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