
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PathKind::Super(i) => i as usize,
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PathKind::Crate => 1,
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PathKind::Abs => 0,
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PathKind::DollarCrate(_) => 1,
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}
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}
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pub fn is_ident(&self) -> bool {
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self.as_ident().is_some()
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}
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pub fn is_self(&self) -> bool {
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self.kind == PathKind::Super(0) && self.segments.is_empty()
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}
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/// If this path is a single identifier, like `foo`, return its name.
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pub fn as_ident(&self) -> Option<&Name> {
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if self.kind != PathKind::Plain {
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return None;
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}
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match &*self.segments {
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[name] => Some(name),
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_ => None,
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}
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}
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}
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#[derive(Debug, Clone, PartialEq, Eq, Hash)]
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pub struct Path {
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/// Type based path like `<T>::foo`.
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/// Note that paths like `<Type as Trait>::foo` are desugard to `Trait::<Self=Type>::foo`.
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type_anchor: Option<Interned<TypeRef>>,
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mod_path: Interned<ModPath>,
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/// Invariant: the same len as `self.mod_path.segments`
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generic_args: Vec<Option<Arc<GenericArgs>>>,
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}
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/// Generic arguments to a path segment (e.g. the `i32` in `Option<i32>`). This
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/// also includes bindings of associated types, like in `Iterator<Item = Foo>`.
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#[derive(Debug, Clone, PartialEq, Eq, Hash)]
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pub struct GenericArgs {
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pub args: Vec<GenericArg>,
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/// This specifies whether the args contain a Self type as the first
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/// element. This is the case for path segments like `<T as Trait>`, where
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/// `T` is actually a type parameter for the path `Trait` specifying the
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/// Self type. Otherwise, when we have a path `Trait<X, Y>`, the Self type
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/// is left out.
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pub has_self_type: bool,
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/// Associated type bindings like in `Iterator<Item = T>`.
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pub bindings: Vec<AssociatedTypeBinding>,
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}
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/// An associated type binding like in `Iterator<Item = T>`.
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#[derive(Debug, Clone, PartialEq, Eq, Hash)]
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pub struct AssociatedTypeBinding {
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/// The name of the associated type.
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pub name: Name,
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/// The type bound to this associated type (in `Item = T`, this would be the
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/// `T`). This can be `None` if there are bounds instead.
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pub type_ref: Option<TypeRef>,
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/// Bounds for the associated type, like in `Iterator<Item:
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/// SomeOtherTrait>`. (This is the unstable `associated_type_bounds`
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/// feature.)
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pub bounds: Vec<TypeBound>,
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}
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/// A single generic argument.
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#[derive(Debug, Clone, PartialEq, Eq, Hash)]
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pub enum GenericArg {
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Type(TypeRef),
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Lifetime(LifetimeRef),
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}
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impl Path {
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/// Converts an `ast::Path` to `Path`. Works with use trees.
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/// It correctly handles `$crate` based path from macro call.
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pub fn from_src(path: ast::Path, hygiene: &Hygiene) -> Option<Path> {
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lower::lower_path(path, hygiene)
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}
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/// Converts a known mod path to `Path`.
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pub(crate) fn from_known_path(
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path: ModPath,
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generic_args: Vec<Option<Arc<GenericArgs>>>,
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) -> Path {
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Path { type_anchor: None, mod_path: Interned::new(path), generic_args }
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}
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pub fn kind(&self) -> &PathKind {
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&self.mod_path.kind
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}
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pub fn type_anchor(&self) -> Option<&TypeRef> {
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self.type_anchor.as_deref()
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}
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pub fn segments(&self) -> PathSegments<'_> {
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PathSegments {
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segments: self.mod_path.segments.as_slice(),
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generic_args: self.generic_args.as_slice(),
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}
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}
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pub fn mod_path(&self) -> &ModPath {
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&self.mod_path
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}
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pub fn qualifier(&self) -> Option<Path> {
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if self.mod_path.is_ident() {
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return None;
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}
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let res = Path {
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type_anchor: self.type_anchor.clone(),
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mod_path: Interned::new(ModPath::from_segments(
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self.mod_path.kind.clone(),
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self.mod_path.segments[..self.mod_path.segments.len() - 1].iter().cloned(),
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)),
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generic_args: self.generic_args[..self.generic_args.len() - 1].to_vec(),
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};
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Some(res)
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}
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pub fn is_self_type(&self) -> bool {
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self.type_anchor.is_none()
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&& self.generic_args == &[None]
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&& self.mod_path.as_ident() == Some(&name!(Self))
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}
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}
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#[derive(Debug, Clone, PartialEq, Eq, Hash)]
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pub struct PathSegment<'a> {
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pub name: &'a Name,
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pub args_and_bindings: Option<&'a GenericArgs>,
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}
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pub struct PathSegments<'a> {
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segments: &'a [Name],
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generic_args: &'a [Option<Arc<GenericArgs>>],
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}
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impl<'a> PathSegments<'a> {
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pub const EMPTY: PathSegments<'static> = PathSegments { segments: &[], generic_args: &[] };
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pub fn is_empty(&self) -> bool {
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self.len() == 0
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}
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pub fn len(&self) -> usize {
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self.segments.len()
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}
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pub fn first(&self) -> Option<PathSegment<'a>> {
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self.get(0)
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}
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pub fn last(&self) -> Option<PathSegment<'a>> {
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self.get(self.len().checked_sub(1)?)
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}
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pub fn get(&self, idx: usize) -> Option<PathSegment<'a>> {
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assert_eq!(self.segments.len(), self.generic_args.len());
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let res = PathSegment {
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name: self.segments.get(idx)?,
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args_and_bindings: self.generic_args.get(idx).unwrap().as_ref().map(|it| &**it),
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};
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Some(res)
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}
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pub fn skip(&self, len: usize) -> PathSegments<'a> {
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assert_eq!(self.segments.len(), self.generic_args.len());
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PathSegments { segments: &self.segments[len..], generic_args: &self.generic_args[len..] }
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}
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pub fn take(&self, len: usize) -> PathSegments<'a> {
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assert_eq!(self.segments.len(), self.generic_args.len());
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PathSegments { segments: &self.segments[..len], generic_args: &self.generic_args[..len] }
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}
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pub fn iter(&self) -> impl Iterator<Item = PathSegment<'a>> {
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self.segments.iter().zip(self.generic_args.iter()).map(|(name, args)| PathSegment {
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name,
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args_and_bindings: args.as_ref().map(|it| &**it),
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})
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}
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}
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impl GenericArgs {
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pub(crate) fn from_ast(lower_ctx: &LowerCtx, node: ast::GenericArgList) -> Option<GenericArgs> {
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lower::lower_generic_args(lower_ctx, node)
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}
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pub(crate) fn empty() -> GenericArgs {
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GenericArgs { args: Vec::new(), has_self_type: false, bindings: Vec::new() }
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}
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}
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impl From<Name> for Path {
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fn from(name: Name) -> Path {
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Path {
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type_anchor: None,
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mod_path: Interned::new(ModPath::from_segments(PathKind::Plain, iter::once(name))),
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generic_args: vec![None],
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}
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}
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}
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impl From<Name> for Box<Path> {
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fn from(name: Name) -> Box<Path> {
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Box::new(Path::from(name))
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}
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}
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impl From<Name> for ModPath {
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fn from(name: Name) -> ModPath {
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ModPath::from_segments(PathKind::Plain, iter::once(name))
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}
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}
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impl Display for ModPath {
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fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
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let mut first_segment = true;
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let mut add_segment = |s| -> fmt::Result {
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if !first_segment {
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f.write_str("::")?;
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}
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first_segment = false;
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f.write_str(s)?;
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Ok(())
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};
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match self.kind {
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PathKind::Plain => {}
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PathKind::Super(0) => add_segment("self")?,
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PathKind::Super(n) => {
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for _ in 0..n {
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add_segment("super")?;
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}
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}
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PathKind::Crate => add_segment("crate")?,
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PathKind::Abs => add_segment("")?,
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PathKind::DollarCrate(_) => add_segment("$crate")?,
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}
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for segment in &self.segments {
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if !first_segment {
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f.write_str("::")?;
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}
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first_segment = false;
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write!(f, "{}", segment)?;
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}
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Ok(())
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}
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}
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pub use hir_expand::name as __name;
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#[macro_export]
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macro_rules! __known_path {
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(core::iter::IntoIterator) => {};
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(core::iter::Iterator) => {};
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(core::result::Result) => {};
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(core::option::Option) => {};
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(core::ops::Range) => {};
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(core::ops::RangeFrom) => {};
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(core::ops::RangeFull) => {};
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(core::ops::RangeTo) => {};
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(core::ops::RangeToInclusive) => {};
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(core::ops::RangeInclusive) => {};
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(core::future::Future) => {};
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(core::ops::Try) => {};
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($path:path) => {
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compile_error!("Please register your known path in the path module")
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};
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}
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#[macro_export]
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macro_rules! __path {
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($start:ident $(:: $seg:ident)*) => ({
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$crate::__known_path!($start $(:: $seg)*);
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$crate::path::ModPath::from_segments($crate::path::PathKind::Abs, vec![
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$crate::path::__name![$start], $($crate::path::__name![$seg],)*
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])
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});
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}
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pub use crate::__path as path;
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