//!
//! [rustc guide]: https://rust-lang.github.io/rustc-guide/hir.html
-pub use self::BlockCheckMode::*;
-pub use self::FunctionRetTy::*;
-pub use self::PrimTy::*;
-pub use self::UnOp::*;
-pub use self::UnsafeSource::*;
-
-use crate::hir::def::{DefKind, Res};
-use crate::hir::def_id::{DefId, DefIndex, LocalDefId, CRATE_DEF_INDEX};
-use crate::ty::query::Providers;
-
-use errors::FatalError;
-use rustc_data_structures::fx::FxHashSet;
-use rustc_data_structures::sync::{par_for_each_in, Send, Sync};
-use rustc_macros::HashStable;
-use rustc_serialize::{self, Decodable, Decoder, Encodable, Encoder};
-use rustc_session::node_id::NodeMap;
-use rustc_span::source_map::{SourceMap, Spanned};
-use rustc_span::symbol::{kw, sym, Symbol};
-use rustc_span::{MultiSpan, Span, DUMMY_SP};
-use rustc_target::spec::abi::Abi;
-use smallvec::SmallVec;
-use std::collections::{BTreeMap, BTreeSet};
-use std::fmt;
-use syntax::ast::{self, AsmDialect, CrateSugar, Ident, Name, NodeId};
-use syntax::ast::{AttrVec, Attribute, FloatTy, IntTy, Label, LitKind, StrStyle, UintTy};
-pub use syntax::ast::{BorrowKind, ImplPolarity, IsAuto};
-pub use syntax::ast::{CaptureBy, Constness, Movability, Mutability, Unsafety};
-use syntax::tokenstream::TokenStream;
-use syntax::util::parser::ExprPrecedence;
-
pub mod check_attr;
-pub mod def;
-pub mod def_id;
-pub mod intravisit;
-pub mod itemlikevisit;
+pub mod exports;
pub mod map;
-pub mod pat_util;
-pub mod print;
pub mod upvars;
-/// Uniquely identifies a node in the HIR of the current crate. It is
-/// composed of the `owner`, which is the `DefIndex` of the directly enclosing
-/// `hir::Item`, `hir::TraitItem`, or `hir::ImplItem` (i.e., the closest "item-like"),
-/// and the `local_id` which is unique within the given owner.
-///
-/// This two-level structure makes for more stable values: One can move an item
-/// around within the source code, or add or remove stuff before it, without
-/// the `local_id` part of the `HirId` changing, which is a very useful property in
-/// incremental compilation where we have to persist things through changes to
-/// the code base.
-#[derive(Copy, Clone, PartialEq, Eq, Hash, Debug, PartialOrd, Ord)]
-pub struct HirId {
- pub owner: DefIndex,
- pub local_id: ItemLocalId,
-}
-
-impl HirId {
- pub fn owner_def_id(self) -> DefId {
- DefId::local(self.owner)
- }
-
- pub fn owner_local_def_id(self) -> LocalDefId {
- LocalDefId::from_def_id(DefId::local(self.owner))
- }
-}
-
-impl rustc_serialize::UseSpecializedEncodable for HirId {
- fn default_encode<S: Encoder>(&self, s: &mut S) -> Result<(), S::Error> {
- let HirId { owner, local_id } = *self;
-
- owner.encode(s)?;
- local_id.encode(s)?;
- Ok(())
- }
-}
-
-impl rustc_serialize::UseSpecializedDecodable for HirId {
- fn default_decode<D: Decoder>(d: &mut D) -> Result<HirId, D::Error> {
- let owner = DefIndex::decode(d)?;
- let local_id = ItemLocalId::decode(d)?;
-
- Ok(HirId { owner, local_id })
- }
-}
-
-impl fmt::Display for HirId {
- fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
- write!(f, "{:?}", self)
- }
-}
-
-rustc_data_structures::define_id_collections!(HirIdMap, HirIdSet, HirId);
-rustc_data_structures::define_id_collections!(ItemLocalMap, ItemLocalSet, ItemLocalId);
-
-// Hack to ensure that we don't try to access the private parts of `ItemLocalId` in this module.
-mod item_local_id_inner {
- use rustc_index::vec::Idx;
- use rustc_macros::HashStable;
- rustc_index::newtype_index! {
- /// An `ItemLocalId` uniquely identifies something within a given "item-like";
- /// that is, within a `hir::Item`, `hir::TraitItem`, or `hir::ImplItem`. There is no
- /// guarantee that the numerical value of a given `ItemLocalId` corresponds to
- /// the node's position within the owning item in any way, but there is a
- /// guarantee that the `LocalItemId`s within an owner occupy a dense range of
- /// integers starting at zero, so a mapping that maps all or most nodes within
- /// an "item-like" to something else can be implemented by a `Vec` instead of a
- /// tree or hash map.
- pub struct ItemLocalId {
- derive [HashStable]
- }
- }
-}
-
-pub use self::item_local_id_inner::ItemLocalId;
-
-/// The `HirId` corresponding to `CRATE_NODE_ID` and `CRATE_DEF_INDEX`.
-pub const CRATE_HIR_ID: HirId =
- HirId { owner: CRATE_DEF_INDEX, local_id: ItemLocalId::from_u32_const(0) };
-
-pub const DUMMY_HIR_ID: HirId = HirId { owner: CRATE_DEF_INDEX, local_id: DUMMY_ITEM_LOCAL_ID };
-
-pub const DUMMY_ITEM_LOCAL_ID: ItemLocalId = ItemLocalId::MAX;
-
-#[derive(Copy, Clone, RustcEncodable, RustcDecodable, HashStable)]
-pub struct Lifetime {
- pub hir_id: HirId,
- pub span: Span,
-
- /// Either "`'a`", referring to a named lifetime definition,
- /// or "``" (i.e., `kw::Invalid`), for elision placeholders.
- ///
- /// HIR lowering inserts these placeholders in type paths that
- /// refer to type definitions needing lifetime parameters,
- /// `&T` and `&mut T`, and trait objects without `... + 'a`.
- pub name: LifetimeName,
-}
-
-#[derive(Debug, Clone, PartialEq, Eq, RustcEncodable, RustcDecodable, Hash, Copy, HashStable)]
-pub enum ParamName {
- /// Some user-given name like `T` or `'x`.
- Plain(Ident),
-
- /// Synthetic name generated when user elided a lifetime in an impl header.
- ///
- /// E.g., the lifetimes in cases like these:
- ///
- /// impl Foo for &u32
- /// impl Foo<'_> for u32
- ///
- /// in that case, we rewrite to
- ///
- /// impl<'f> Foo for &'f u32
- /// impl<'f> Foo<'f> for u32
- ///
- /// where `'f` is something like `Fresh(0)`. The indices are
- /// unique per impl, but not necessarily continuous.
- Fresh(usize),
-
- /// Indicates an illegal name was given and an error has been
- /// reported (so we should squelch other derived errors). Occurs
- /// when, e.g., `'_` is used in the wrong place.
- Error,
-}
-
-impl ParamName {
- pub fn ident(&self) -> Ident {
- match *self {
- ParamName::Plain(ident) => ident,
- ParamName::Fresh(_) | ParamName::Error => {
- Ident::with_dummy_span(kw::UnderscoreLifetime)
- }
- }
- }
-
- pub fn modern(&self) -> ParamName {
- match *self {
- ParamName::Plain(ident) => ParamName::Plain(ident.modern()),
- param_name => param_name,
- }
- }
-}
-
-#[derive(Debug, Clone, PartialEq, Eq, RustcEncodable, RustcDecodable, Hash, Copy, HashStable)]
-pub enum LifetimeName {
- /// User-given names or fresh (synthetic) names.
- Param(ParamName),
-
- /// User wrote nothing (e.g., the lifetime in `&u32`).
- Implicit,
-
- /// Implicit lifetime in a context like `dyn Foo`. This is
- /// distinguished from implicit lifetimes elsewhere because the
- /// lifetime that they default to must appear elsewhere within the
- /// enclosing type. This means that, in an `impl Trait` context, we
- /// don't have to create a parameter for them. That is, `impl
- /// Trait<Item = &u32>` expands to an opaque type like `type
- /// Foo<'a> = impl Trait<Item = &'a u32>`, but `impl Trait<item =
- /// dyn Bar>` expands to `type Foo = impl Trait<Item = dyn Bar +
- /// 'static>`. The latter uses `ImplicitObjectLifetimeDefault` so
- /// that surrounding code knows not to create a lifetime
- /// parameter.
- ImplicitObjectLifetimeDefault,
-
- /// Indicates an error during lowering (usually `'_` in wrong place)
- /// that was already reported.
- Error,
-
- /// User wrote specifies `'_`.
- Underscore,
-
- /// User wrote `'static`.
- Static,
-}
-
-impl LifetimeName {
- pub fn ident(&self) -> Ident {
- match *self {
- LifetimeName::ImplicitObjectLifetimeDefault
- | LifetimeName::Implicit
- | LifetimeName::Error => Ident::invalid(),
- LifetimeName::Underscore => Ident::with_dummy_span(kw::UnderscoreLifetime),
- LifetimeName::Static => Ident::with_dummy_span(kw::StaticLifetime),
- LifetimeName::Param(param_name) => param_name.ident(),
- }
- }
-
- pub fn is_elided(&self) -> bool {
- match self {
- LifetimeName::ImplicitObjectLifetimeDefault
- | LifetimeName::Implicit
- | LifetimeName::Underscore => true,
-
- // It might seem surprising that `Fresh(_)` counts as
- // *not* elided -- but this is because, as far as the code
- // in the compiler is concerned -- `Fresh(_)` variants act
- // equivalently to "some fresh name". They correspond to
- // early-bound regions on an impl, in other words.
- LifetimeName::Error | LifetimeName::Param(_) | LifetimeName::Static => false,
- }
- }
-
- fn is_static(&self) -> bool {
- self == &LifetimeName::Static
- }
-
- pub fn modern(&self) -> LifetimeName {
- match *self {
- LifetimeName::Param(param_name) => LifetimeName::Param(param_name.modern()),
- lifetime_name => lifetime_name,
- }
- }
-}
-
-impl fmt::Display for Lifetime {
- fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
- self.name.ident().fmt(f)
- }
-}
-
-impl fmt::Debug for Lifetime {
- fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
- write!(
- f,
- "lifetime({}: {})",
- self.hir_id,
- print::to_string(print::NO_ANN, |s| s.print_lifetime(self))
- )
- }
-}
-
-impl Lifetime {
- pub fn is_elided(&self) -> bool {
- self.name.is_elided()
- }
-
- pub fn is_static(&self) -> bool {
- self.name.is_static()
- }
-}
-
-/// A `Path` is essentially Rust's notion of a name; for instance,
-/// `std::cmp::PartialEq`. It's represented as a sequence of identifiers,
-/// along with a bunch of supporting information.
-#[derive(RustcEncodable, RustcDecodable, HashStable)]
-pub struct Path<'hir> {
- pub span: Span,
- /// The resolution for the path.
- pub res: Res,
- /// The segments in the path: the things separated by `::`.
- pub segments: &'hir [PathSegment<'hir>],
-}
-
-impl Path<'_> {
- pub fn is_global(&self) -> bool {
- !self.segments.is_empty() && self.segments[0].ident.name == kw::PathRoot
- }
-}
-
-impl fmt::Debug for Path<'_> {
- fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
- write!(f, "path({})", self)
- }
-}
-
-impl fmt::Display for Path<'_> {
- fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
- write!(f, "{}", print::to_string(print::NO_ANN, |s| s.print_path(self, false)))
- }
-}
-
-/// A segment of a path: an identifier, an optional lifetime, and a set of
-/// types.
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub struct PathSegment<'hir> {
- /// The identifier portion of this path segment.
- #[stable_hasher(project(name))]
- pub ident: Ident,
- // `id` and `res` are optional. We currently only use these in save-analysis,
- // any path segments without these will not have save-analysis info and
- // therefore will not have 'jump to def' in IDEs, but otherwise will not be
- // affected. (In general, we don't bother to get the defs for synthesized
- // segments, only for segments which have come from the AST).
- pub hir_id: Option<HirId>,
- pub res: Option<Res>,
-
- /// Type/lifetime parameters attached to this path. They come in
- /// two flavors: `Path<A,B,C>` and `Path(A,B) -> C`. Note that
- /// this is more than just simple syntactic sugar; the use of
- /// parens affects the region binding rules, so we preserve the
- /// distinction.
- pub args: Option<&'hir GenericArgs<'hir>>,
-
- /// Whether to infer remaining type parameters, if any.
- /// This only applies to expression and pattern paths, and
- /// out of those only the segments with no type parameters
- /// to begin with, e.g., `Vec::new` is `<Vec<..>>::new::<..>`.
- pub infer_args: bool,
-}
-
-impl<'hir> PathSegment<'hir> {
- /// Converts an identifier to the corresponding segment.
- pub fn from_ident(ident: Ident) -> PathSegment<'hir> {
- PathSegment { ident, hir_id: None, res: None, infer_args: true, args: None }
- }
-
- pub fn generic_args(&self) -> &GenericArgs<'hir> {
- if let Some(ref args) = self.args {
- args
- } else {
- const DUMMY: &GenericArgs<'_> = &GenericArgs::none();
- DUMMY
- }
- }
-}
-
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub struct ConstArg {
- pub value: AnonConst,
- pub span: Span,
-}
-
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub enum GenericArg<'hir> {
- Lifetime(Lifetime),
- Type(Ty<'hir>),
- Const(ConstArg),
-}
-
-impl GenericArg<'_> {
- pub fn span(&self) -> Span {
- match self {
- GenericArg::Lifetime(l) => l.span,
- GenericArg::Type(t) => t.span,
- GenericArg::Const(c) => c.span,
- }
- }
-
- pub fn id(&self) -> HirId {
- match self {
- GenericArg::Lifetime(l) => l.hir_id,
- GenericArg::Type(t) => t.hir_id,
- GenericArg::Const(c) => c.value.hir_id,
- }
- }
-
- pub fn is_const(&self) -> bool {
- match self {
- GenericArg::Const(_) => true,
- _ => false,
- }
- }
-}
-
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub struct GenericArgs<'hir> {
- /// The generic arguments for this path segment.
- pub args: &'hir [GenericArg<'hir>],
- /// Bindings (equality constraints) on associated types, if present.
- /// E.g., `Foo<A = Bar>`.
- pub bindings: &'hir [TypeBinding<'hir>],
- /// Were arguments written in parenthesized form `Fn(T) -> U`?
- /// This is required mostly for pretty-printing and diagnostics,
- /// but also for changing lifetime elision rules to be "function-like".
- pub parenthesized: bool,
-}
-
-impl GenericArgs<'_> {
- pub const fn none() -> Self {
- Self { args: &[], bindings: &[], parenthesized: false }
- }
-
- pub fn is_empty(&self) -> bool {
- self.args.is_empty() && self.bindings.is_empty() && !self.parenthesized
- }
-
- pub fn inputs(&self) -> &[Ty<'_>] {
- if self.parenthesized {
- for arg in self.args {
- match arg {
- GenericArg::Lifetime(_) => {}
- GenericArg::Type(ref ty) => {
- if let TyKind::Tup(ref tys) = ty.kind {
- return tys;
- }
- break;
- }
- GenericArg::Const(_) => {}
- }
- }
- }
- bug!("GenericArgs::inputs: not a `Fn(T) -> U`");
- }
-
- pub fn own_counts(&self) -> GenericParamCount {
- // We could cache this as a property of `GenericParamCount`, but
- // the aim is to refactor this away entirely eventually and the
- // presence of this method will be a constant reminder.
- let mut own_counts: GenericParamCount = Default::default();
-
- for arg in self.args {
- match arg {
- GenericArg::Lifetime(_) => own_counts.lifetimes += 1,
- GenericArg::Type(_) => own_counts.types += 1,
- GenericArg::Const(_) => own_counts.consts += 1,
- };
- }
-
- own_counts
- }
-}
-
-/// A modifier on a bound, currently this is only used for `?Sized`, where the
-/// modifier is `Maybe`. Negative bounds should also be handled here.
-#[derive(Copy, Clone, PartialEq, Eq, RustcEncodable, RustcDecodable, Hash, Debug, HashStable)]
-pub enum TraitBoundModifier {
- None,
- Maybe,
-}
-
-/// The AST represents all type param bounds as types.
-/// `typeck::collect::compute_bounds` matches these against
-/// the "special" built-in traits (see `middle::lang_items`) and
-/// detects `Copy`, `Send` and `Sync`.
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub enum GenericBound<'hir> {
- Trait(PolyTraitRef<'hir>, TraitBoundModifier),
- Outlives(Lifetime),
-}
-
-impl GenericBound<'_> {
- pub fn span(&self) -> Span {
- match self {
- &GenericBound::Trait(ref t, ..) => t.span,
- &GenericBound::Outlives(ref l) => l.span,
- }
- }
-}
-
-pub type GenericBounds<'hir> = &'hir [GenericBound<'hir>];
-
-#[derive(Copy, Clone, PartialEq, Eq, RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub enum LifetimeParamKind {
- // Indicates that the lifetime definition was explicitly declared (e.g., in
- // `fn foo<'a>(x: &'a u8) -> &'a u8 { x }`).
- Explicit,
-
- // Indicates that the lifetime definition was synthetically added
- // as a result of an in-band lifetime usage (e.g., in
- // `fn foo(x: &'a u8) -> &'a u8 { x }`).
- InBand,
-
- // Indication that the lifetime was elided (e.g., in both cases in
- // `fn foo(x: &u8) -> &'_ u8 { x }`).
- Elided,
-
- // Indication that the lifetime name was somehow in error.
- Error,
-}
-
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub enum GenericParamKind<'hir> {
- /// A lifetime definition (e.g., `'a: 'b + 'c + 'd`).
- Lifetime {
- kind: LifetimeParamKind,
- },
- Type {
- default: Option<&'hir Ty<'hir>>,
- synthetic: Option<SyntheticTyParamKind>,
- },
- Const {
- ty: &'hir Ty<'hir>,
- },
-}
-
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub struct GenericParam<'hir> {
- pub hir_id: HirId,
- pub name: ParamName,
- pub attrs: &'hir [Attribute],
- pub bounds: GenericBounds<'hir>,
- pub span: Span,
- pub pure_wrt_drop: bool,
- pub kind: GenericParamKind<'hir>,
-}
-
-#[derive(Default)]
-pub struct GenericParamCount {
- pub lifetimes: usize,
- pub types: usize,
- pub consts: usize,
-}
-
-/// Represents lifetimes and type parameters attached to a declaration
-/// of a function, enum, trait, etc.
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub struct Generics<'hir> {
- pub params: &'hir [GenericParam<'hir>],
- pub where_clause: WhereClause<'hir>,
- pub span: Span,
-}
-
-impl Generics<'hir> {
- pub const fn empty() -> Generics<'hir> {
- Generics {
- params: &[],
- where_clause: WhereClause { predicates: &[], span: DUMMY_SP },
- span: DUMMY_SP,
- }
- }
-
- pub fn own_counts(&self) -> GenericParamCount {
- // We could cache this as a property of `GenericParamCount`, but
- // the aim is to refactor this away entirely eventually and the
- // presence of this method will be a constant reminder.
- let mut own_counts: GenericParamCount = Default::default();
-
- for param in self.params {
- match param.kind {
- GenericParamKind::Lifetime { .. } => own_counts.lifetimes += 1,
- GenericParamKind::Type { .. } => own_counts.types += 1,
- GenericParamKind::Const { .. } => own_counts.consts += 1,
- };
- }
-
- own_counts
- }
-
- pub fn get_named(&self, name: Symbol) -> Option<&GenericParam<'_>> {
- for param in self.params {
- if name == param.name.ident().name {
- return Some(param);
- }
- }
- None
- }
-
- pub fn spans(&self) -> MultiSpan {
- if self.params.is_empty() {
- self.span.into()
- } else {
- self.params.iter().map(|p| p.span).collect::<Vec<Span>>().into()
- }
- }
-}
-
-/// Synthetic type parameters are converted to another form during lowering; this allows
-/// us to track the original form they had, and is useful for error messages.
-#[derive(Copy, Clone, PartialEq, Eq, RustcEncodable, RustcDecodable, Hash, Debug, HashStable)]
-pub enum SyntheticTyParamKind {
- ImplTrait,
-}
-
-/// A where-clause in a definition.
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub struct WhereClause<'hir> {
- pub predicates: &'hir [WherePredicate<'hir>],
- // Only valid if predicates isn't empty.
- pub span: Span,
-}
-
-impl WhereClause<'_> {
- pub fn span(&self) -> Option<Span> {
- if self.predicates.is_empty() { None } else { Some(self.span) }
- }
-
- /// The `WhereClause` under normal circumstances points at either the predicates or the empty
- /// space where the `where` clause should be. Only of use for diagnostic suggestions.
- pub fn span_for_predicates_or_empty_place(&self) -> Span {
- self.span
- }
-}
-
-/// A single predicate in a where-clause.
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub enum WherePredicate<'hir> {
- /// A type binding (e.g., `for<'c> Foo: Send + Clone + 'c`).
- BoundPredicate(WhereBoundPredicate<'hir>),
- /// A lifetime predicate (e.g., `'a: 'b + 'c`).
- RegionPredicate(WhereRegionPredicate<'hir>),
- /// An equality predicate (unsupported).
- EqPredicate(WhereEqPredicate<'hir>),
-}
-
-impl WherePredicate<'_> {
- pub fn span(&self) -> Span {
- match self {
- &WherePredicate::BoundPredicate(ref p) => p.span,
- &WherePredicate::RegionPredicate(ref p) => p.span,
- &WherePredicate::EqPredicate(ref p) => p.span,
- }
- }
-}
-
-/// A type bound (e.g., `for<'c> Foo: Send + Clone + 'c`).
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub struct WhereBoundPredicate<'hir> {
- pub span: Span,
- /// Any generics from a `for` binding.
- pub bound_generic_params: &'hir [GenericParam<'hir>],
- /// The type being bounded.
- pub bounded_ty: &'hir Ty<'hir>,
- /// Trait and lifetime bounds (e.g., `Clone + Send + 'static`).
- pub bounds: GenericBounds<'hir>,
-}
-
-/// A lifetime predicate (e.g., `'a: 'b + 'c`).
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub struct WhereRegionPredicate<'hir> {
- pub span: Span,
- pub lifetime: Lifetime,
- pub bounds: GenericBounds<'hir>,
-}
-
-/// An equality predicate (e.g., `T = int`); currently unsupported.
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub struct WhereEqPredicate<'hir> {
- pub hir_id: HirId,
- pub span: Span,
- pub lhs_ty: &'hir Ty<'hir>,
- pub rhs_ty: &'hir Ty<'hir>,
-}
-
-#[derive(RustcEncodable, RustcDecodable, Debug)]
-pub struct ModuleItems {
- // Use BTreeSets here so items are in the same order as in the
- // list of all items in Crate
- pub items: BTreeSet<HirId>,
- pub trait_items: BTreeSet<TraitItemId>,
- pub impl_items: BTreeSet<ImplItemId>,
-}
-
-/// The top-level data structure that stores the entire contents of
-/// the crate currently being compiled.
-///
-/// For more details, see the [rustc guide].
-///
-/// [rustc guide]: https://rust-lang.github.io/rustc-guide/hir.html
-#[derive(RustcEncodable, RustcDecodable, Debug)]
-pub struct Crate<'hir> {
- pub module: Mod<'hir>,
- pub attrs: &'hir [Attribute],
- pub span: Span,
- pub exported_macros: &'hir [MacroDef<'hir>],
- // Attributes from non-exported macros, kept only for collecting the library feature list.
- pub non_exported_macro_attrs: &'hir [Attribute],
-
- // N.B., we use a `BTreeMap` here so that `visit_all_items` iterates
- // over the ids in increasing order. In principle it should not
- // matter what order we visit things in, but in *practice* it
- // does, because it can affect the order in which errors are
- // detected, which in turn can make compile-fail tests yield
- // slightly different results.
- pub items: BTreeMap<HirId, Item<'hir>>,
-
- pub trait_items: BTreeMap<TraitItemId, TraitItem<'hir>>,
- pub impl_items: BTreeMap<ImplItemId, ImplItem<'hir>>,
- pub bodies: BTreeMap<BodyId, Body<'hir>>,
- pub trait_impls: BTreeMap<DefId, Vec<HirId>>,
-
- /// A list of the body ids written out in the order in which they
- /// appear in the crate. If you're going to process all the bodies
- /// in the crate, you should iterate over this list rather than the keys
- /// of bodies.
- pub body_ids: Vec<BodyId>,
-
- /// A list of modules written out in the order in which they
- /// appear in the crate. This includes the main crate module.
- pub modules: BTreeMap<HirId, ModuleItems>,
-}
-
-impl Crate<'hir> {
- pub fn item(&self, id: HirId) -> &Item<'hir> {
- &self.items[&id]
- }
-
- pub fn trait_item(&self, id: TraitItemId) -> &TraitItem<'hir> {
- &self.trait_items[&id]
- }
-
- pub fn impl_item(&self, id: ImplItemId) -> &ImplItem<'hir> {
- &self.impl_items[&id]
- }
-
- pub fn body(&self, id: BodyId) -> &Body<'hir> {
- &self.bodies[&id]
- }
-}
-
-impl Crate<'_> {
- /// Visits all items in the crate in some deterministic (but
- /// unspecified) order. If you just need to process every item,
- /// but don't care about nesting, this method is the best choice.
- ///
- /// If you do care about nesting -- usually because your algorithm
- /// follows lexical scoping rules -- then you want a different
- /// approach. You should override `visit_nested_item` in your
- /// visitor and then call `intravisit::walk_crate` instead.
- pub fn visit_all_item_likes<'hir, V>(&'hir self, visitor: &mut V)
- where
- V: itemlikevisit::ItemLikeVisitor<'hir>,
- {
- for (_, item) in &self.items {
- visitor.visit_item(item);
- }
-
- for (_, trait_item) in &self.trait_items {
- visitor.visit_trait_item(trait_item);
- }
-
- for (_, impl_item) in &self.impl_items {
- visitor.visit_impl_item(impl_item);
- }
- }
-
- /// A parallel version of `visit_all_item_likes`.
- pub fn par_visit_all_item_likes<'hir, V>(&'hir self, visitor: &V)
- where
- V: itemlikevisit::ParItemLikeVisitor<'hir> + Sync + Send,
- {
- parallel!(
- {
- par_for_each_in(&self.items, |(_, item)| {
- visitor.visit_item(item);
- });
- },
- {
- par_for_each_in(&self.trait_items, |(_, trait_item)| {
- visitor.visit_trait_item(trait_item);
- });
- },
- {
- par_for_each_in(&self.impl_items, |(_, impl_item)| {
- visitor.visit_impl_item(impl_item);
- });
- }
- );
- }
-}
-
-/// A macro definition, in this crate or imported from another.
-///
-/// Not parsed directly, but created on macro import or `macro_rules!` expansion.
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub struct MacroDef<'hir> {
- pub name: Name,
- pub vis: Visibility<'hir>,
- pub attrs: &'hir [Attribute],
- pub hir_id: HirId,
- pub span: Span,
- pub body: TokenStream,
- pub legacy: bool,
-}
-
-/// A block of statements `{ .. }`, which may have a label (in this case the
-/// `targeted_by_break` field will be `true`) and may be `unsafe` by means of
-/// the `rules` being anything but `DefaultBlock`.
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub struct Block<'hir> {
- /// Statements in a block.
- pub stmts: &'hir [Stmt<'hir>],
- /// An expression at the end of the block
- /// without a semicolon, if any.
- pub expr: Option<&'hir Expr<'hir>>,
- #[stable_hasher(ignore)]
- pub hir_id: HirId,
- /// Distinguishes between `unsafe { ... }` and `{ ... }`.
- pub rules: BlockCheckMode,
- pub span: Span,
- /// If true, then there may exist `break 'a` values that aim to
- /// break out of this block early.
- /// Used by `'label: {}` blocks and by `try {}` blocks.
- pub targeted_by_break: bool,
-}
-
-#[derive(RustcEncodable, RustcDecodable, HashStable)]
-pub struct Pat<'hir> {
- #[stable_hasher(ignore)]
- pub hir_id: HirId,
- pub kind: PatKind<'hir>,
- pub span: Span,
-}
-
-impl fmt::Debug for Pat<'_> {
- fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
- write!(
- f,
- "pat({}: {})",
- self.hir_id,
- print::to_string(print::NO_ANN, |s| s.print_pat(self))
- )
- }
-}
-
-impl Pat<'_> {
- // FIXME(#19596) this is a workaround, but there should be a better way
- fn walk_short_(&self, it: &mut impl FnMut(&Pat<'_>) -> bool) -> bool {
- if !it(self) {
- return false;
- }
-
- use PatKind::*;
- match &self.kind {
- Wild | Lit(_) | Range(..) | Binding(.., None) | Path(_) => true,
- Box(s) | Ref(s, _) | Binding(.., Some(s)) => s.walk_short_(it),
- Struct(_, fields, _) => fields.iter().all(|field| field.pat.walk_short_(it)),
- TupleStruct(_, s, _) | Tuple(s, _) | Or(s) => s.iter().all(|p| p.walk_short_(it)),
- Slice(before, slice, after) => {
- before.iter().chain(slice.iter()).chain(after.iter()).all(|p| p.walk_short_(it))
- }
- }
- }
-
- /// Walk the pattern in left-to-right order,
- /// short circuiting (with `.all(..)`) if `false` is returned.
- ///
- /// Note that when visiting e.g. `Tuple(ps)`,
- /// if visiting `ps[0]` returns `false`,
- /// then `ps[1]` will not be visited.
- pub fn walk_short(&self, mut it: impl FnMut(&Pat<'_>) -> bool) -> bool {
- self.walk_short_(&mut it)
- }
-
- // FIXME(#19596) this is a workaround, but there should be a better way
- fn walk_(&self, it: &mut impl FnMut(&Pat<'_>) -> bool) {
- if !it(self) {
- return;
- }
-
- use PatKind::*;
- match &self.kind {
- Wild | Lit(_) | Range(..) | Binding(.., None) | Path(_) => {}
- Box(s) | Ref(s, _) | Binding(.., Some(s)) => s.walk_(it),
- Struct(_, fields, _) => fields.iter().for_each(|field| field.pat.walk_(it)),
- TupleStruct(_, s, _) | Tuple(s, _) | Or(s) => s.iter().for_each(|p| p.walk_(it)),
- Slice(before, slice, after) => {
- before.iter().chain(slice.iter()).chain(after.iter()).for_each(|p| p.walk_(it))
- }
- }
- }
-
- /// Walk the pattern in left-to-right order.
- ///
- /// If `it(pat)` returns `false`, the children are not visited.
- pub fn walk(&self, mut it: impl FnMut(&Pat<'_>) -> bool) {
- self.walk_(&mut it)
- }
-
- /// Walk the pattern in left-to-right order.
- ///
- /// If you always want to recurse, prefer this method over `walk`.
- pub fn walk_always(&self, mut it: impl FnMut(&Pat<'_>)) {
- self.walk(|p| {
- it(p);
- true
- })
- }
-}
-
-/// A single field in a struct pattern.
-///
-/// Patterns like the fields of Foo `{ x, ref y, ref mut z }`
-/// are treated the same as` x: x, y: ref y, z: ref mut z`,
-/// except `is_shorthand` is true.
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub struct FieldPat<'hir> {
- #[stable_hasher(ignore)]
- pub hir_id: HirId,
- /// The identifier for the field.
- #[stable_hasher(project(name))]
- pub ident: Ident,
- /// The pattern the field is destructured to.
- pub pat: &'hir Pat<'hir>,
- pub is_shorthand: bool,
- pub span: Span,
-}
-
-/// Explicit binding annotations given in the HIR for a binding. Note
-/// that this is not the final binding *mode* that we infer after type
-/// inference.
-#[derive(Copy, Clone, PartialEq, RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub enum BindingAnnotation {
- /// No binding annotation given: this means that the final binding mode
- /// will depend on whether we have skipped through a `&` reference
- /// when matching. For example, the `x` in `Some(x)` will have binding
- /// mode `None`; if you do `let Some(x) = &Some(22)`, it will
- /// ultimately be inferred to be by-reference.
- ///
- /// Note that implicit reference skipping is not implemented yet (#42640).
- Unannotated,
-
- /// Annotated with `mut x` -- could be either ref or not, similar to `None`.
- Mutable,
-
- /// Annotated as `ref`, like `ref x`
- Ref,
-
- /// Annotated as `ref mut x`.
- RefMut,
-}
-
-#[derive(Copy, Clone, PartialEq, RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub enum RangeEnd {
- Included,
- Excluded,
-}
-
-impl fmt::Display for RangeEnd {
- fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
- f.write_str(match self {
- RangeEnd::Included => "..=",
- RangeEnd::Excluded => "..",
- })
- }
-}
-
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub enum PatKind<'hir> {
- /// Represents a wildcard pattern (i.e., `_`).
- Wild,
-
- /// A fresh binding `ref mut binding @ OPT_SUBPATTERN`.
- /// The `HirId` is the canonical ID for the variable being bound,
- /// (e.g., in `Ok(x) | Err(x)`, both `x` use the same canonical ID),
- /// which is the pattern ID of the first `x`.
- Binding(BindingAnnotation, HirId, Ident, Option<&'hir Pat<'hir>>),
-
- /// A struct or struct variant pattern (e.g., `Variant {x, y, ..}`).
- /// The `bool` is `true` in the presence of a `..`.
- Struct(QPath<'hir>, &'hir [FieldPat<'hir>], bool),
-
- /// A tuple struct/variant pattern `Variant(x, y, .., z)`.
- /// If the `..` pattern fragment is present, then `Option<usize>` denotes its position.
- /// `0 <= position <= subpats.len()`
- TupleStruct(QPath<'hir>, &'hir [&'hir Pat<'hir>], Option<usize>),
-
- /// An or-pattern `A | B | C`.
- /// Invariant: `pats.len() >= 2`.
- Or(&'hir [&'hir Pat<'hir>]),
-
- /// A path pattern for an unit struct/variant or a (maybe-associated) constant.
- Path(QPath<'hir>),
-
- /// A tuple pattern (e.g., `(a, b)`).
- /// If the `..` pattern fragment is present, then `Option<usize>` denotes its position.
- /// `0 <= position <= subpats.len()`
- Tuple(&'hir [&'hir Pat<'hir>], Option<usize>),
-
- /// A `box` pattern.
- Box(&'hir Pat<'hir>),
-
- /// A reference pattern (e.g., `&mut (a, b)`).
- Ref(&'hir Pat<'hir>, Mutability),
-
- /// A literal.
- Lit(&'hir Expr<'hir>),
-
- /// A range pattern (e.g., `1..=2` or `1..2`).
- Range(&'hir Expr<'hir>, &'hir Expr<'hir>, RangeEnd),
-
- /// A slice pattern, `[before_0, ..., before_n, (slice, after_0, ..., after_n)?]`.
- ///
- /// Here, `slice` is lowered from the syntax `($binding_mode $ident @)? ..`.
- /// If `slice` exists, then `after` can be non-empty.
- ///
- /// The representation for e.g., `[a, b, .., c, d]` is:
- /// ```
- /// PatKind::Slice([Binding(a), Binding(b)], Some(Wild), [Binding(c), Binding(d)])
- /// ```
- Slice(&'hir [&'hir Pat<'hir>], Option<&'hir Pat<'hir>>, &'hir [&'hir Pat<'hir>]),
-}
-
-#[derive(Copy, Clone, PartialEq, RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub enum BinOpKind {
- /// The `+` operator (addition).
- Add,
- /// The `-` operator (subtraction).
- Sub,
- /// The `*` operator (multiplication).
- Mul,
- /// The `/` operator (division).
- Div,
- /// The `%` operator (modulus).
- Rem,
- /// The `&&` operator (logical and).
- And,
- /// The `||` operator (logical or).
- Or,
- /// The `^` operator (bitwise xor).
- BitXor,
- /// The `&` operator (bitwise and).
- BitAnd,
- /// The `|` operator (bitwise or).
- BitOr,
- /// The `<<` operator (shift left).
- Shl,
- /// The `>>` operator (shift right).
- Shr,
- /// The `==` operator (equality).
- Eq,
- /// The `<` operator (less than).
- Lt,
- /// The `<=` operator (less than or equal to).
- Le,
- /// The `!=` operator (not equal to).
- Ne,
- /// The `>=` operator (greater than or equal to).
- Ge,
- /// The `>` operator (greater than).
- Gt,
-}
-
-impl BinOpKind {
- pub fn as_str(self) -> &'static str {
- match self {
- BinOpKind::Add => "+",
- BinOpKind::Sub => "-",
- BinOpKind::Mul => "*",
- BinOpKind::Div => "/",
- BinOpKind::Rem => "%",
- BinOpKind::And => "&&",
- BinOpKind::Or => "||",
- BinOpKind::BitXor => "^",
- BinOpKind::BitAnd => "&",
- BinOpKind::BitOr => "|",
- BinOpKind::Shl => "<<",
- BinOpKind::Shr => ">>",
- BinOpKind::Eq => "==",
- BinOpKind::Lt => "<",
- BinOpKind::Le => "<=",
- BinOpKind::Ne => "!=",
- BinOpKind::Ge => ">=",
- BinOpKind::Gt => ">",
- }
- }
-
- pub fn is_lazy(self) -> bool {
- match self {
- BinOpKind::And | BinOpKind::Or => true,
- _ => false,
- }
- }
-
- pub fn is_shift(self) -> bool {
- match self {
- BinOpKind::Shl | BinOpKind::Shr => true,
- _ => false,
- }
- }
-
- pub fn is_comparison(self) -> bool {
- match self {
- BinOpKind::Eq
- | BinOpKind::Lt
- | BinOpKind::Le
- | BinOpKind::Ne
- | BinOpKind::Gt
- | BinOpKind::Ge => true,
- BinOpKind::And
- | BinOpKind::Or
- | BinOpKind::Add
- | BinOpKind::Sub
- | BinOpKind::Mul
- | BinOpKind::Div
- | BinOpKind::Rem
- | BinOpKind::BitXor
- | BinOpKind::BitAnd
- | BinOpKind::BitOr
- | BinOpKind::Shl
- | BinOpKind::Shr => false,
- }
- }
-
- /// Returns `true` if the binary operator takes its arguments by value.
- pub fn is_by_value(self) -> bool {
- !self.is_comparison()
- }
-}
-
-impl Into<ast::BinOpKind> for BinOpKind {
- fn into(self) -> ast::BinOpKind {
- match self {
- BinOpKind::Add => ast::BinOpKind::Add,
- BinOpKind::Sub => ast::BinOpKind::Sub,
- BinOpKind::Mul => ast::BinOpKind::Mul,
- BinOpKind::Div => ast::BinOpKind::Div,
- BinOpKind::Rem => ast::BinOpKind::Rem,
- BinOpKind::And => ast::BinOpKind::And,
- BinOpKind::Or => ast::BinOpKind::Or,
- BinOpKind::BitXor => ast::BinOpKind::BitXor,
- BinOpKind::BitAnd => ast::BinOpKind::BitAnd,
- BinOpKind::BitOr => ast::BinOpKind::BitOr,
- BinOpKind::Shl => ast::BinOpKind::Shl,
- BinOpKind::Shr => ast::BinOpKind::Shr,
- BinOpKind::Eq => ast::BinOpKind::Eq,
- BinOpKind::Lt => ast::BinOpKind::Lt,
- BinOpKind::Le => ast::BinOpKind::Le,
- BinOpKind::Ne => ast::BinOpKind::Ne,
- BinOpKind::Ge => ast::BinOpKind::Ge,
- BinOpKind::Gt => ast::BinOpKind::Gt,
- }
- }
-}
-
-pub type BinOp = Spanned<BinOpKind>;
-
-#[derive(Copy, Clone, PartialEq, RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub enum UnOp {
- /// The `*` operator (deferencing).
- UnDeref,
- /// The `!` operator (logical negation).
- UnNot,
- /// The `-` operator (negation).
- UnNeg,
-}
-
-impl UnOp {
- pub fn as_str(self) -> &'static str {
- match self {
- UnDeref => "*",
- UnNot => "!",
- UnNeg => "-",
- }
- }
-
- /// Returns `true` if the unary operator takes its argument by value.
- pub fn is_by_value(self) -> bool {
- match self {
- UnNeg | UnNot => true,
- _ => false,
- }
- }
-}
-
-/// A statement.
-#[derive(RustcEncodable, RustcDecodable, HashStable)]
-pub struct Stmt<'hir> {
- pub hir_id: HirId,
- pub kind: StmtKind<'hir>,
- pub span: Span,
-}
-
-impl fmt::Debug for Stmt<'_> {
- fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
- write!(
- f,
- "stmt({}: {})",
- self.hir_id,
- print::to_string(print::NO_ANN, |s| s.print_stmt(self))
- )
- }
-}
-
-/// The contents of a statement.
-#[derive(RustcEncodable, RustcDecodable, HashStable)]
-pub enum StmtKind<'hir> {
- /// A local (`let`) binding.
- Local(&'hir Local<'hir>),
-
- /// An item binding.
- Item(ItemId),
-
- /// An expression without a trailing semi-colon (must have unit type).
- Expr(&'hir Expr<'hir>),
-
- /// An expression with a trailing semi-colon (may have any type).
- Semi(&'hir Expr<'hir>),
-}
-
-impl StmtKind<'hir> {
- pub fn attrs(&self) -> &'hir [Attribute] {
- match *self {
- StmtKind::Local(ref l) => &l.attrs,
- StmtKind::Item(_) => &[],
- StmtKind::Expr(ref e) | StmtKind::Semi(ref e) => &e.attrs,
- }
- }
-}
-
-/// Represents a `let` statement (i.e., `let <pat>:<ty> = <expr>;`).
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub struct Local<'hir> {
- pub pat: &'hir Pat<'hir>,
- /// Type annotation, if any (otherwise the type will be inferred).
- pub ty: Option<&'hir Ty<'hir>>,
- /// Initializer expression to set the value, if any.
- pub init: Option<&'hir Expr<'hir>>,
- pub hir_id: HirId,
- pub span: Span,
- pub attrs: AttrVec,
- /// Can be `ForLoopDesugar` if the `let` statement is part of a `for` loop
- /// desugaring. Otherwise will be `Normal`.
- pub source: LocalSource,
-}
-
-/// Represents a single arm of a `match` expression, e.g.
-/// `<pat> (if <guard>) => <body>`.
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub struct Arm<'hir> {
- #[stable_hasher(ignore)]
- pub hir_id: HirId,
- pub span: Span,
- pub attrs: &'hir [Attribute],
- /// If this pattern and the optional guard matches, then `body` is evaluated.
- pub pat: &'hir Pat<'hir>,
- /// Optional guard clause.
- pub guard: Option<Guard<'hir>>,
- /// The expression the arm evaluates to if this arm matches.
- pub body: &'hir Expr<'hir>,
-}
-
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub enum Guard<'hir> {
- If(&'hir Expr<'hir>),
-}
-
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub struct Field<'hir> {
- #[stable_hasher(ignore)]
- pub hir_id: HirId,
- pub ident: Ident,
- pub expr: &'hir Expr<'hir>,
- pub span: Span,
- pub is_shorthand: bool,
-}
-
-#[derive(Copy, Clone, PartialEq, RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub enum BlockCheckMode {
- DefaultBlock,
- UnsafeBlock(UnsafeSource),
- PushUnsafeBlock(UnsafeSource),
- PopUnsafeBlock(UnsafeSource),
-}
-
-#[derive(Copy, Clone, PartialEq, RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub enum UnsafeSource {
- CompilerGenerated,
- UserProvided,
-}
-
-#[derive(Copy, Clone, PartialEq, Eq, PartialOrd, Ord, RustcEncodable, RustcDecodable, Hash, Debug)]
-pub struct BodyId {
- pub hir_id: HirId,
-}
-
-/// The body of a function, closure, or constant value. In the case of
-/// a function, the body contains not only the function body itself
-/// (which is an expression), but also the argument patterns, since
-/// those are something that the caller doesn't really care about.
-///
-/// # Examples
-///
-/// ```
-/// fn foo((x, y): (u32, u32)) -> u32 {
-/// x + y
-/// }
-/// ```
-///
-/// Here, the `Body` associated with `foo()` would contain:
-///
-/// - an `params` array containing the `(x, y)` pattern
-/// - a `value` containing the `x + y` expression (maybe wrapped in a block)
-/// - `generator_kind` would be `None`
-///
-/// All bodies have an **owner**, which can be accessed via the HIR
-/// map using `body_owner_def_id()`.
-#[derive(RustcEncodable, RustcDecodable, Debug)]
-pub struct Body<'hir> {
- pub params: &'hir [Param<'hir>],
- pub value: Expr<'hir>,
- pub generator_kind: Option<GeneratorKind>,
-}
-
-impl Body<'hir> {
- pub fn id(&self) -> BodyId {
- BodyId { hir_id: self.value.hir_id }
- }
-
- pub fn generator_kind(&self) -> Option<GeneratorKind> {
- self.generator_kind
- }
-}
-
-/// The type of source expression that caused this generator to be created.
-#[derive(Clone, PartialEq, Eq, HashStable, RustcEncodable, RustcDecodable, Debug, Copy)]
-pub enum GeneratorKind {
- /// An explicit `async` block or the body of an async function.
- Async(AsyncGeneratorKind),
-
- /// A generator literal created via a `yield` inside a closure.
- Gen,
-}
-
-impl fmt::Display for GeneratorKind {
- fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
- match self {
- GeneratorKind::Async(k) => fmt::Display::fmt(k, f),
- GeneratorKind::Gen => f.write_str("generator"),
- }
- }
-}
-
-/// In the case of a generator created as part of an async construct,
-/// which kind of async construct caused it to be created?
-///
-/// This helps error messages but is also used to drive coercions in
-/// type-checking (see #60424).
-#[derive(Clone, PartialEq, Eq, HashStable, RustcEncodable, RustcDecodable, Debug, Copy)]
-pub enum AsyncGeneratorKind {
- /// An explicit `async` block written by the user.
- Block,
-
- /// An explicit `async` block written by the user.
- Closure,
-
- /// The `async` block generated as the body of an async function.
- Fn,
-}
-
-impl fmt::Display for AsyncGeneratorKind {
- fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
- f.write_str(match self {
- AsyncGeneratorKind::Block => "`async` block",
- AsyncGeneratorKind::Closure => "`async` closure body",
- AsyncGeneratorKind::Fn => "`async fn` body",
- })
- }
-}
-
-#[derive(Copy, Clone, Debug)]
-pub enum BodyOwnerKind {
- /// Functions and methods.
- Fn,
-
- /// Closures
- Closure,
-
- /// Constants and associated constants.
- Const,
-
- /// Initializer of a `static` item.
- Static(Mutability),
-}
-
-impl BodyOwnerKind {
- pub fn is_fn_or_closure(self) -> bool {
- match self {
- BodyOwnerKind::Fn | BodyOwnerKind::Closure => true,
- BodyOwnerKind::Const | BodyOwnerKind::Static(_) => false,
- }
- }
-}
-
-/// A literal.
-pub type Lit = Spanned<LitKind>;
-
-/// A constant (expression) that's not an item or associated item,
-/// but needs its own `DefId` for type-checking, const-eval, etc.
-/// These are usually found nested inside types (e.g., array lengths)
-/// or expressions (e.g., repeat counts), and also used to define
-/// explicit discriminant values for enum variants.
-#[derive(Copy, Clone, PartialEq, Eq, RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub struct AnonConst {
- pub hir_id: HirId,
- pub body: BodyId,
-}
-
-/// An expression.
-#[derive(RustcEncodable, RustcDecodable)]
-pub struct Expr<'hir> {
- pub hir_id: HirId,
- pub kind: ExprKind<'hir>,
- pub attrs: AttrVec,
- pub span: Span,
-}
-
-// `Expr` is used a lot. Make sure it doesn't unintentionally get bigger.
-#[cfg(target_arch = "x86_64")]
-static_assert_size!(Expr<'static>, 64);
-
-impl Expr<'_> {
- pub fn precedence(&self) -> ExprPrecedence {
- match self.kind {
- ExprKind::Box(_) => ExprPrecedence::Box,
- ExprKind::Array(_) => ExprPrecedence::Array,
- ExprKind::Call(..) => ExprPrecedence::Call,
- ExprKind::MethodCall(..) => ExprPrecedence::MethodCall,
- ExprKind::Tup(_) => ExprPrecedence::Tup,
- ExprKind::Binary(op, ..) => ExprPrecedence::Binary(op.node.into()),
- ExprKind::Unary(..) => ExprPrecedence::Unary,
- ExprKind::Lit(_) => ExprPrecedence::Lit,
- ExprKind::Type(..) | ExprKind::Cast(..) => ExprPrecedence::Cast,
- ExprKind::DropTemps(ref expr, ..) => expr.precedence(),
- ExprKind::Loop(..) => ExprPrecedence::Loop,
- ExprKind::Match(..) => ExprPrecedence::Match,
- ExprKind::Closure(..) => ExprPrecedence::Closure,
- ExprKind::Block(..) => ExprPrecedence::Block,
- ExprKind::Assign(..) => ExprPrecedence::Assign,
- ExprKind::AssignOp(..) => ExprPrecedence::AssignOp,
- ExprKind::Field(..) => ExprPrecedence::Field,
- ExprKind::Index(..) => ExprPrecedence::Index,
- ExprKind::Path(..) => ExprPrecedence::Path,
- ExprKind::AddrOf(..) => ExprPrecedence::AddrOf,
- ExprKind::Break(..) => ExprPrecedence::Break,
- ExprKind::Continue(..) => ExprPrecedence::Continue,
- ExprKind::Ret(..) => ExprPrecedence::Ret,
- ExprKind::InlineAsm(..) => ExprPrecedence::InlineAsm,
- ExprKind::Struct(..) => ExprPrecedence::Struct,
- ExprKind::Repeat(..) => ExprPrecedence::Repeat,
- ExprKind::Yield(..) => ExprPrecedence::Yield,
- ExprKind::Err => ExprPrecedence::Err,
- }
- }
-
- // Whether this looks like a place expr, without checking for deref
- // adjustments.
- // This will return `true` in some potentially surprising cases such as
- // `CONSTANT.field`.
- pub fn is_syntactic_place_expr(&self) -> bool {
- self.is_place_expr(|_| true)
- }
-
- // Whether this is a place expression.
- // `allow_projections_from` should return `true` if indexing a field or
- // index expression based on the given expression should be considered a
- // place expression.
- pub fn is_place_expr(&self, mut allow_projections_from: impl FnMut(&Self) -> bool) -> bool {
- match self.kind {
- ExprKind::Path(QPath::Resolved(_, ref path)) => match path.res {
- Res::Local(..) | Res::Def(DefKind::Static, _) | Res::Err => true,
- _ => false,
- },
-
- // Type ascription inherits its place expression kind from its
- // operand. See:
- // https://github.com/rust-lang/rfcs/blob/master/text/0803-type-ascription.md#type-ascription-and-temporaries
- ExprKind::Type(ref e, _) => e.is_place_expr(allow_projections_from),
-
- ExprKind::Unary(UnDeref, _) => true,
-
- ExprKind::Field(ref base, _) | ExprKind::Index(ref base, _) => {
- allow_projections_from(base) || base.is_place_expr(allow_projections_from)
- }
-
- // Partially qualified paths in expressions can only legally
- // refer to associated items which are always rvalues.
- ExprKind::Path(QPath::TypeRelative(..))
- | ExprKind::Call(..)
- | ExprKind::MethodCall(..)
- | ExprKind::Struct(..)
- | ExprKind::Tup(..)
- | ExprKind::Match(..)
- | ExprKind::Closure(..)
- | ExprKind::Block(..)
- | ExprKind::Repeat(..)
- | ExprKind::Array(..)
- | ExprKind::Break(..)
- | ExprKind::Continue(..)
- | ExprKind::Ret(..)
- | ExprKind::Loop(..)
- | ExprKind::Assign(..)
- | ExprKind::InlineAsm(..)
- | ExprKind::AssignOp(..)
- | ExprKind::Lit(_)
- | ExprKind::Unary(..)
- | ExprKind::Box(..)
- | ExprKind::AddrOf(..)
- | ExprKind::Binary(..)
- | ExprKind::Yield(..)
- | ExprKind::Cast(..)
- | ExprKind::DropTemps(..)
- | ExprKind::Err => false,
- }
- }
-
- /// If `Self.kind` is `ExprKind::DropTemps(expr)`, drill down until we get a non-`DropTemps`
- /// `Expr`. This is used in suggestions to ignore this `ExprKind` as it is semantically
- /// silent, only signaling the ownership system. By doing this, suggestions that check the
- /// `ExprKind` of any given `Expr` for presentation don't have to care about `DropTemps`
- /// beyond remembering to call this function before doing analysis on it.
- pub fn peel_drop_temps(&self) -> &Self {
- let mut expr = self;
- while let ExprKind::DropTemps(inner) = &expr.kind {
- expr = inner;
- }
- expr
- }
-}
-
-impl fmt::Debug for Expr<'_> {
- fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
- write!(
- f,
- "expr({}: {})",
- self.hir_id,
- print::to_string(print::NO_ANN, |s| s.print_expr(self))
- )
- }
-}
-
-/// Checks if the specified expression is a built-in range literal.
-/// (See: `LoweringContext::lower_expr()`).
-///
-/// FIXME(#60607): This function is a hack. If and when we have `QPath::Lang(...)`,
-/// we can use that instead as simpler, more reliable mechanism, as opposed to using `SourceMap`.
-pub fn is_range_literal(sm: &SourceMap, expr: &Expr<'_>) -> bool {
- // Returns whether the given path represents a (desugared) range,
- // either in std or core, i.e. has either a `::std::ops::Range` or
- // `::core::ops::Range` prefix.
- fn is_range_path(path: &Path<'_>) -> bool {
- let segs: Vec<_> = path.segments.iter().map(|seg| seg.ident.to_string()).collect();
- let segs: Vec<_> = segs.iter().map(|seg| &**seg).collect();
-
- // "{{root}}" is the equivalent of `::` prefix in `Path`.
- if let ["{{root}}", std_core, "ops", range] = segs.as_slice() {
- (*std_core == "std" || *std_core == "core") && range.starts_with("Range")
- } else {
- false
- }
- };
-
- // Check whether a span corresponding to a range expression is a
- // range literal, rather than an explicit struct or `new()` call.
- fn is_lit(sm: &SourceMap, span: &Span) -> bool {
- let end_point = sm.end_point(*span);
-
- if let Ok(end_string) = sm.span_to_snippet(end_point) {
- !(end_string.ends_with("}") || end_string.ends_with(")"))
- } else {
- false
- }
- };
-
- match expr.kind {
- // All built-in range literals but `..=` and `..` desugar to `Struct`s.
- ExprKind::Struct(ref qpath, _, _) => {
- if let QPath::Resolved(None, ref path) = **qpath {
- return is_range_path(&path) && is_lit(sm, &expr.span);
- }
- }
-
- // `..` desugars to its struct path.
- ExprKind::Path(QPath::Resolved(None, ref path)) => {
- return is_range_path(&path) && is_lit(sm, &expr.span);
- }
-
- // `..=` desugars into `::std::ops::RangeInclusive::new(...)`.
- ExprKind::Call(ref func, _) => {
- if let ExprKind::Path(QPath::TypeRelative(ref ty, ref segment)) = func.kind {
- if let TyKind::Path(QPath::Resolved(None, ref path)) = ty.kind {
- let new_call = segment.ident.name == sym::new;
- return is_range_path(&path) && is_lit(sm, &expr.span) && new_call;
- }
- }
- }
-
- _ => {}
- }
-
- false
-}
-
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub enum ExprKind<'hir> {
- /// A `box x` expression.
- Box(&'hir Expr<'hir>),
- /// An array (e.g., `[a, b, c, d]`).
- Array(&'hir [Expr<'hir>]),
- /// A function call.
- ///
- /// The first field resolves to the function itself (usually an `ExprKind::Path`),
- /// and the second field is the list of arguments.
- /// This also represents calling the constructor of
- /// tuple-like ADTs such as tuple structs and enum variants.
- Call(&'hir Expr<'hir>, &'hir [Expr<'hir>]),
- /// A method call (e.g., `x.foo::<'static, Bar, Baz>(a, b, c, d)`).
- ///
- /// The `PathSegment`/`Span` represent the method name and its generic arguments
- /// (within the angle brackets).
- /// The first element of the vector of `Expr`s is the expression that evaluates
- /// to the object on which the method is being called on (the receiver),
- /// and the remaining elements are the rest of the arguments.
- /// Thus, `x.foo::<Bar, Baz>(a, b, c, d)` is represented as
- /// `ExprKind::MethodCall(PathSegment { foo, [Bar, Baz] }, [x, a, b, c, d])`.
- ///
- /// To resolve the called method to a `DefId`, call [`type_dependent_def_id`] with
- /// the `hir_id` of the `MethodCall` node itself.
- ///
- /// [`type_dependent_def_id`]: ../ty/struct.TypeckTables.html#method.type_dependent_def_id
- MethodCall(&'hir PathSegment<'hir>, Span, &'hir [Expr<'hir>]),
- /// A tuple (e.g., `(a, b, c, d)`).
- Tup(&'hir [Expr<'hir>]),
- /// A binary operation (e.g., `a + b`, `a * b`).
- Binary(BinOp, &'hir Expr<'hir>, &'hir Expr<'hir>),
- /// A unary operation (e.g., `!x`, `*x`).
- Unary(UnOp, &'hir Expr<'hir>),
- /// A literal (e.g., `1`, `"foo"`).
- Lit(Lit),
- /// A cast (e.g., `foo as f64`).
- Cast(&'hir Expr<'hir>, &'hir Ty<'hir>),
- /// A type reference (e.g., `Foo`).
- Type(&'hir Expr<'hir>, &'hir Ty<'hir>),
- /// Wraps the expression in a terminating scope.
- /// This makes it semantically equivalent to `{ let _t = expr; _t }`.
- ///
- /// This construct only exists to tweak the drop order in HIR lowering.
- /// An example of that is the desugaring of `for` loops.
- DropTemps(&'hir Expr<'hir>),
- /// A conditionless loop (can be exited with `break`, `continue`, or `return`).
- ///
- /// I.e., `'label: loop { <block> }`.
- Loop(&'hir Block<'hir>, Option<Label>, LoopSource),
- /// A `match` block, with a source that indicates whether or not it is
- /// the result of a desugaring, and if so, which kind.
- Match(&'hir Expr<'hir>, &'hir [Arm<'hir>], MatchSource),
- /// A closure (e.g., `move |a, b, c| {a + b + c}`).
- ///
- /// The `Span` is the argument block `|...|`.
- ///
- /// This may also be a generator literal or an `async block` as indicated by the
- /// `Option<Movability>`.
- Closure(CaptureBy, &'hir FnDecl<'hir>, BodyId, Span, Option<Movability>),
- /// A block (e.g., `'label: { ... }`).
- Block(&'hir Block<'hir>, Option<Label>),
-
- /// An assignment (e.g., `a = foo()`).
- Assign(&'hir Expr<'hir>, &'hir Expr<'hir>, Span),
- /// An assignment with an operator.
- ///
- /// E.g., `a += 1`.
- AssignOp(BinOp, &'hir Expr<'hir>, &'hir Expr<'hir>),
- /// Access of a named (e.g., `obj.foo`) or unnamed (e.g., `obj.0`) struct or tuple field.
- Field(&'hir Expr<'hir>, Ident),
- /// An indexing operation (`foo[2]`).
- Index(&'hir Expr<'hir>, &'hir Expr<'hir>),
-
- /// Path to a definition, possibly containing lifetime or type parameters.
- Path(QPath<'hir>),
-
- /// A referencing operation (i.e., `&a` or `&mut a`).
- AddrOf(BorrowKind, Mutability, &'hir Expr<'hir>),
- /// A `break`, with an optional label to break.
- Break(Destination, Option<&'hir Expr<'hir>>),
- /// A `continue`, with an optional label.
- Continue(Destination),
- /// A `return`, with an optional value to be returned.
- Ret(Option<&'hir Expr<'hir>>),
-
- /// Inline assembly (from `asm!`), with its outputs and inputs.
- InlineAsm(&'hir InlineAsm<'hir>),
-
- /// A struct or struct-like variant literal expression.
- ///
- /// E.g., `Foo {x: 1, y: 2}`, or `Foo {x: 1, .. base}`,
- /// where `base` is the `Option<Expr>`.
- Struct(&'hir QPath<'hir>, &'hir [Field<'hir>], Option<&'hir Expr<'hir>>),
-
- /// An array literal constructed from one repeated element.
- ///
- /// E.g., `[1; 5]`. The first expression is the element
- /// to be repeated; the second is the number of times to repeat it.
- Repeat(&'hir Expr<'hir>, AnonConst),
-
- /// A suspension point for generators (i.e., `yield <expr>`).
- Yield(&'hir Expr<'hir>, YieldSource),
-
- /// A placeholder for an expression that wasn't syntactically well formed in some way.
- Err,
-}
-
-/// Represents an optionally `Self`-qualified value/type path or associated extension.
-///
-/// To resolve the path to a `DefId`, call [`qpath_res`].
-///
-/// [`qpath_res`]: ../ty/struct.TypeckTables.html#method.qpath_res
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub enum QPath<'hir> {
- /// Path to a definition, optionally "fully-qualified" with a `Self`
- /// type, if the path points to an associated item in a trait.
- ///
- /// E.g., an unqualified path like `Clone::clone` has `None` for `Self`,
- /// while `<Vec<T> as Clone>::clone` has `Some(Vec<T>)` for `Self`,
- /// even though they both have the same two-segment `Clone::clone` `Path`.
- Resolved(Option<&'hir Ty<'hir>>, &'hir Path<'hir>),
-
- /// Type-related paths (e.g., `<T>::default` or `<T>::Output`).
- /// Will be resolved by type-checking to an associated item.
- ///
- /// UFCS source paths can desugar into this, with `Vec::new` turning into
- /// `<Vec>::new`, and `T::X::Y::method` into `<<<T>::X>::Y>::method`,
- /// the `X` and `Y` nodes each being a `TyKind::Path(QPath::TypeRelative(..))`.
- TypeRelative(&'hir Ty<'hir>, &'hir PathSegment<'hir>),
-}
-
-/// Hints at the original code for a let statement.
-#[derive(Copy, Clone, RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub enum LocalSource {
- /// A `match _ { .. }`.
- Normal,
- /// A desugared `for _ in _ { .. }` loop.
- ForLoopDesugar,
- /// When lowering async functions, we create locals within the `async move` so that
- /// all parameters are dropped after the future is polled.
- ///
- /// ```ignore (pseudo-Rust)
- /// async fn foo(<pattern> @ x: Type) {
- /// async move {
- /// let <pattern> = x;
- /// }
- /// }
- /// ```
- AsyncFn,
- /// A desugared `<expr>.await`.
- AwaitDesugar,
-}
-
-/// Hints at the original code for a `match _ { .. }`.
-#[derive(Copy, Clone, PartialEq, Eq, RustcEncodable, RustcDecodable, Hash, Debug, HashStable)]
-pub enum MatchSource {
- /// A `match _ { .. }`.
- Normal,
- /// An `if _ { .. }` (optionally with `else { .. }`).
- IfDesugar { contains_else_clause: bool },
- /// An `if let _ = _ { .. }` (optionally with `else { .. }`).
- IfLetDesugar { contains_else_clause: bool },
- /// A `while _ { .. }` (which was desugared to a `loop { match _ { .. } }`).
- WhileDesugar,
- /// A `while let _ = _ { .. }` (which was desugared to a
- /// `loop { match _ { .. } }`).
- WhileLetDesugar,
- /// A desugared `for _ in _ { .. }` loop.
- ForLoopDesugar,
- /// A desugared `?` operator.
- TryDesugar,
- /// A desugared `<expr>.await`.
- AwaitDesugar,
-}
-
-impl MatchSource {
- pub fn name(self) -> &'static str {
- use MatchSource::*;
- match self {
- Normal => "match",
- IfDesugar { .. } | IfLetDesugar { .. } => "if",
- WhileDesugar | WhileLetDesugar => "while",
- ForLoopDesugar => "for",
- TryDesugar => "?",
- AwaitDesugar => ".await",
- }
- }
-}
-
-/// The loop type that yielded an `ExprKind::Loop`.
-#[derive(Copy, Clone, PartialEq, RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub enum LoopSource {
- /// A `loop { .. }` loop.
- Loop,
- /// A `while _ { .. }` loop.
- While,
- /// A `while let _ = _ { .. }` loop.
- WhileLet,
- /// A `for _ in _ { .. }` loop.
- ForLoop,
-}
-
-impl LoopSource {
- pub fn name(self) -> &'static str {
- match self {
- LoopSource::Loop => "loop",
- LoopSource::While | LoopSource::WhileLet => "while",
- LoopSource::ForLoop => "for",
- }
- }
-}
-
-#[derive(Copy, Clone, RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub enum LoopIdError {
- OutsideLoopScope,
- UnlabeledCfInWhileCondition,
- UnresolvedLabel,
-}
-
-impl fmt::Display for LoopIdError {
- fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
- f.write_str(match self {
- LoopIdError::OutsideLoopScope => "not inside loop scope",
- LoopIdError::UnlabeledCfInWhileCondition => {
- "unlabeled control flow (break or continue) in while condition"
- }
- LoopIdError::UnresolvedLabel => "label not found",
- })
- }
-}
-
-#[derive(Copy, Clone, RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub struct Destination {
- // This is `Some(_)` iff there is an explicit user-specified `label
- pub label: Option<Label>,
-
- // These errors are caught and then reported during the diagnostics pass in
- // librustc_passes/loops.rs
- pub target_id: Result<HirId, LoopIdError>,
-}
-
-/// The yield kind that caused an `ExprKind::Yield`.
-#[derive(Copy, Clone, PartialEq, Eq, Debug, RustcEncodable, RustcDecodable, HashStable)]
-pub enum YieldSource {
- /// An `<expr>.await`.
- Await,
- /// A plain `yield`.
- Yield,
-}
-
-impl fmt::Display for YieldSource {
- fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
- f.write_str(match self {
- YieldSource::Await => "`await`",
- YieldSource::Yield => "`yield`",
- })
- }
-}
-
-impl From<GeneratorKind> for YieldSource {
- fn from(kind: GeneratorKind) -> Self {
- match kind {
- // Guess based on the kind of the current generator.
- GeneratorKind::Gen => Self::Yield,
- GeneratorKind::Async(_) => Self::Await,
- }
- }
-}
-
-// N.B., if you change this, you'll probably want to change the corresponding
-// type structure in middle/ty.rs as well.
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub struct MutTy<'hir> {
- pub ty: &'hir Ty<'hir>,
- pub mutbl: Mutability,
-}
-
-/// Represents a function's signature in a trait declaration,
-/// trait implementation, or a free function.
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub struct FnSig<'hir> {
- pub header: FnHeader,
- pub decl: &'hir FnDecl<'hir>,
-}
-
-// The bodies for items are stored "out of line", in a separate
-// hashmap in the `Crate`. Here we just record the node-id of the item
-// so it can fetched later.
-#[derive(Copy, Clone, PartialEq, Eq, PartialOrd, Ord, RustcEncodable, RustcDecodable, Debug)]
-pub struct TraitItemId {
- pub hir_id: HirId,
-}
-
-/// Represents an item declaration within a trait declaration,
-/// possibly including a default implementation. A trait item is
-/// either required (meaning it doesn't have an implementation, just a
-/// signature) or provided (meaning it has a default implementation).
-#[derive(RustcEncodable, RustcDecodable, Debug)]
-pub struct TraitItem<'hir> {
- pub ident: Ident,
- pub hir_id: HirId,
- pub attrs: &'hir [Attribute],
- pub generics: Generics<'hir>,
- pub kind: TraitItemKind<'hir>,
- pub span: Span,
-}
-
-/// Represents a trait method's body (or just argument names).
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub enum TraitMethod<'hir> {
- /// No default body in the trait, just a signature.
- Required(&'hir [Ident]),
-
- /// Both signature and body are provided in the trait.
- Provided(BodyId),
-}
-
-/// Represents a trait method or associated constant or type
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub enum TraitItemKind<'hir> {
- /// An associated constant with an optional value (otherwise `impl`s must contain a value).
- Const(&'hir Ty<'hir>, Option<BodyId>),
- /// A method with an optional body.
- Method(FnSig<'hir>, TraitMethod<'hir>),
- /// An associated type with (possibly empty) bounds and optional concrete
- /// type.
- Type(GenericBounds<'hir>, Option<&'hir Ty<'hir>>),
-}
-
-// The bodies for items are stored "out of line", in a separate
-// hashmap in the `Crate`. Here we just record the node-id of the item
-// so it can fetched later.
-#[derive(Copy, Clone, PartialEq, Eq, PartialOrd, Ord, RustcEncodable, RustcDecodable, Debug)]
-pub struct ImplItemId {
- pub hir_id: HirId,
-}
-
-/// Represents anything within an `impl` block.
-#[derive(RustcEncodable, RustcDecodable, Debug)]
-pub struct ImplItem<'hir> {
- pub ident: Ident,
- pub hir_id: HirId,
- pub vis: Visibility<'hir>,
- pub defaultness: Defaultness,
- pub attrs: &'hir [Attribute],
- pub generics: Generics<'hir>,
- pub kind: ImplItemKind<'hir>,
- pub span: Span,
-}
-
-/// Represents various kinds of content within an `impl`.
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub enum ImplItemKind<'hir> {
- /// An associated constant of the given type, set to the constant result
- /// of the expression.
- Const(&'hir Ty<'hir>, BodyId),
- /// A method implementation with the given signature and body.
- Method(FnSig<'hir>, BodyId),
- /// An associated type.
- TyAlias(&'hir Ty<'hir>),
- /// An associated `type = impl Trait`.
- OpaqueTy(GenericBounds<'hir>),
-}
-
-/// Bind a type to an associated type (i.e., `A = Foo`).
-///
-/// Bindings like `A: Debug` are represented as a special type `A =
-/// $::Debug` that is understood by the astconv code.
-///
-/// FIXME(alexreg): why have a separate type for the binding case,
-/// wouldn't it be better to make the `ty` field an enum like the
-/// following?
-///
-/// ```
-/// enum TypeBindingKind {
-/// Equals(...),
-/// Binding(...),
-/// }
-/// ```
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub struct TypeBinding<'hir> {
- pub hir_id: HirId,
- #[stable_hasher(project(name))]
- pub ident: Ident,
- pub kind: TypeBindingKind<'hir>,
- pub span: Span,
-}
-
-// Represents the two kinds of type bindings.
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub enum TypeBindingKind<'hir> {
- /// E.g., `Foo<Bar: Send>`.
- Constraint { bounds: &'hir [GenericBound<'hir>] },
- /// E.g., `Foo<Bar = ()>`.
- Equality { ty: &'hir Ty<'hir> },
-}
-
-impl TypeBinding<'_> {
- pub fn ty(&self) -> &Ty<'_> {
- match self.kind {
- TypeBindingKind::Equality { ref ty } => ty,
- _ => bug!("expected equality type binding for parenthesized generic args"),
- }
- }
-}
-
-#[derive(RustcEncodable, RustcDecodable)]
-pub struct Ty<'hir> {
- pub hir_id: HirId,
- pub kind: TyKind<'hir>,
- pub span: Span,
-}
-
-impl fmt::Debug for Ty<'_> {
- fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
- write!(f, "type({})", print::to_string(print::NO_ANN, |s| s.print_type(self)))
- }
-}
-
-/// Not represented directly in the AST; referred to by name through a `ty_path`.
-#[derive(Copy, Clone, PartialEq, Eq, RustcEncodable, RustcDecodable, Hash, Debug, HashStable)]
-pub enum PrimTy {
- Int(IntTy),
- Uint(UintTy),
- Float(FloatTy),
- Str,
- Bool,
- Char,
-}
-
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub struct BareFnTy<'hir> {
- pub unsafety: Unsafety,
- pub abi: Abi,
- pub generic_params: &'hir [GenericParam<'hir>],
- pub decl: &'hir FnDecl<'hir>,
- pub param_names: &'hir [Ident],
-}
-
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub struct OpaqueTy<'hir> {
- pub generics: Generics<'hir>,
- pub bounds: GenericBounds<'hir>,
- pub impl_trait_fn: Option<DefId>,
- pub origin: OpaqueTyOrigin,
-}
-
-/// From whence the opaque type came.
-#[derive(Copy, Clone, RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub enum OpaqueTyOrigin {
- /// `type Foo = impl Trait;`
- TypeAlias,
- /// `-> impl Trait`
- FnReturn,
- /// `async fn`
- AsyncFn,
-}
-
-/// The various kinds of types recognized by the compiler.
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub enum TyKind<'hir> {
- /// A variable length slice (i.e., `[T]`).
- Slice(&'hir Ty<'hir>),
- /// A fixed length array (i.e., `[T; n]`).
- Array(&'hir Ty<'hir>, AnonConst),
- /// A raw pointer (i.e., `*const T` or `*mut T`).
- Ptr(MutTy<'hir>),
- /// A reference (i.e., `&'a T` or `&'a mut T`).
- Rptr(Lifetime, MutTy<'hir>),
- /// A bare function (e.g., `fn(usize) -> bool`).
- BareFn(&'hir BareFnTy<'hir>),
- /// The never type (`!`).
- Never,
- /// A tuple (`(A, B, C, D, ...)`).
- Tup(&'hir [Ty<'hir>]),
- /// A path to a type definition (`module::module::...::Type`), or an
- /// associated type (e.g., `<Vec<T> as Trait>::Type` or `<T>::Target`).
- ///
- /// Type parameters may be stored in each `PathSegment`.
- Path(QPath<'hir>),
- /// A type definition itself. This is currently only used for the `type Foo = impl Trait`
- /// item that `impl Trait` in return position desugars to.
- ///
- /// The generic argument list contains the lifetimes (and in the future possibly parameters)
- /// that are actually bound on the `impl Trait`.
- Def(ItemId, &'hir [GenericArg<'hir>]),
- /// A trait object type `Bound1 + Bound2 + Bound3`
- /// where `Bound` is a trait or a lifetime.
- TraitObject(&'hir [PolyTraitRef<'hir>], Lifetime),
- /// Unused for now.
- Typeof(AnonConst),
- /// `TyKind::Infer` means the type should be inferred instead of it having been
- /// specified. This can appear anywhere in a type.
- Infer,
- /// Placeholder for a type that has failed to be defined.
- Err,
-}
-
-#[derive(Copy, Clone, RustcEncodable, RustcDecodable, Debug, HashStable, PartialEq)]
-pub struct InlineAsmOutput {
- pub constraint: Symbol,
- pub is_rw: bool,
- pub is_indirect: bool,
- pub span: Span,
-}
-
-// NOTE(eddyb) This is used within MIR as well, so unlike the rest of the HIR,
-// it needs to be `Clone` and use plain `Vec<T>` instead of arena-allocated slice.
-#[derive(Clone, RustcEncodable, RustcDecodable, Debug, HashStable, PartialEq)]
-pub struct InlineAsmInner {
- pub asm: Symbol,
- pub asm_str_style: StrStyle,
- pub outputs: Vec<InlineAsmOutput>,
- pub inputs: Vec<Symbol>,
- pub clobbers: Vec<Symbol>,
- pub volatile: bool,
- pub alignstack: bool,
- pub dialect: AsmDialect,
-}
-
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub struct InlineAsm<'hir> {
- pub inner: InlineAsmInner,
- pub outputs_exprs: &'hir [Expr<'hir>],
- pub inputs_exprs: &'hir [Expr<'hir>],
-}
-
-/// Represents a parameter in a function header.
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub struct Param<'hir> {
- pub attrs: &'hir [Attribute],
- pub hir_id: HirId,
- pub pat: &'hir Pat<'hir>,
- pub span: Span,
-}
-
-/// Represents the header (not the body) of a function declaration.
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub struct FnDecl<'hir> {
- /// The types of the function's parameters.
- ///
- /// Additional argument data is stored in the function's [body](Body::parameters).
- pub inputs: &'hir [Ty<'hir>],
- pub output: FunctionRetTy<'hir>,
- pub c_variadic: bool,
- /// Does the function have an implicit self?
- pub implicit_self: ImplicitSelfKind,
-}
-
-/// Represents what type of implicit self a function has, if any.
-#[derive(Copy, Clone, RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub enum ImplicitSelfKind {
- /// Represents a `fn x(self);`.
- Imm,
- /// Represents a `fn x(mut self);`.
- Mut,
- /// Represents a `fn x(&self);`.
- ImmRef,
- /// Represents a `fn x(&mut self);`.
- MutRef,
- /// Represents when a function does not have a self argument or
- /// when a function has a `self: X` argument.
- None,
-}
-
-impl ImplicitSelfKind {
- /// Does this represent an implicit self?
- pub fn has_implicit_self(&self) -> bool {
- match *self {
- ImplicitSelfKind::None => false,
- _ => true,
- }
- }
-}
-
-#[derive(
- Copy,
- Clone,
- PartialEq,
- Eq,
- PartialOrd,
- HashStable,
- Ord,
- RustcEncodable,
- RustcDecodable,
- Debug
-)]
-pub enum IsAsync {
- Async,
- NotAsync,
-}
-
-#[derive(Copy, Clone, PartialEq, RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub enum Defaultness {
- Default { has_value: bool },
- Final,
-}
-
-impl Defaultness {
- pub fn has_value(&self) -> bool {
- match *self {
- Defaultness::Default { has_value, .. } => has_value,
- Defaultness::Final => true,
- }
- }
-
- pub fn is_final(&self) -> bool {
- *self == Defaultness::Final
- }
-
- pub fn is_default(&self) -> bool {
- match *self {
- Defaultness::Default { .. } => true,
- _ => false,
- }
- }
-}
-
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub enum FunctionRetTy<'hir> {
- /// Return type is not specified.
- ///
- /// Functions default to `()` and
- /// closures default to inference. Span points to where return
- /// type would be inserted.
- DefaultReturn(Span),
- /// Everything else.
- Return(&'hir Ty<'hir>),
-}
-
-impl fmt::Display for FunctionRetTy<'_> {
- fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
- match self {
- Return(ref ty) => print::to_string(print::NO_ANN, |s| s.print_type(ty)).fmt(f),
- DefaultReturn(_) => "()".fmt(f),
- }
- }
-}
-
-impl FunctionRetTy<'_> {
- pub fn span(&self) -> Span {
- match *self {
- DefaultReturn(span) => span,
- Return(ref ty) => ty.span,
- }
- }
-}
-
-#[derive(RustcEncodable, RustcDecodable, Debug)]
-pub struct Mod<'hir> {
- /// A span from the first token past `{` to the last token until `}`.
- /// For `mod foo;`, the inner span ranges from the first token
- /// to the last token in the external file.
- pub inner: Span,
- pub item_ids: &'hir [ItemId],
-}
-
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub struct ForeignMod<'hir> {
- pub abi: Abi,
- pub items: &'hir [ForeignItem<'hir>],
-}
-
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub struct GlobalAsm {
- pub asm: Symbol,
-}
-
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub struct EnumDef<'hir> {
- pub variants: &'hir [Variant<'hir>],
-}
-
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub struct Variant<'hir> {
- /// Name of the variant.
- #[stable_hasher(project(name))]
- pub ident: Ident,
- /// Attributes of the variant.
- pub attrs: &'hir [Attribute],
- /// Id of the variant (not the constructor, see `VariantData::ctor_hir_id()`).
- pub id: HirId,
- /// Fields and constructor id of the variant.
- pub data: VariantData<'hir>,
- /// Explicit discriminant (e.g., `Foo = 1`).
- pub disr_expr: Option<AnonConst>,
- /// Span
- pub span: Span,
-}
-
-#[derive(Copy, Clone, PartialEq, RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub enum UseKind {
- /// One import, e.g., `use foo::bar` or `use foo::bar as baz`.
- /// Also produced for each element of a list `use`, e.g.
- /// `use foo::{a, b}` lowers to `use foo::a; use foo::b;`.
- Single,
-
- /// Glob import, e.g., `use foo::*`.
- Glob,
-
- /// Degenerate list import, e.g., `use foo::{a, b}` produces
- /// an additional `use foo::{}` for performing checks such as
- /// unstable feature gating. May be removed in the future.
- ListStem,
-}
-
-/// References to traits in impls.
-///
-/// `resolve` maps each `TraitRef`'s `ref_id` to its defining trait; that's all
-/// that the `ref_id` is for. Note that `ref_id`'s value is not the `HirId` of the
-/// trait being referred to but just a unique `HirId` that serves as a key
-/// within the resolution map.
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub struct TraitRef<'hir> {
- pub path: &'hir Path<'hir>,
- // Don't hash the `ref_id`. It is tracked via the thing it is used to access.
- #[stable_hasher(ignore)]
- pub hir_ref_id: HirId,
-}
-
-impl TraitRef<'_> {
- /// Gets the `DefId` of the referenced trait. It _must_ actually be a trait or trait alias.
- pub fn trait_def_id(&self) -> DefId {
- match self.path.res {
- Res::Def(DefKind::Trait, did) => did,
- Res::Def(DefKind::TraitAlias, did) => did,
- Res::Err => {
- FatalError.raise();
- }
- _ => unreachable!(),
- }
- }
-}
-
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub struct PolyTraitRef<'hir> {
- /// The `'a` in `<'a> Foo<&'a T>`.
- pub bound_generic_params: &'hir [GenericParam<'hir>],
-
- /// The `Foo<&'a T>` in `<'a> Foo<&'a T>`.
- pub trait_ref: TraitRef<'hir>,
-
- pub span: Span,
-}
-
-pub type Visibility<'hir> = Spanned<VisibilityKind<'hir>>;
-
-#[derive(RustcEncodable, RustcDecodable, Debug)]
-pub enum VisibilityKind<'hir> {
- Public,
- Crate(CrateSugar),
- Restricted { path: &'hir Path<'hir>, hir_id: HirId },
- Inherited,
-}
-
-impl VisibilityKind<'_> {
- pub fn is_pub(&self) -> bool {
- match *self {
- VisibilityKind::Public => true,
- _ => false,
- }
- }
-
- pub fn is_pub_restricted(&self) -> bool {
- match *self {
- VisibilityKind::Public | VisibilityKind::Inherited => false,
- VisibilityKind::Crate(..) | VisibilityKind::Restricted { .. } => true,
- }
- }
-
- pub fn descr(&self) -> &'static str {
- match *self {
- VisibilityKind::Public => "public",
- VisibilityKind::Inherited => "private",
- VisibilityKind::Crate(..) => "crate-visible",
- VisibilityKind::Restricted { .. } => "restricted",
- }
- }
-}
-
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub struct StructField<'hir> {
- pub span: Span,
- #[stable_hasher(project(name))]
- pub ident: Ident,
- pub vis: Visibility<'hir>,
- pub hir_id: HirId,
- pub ty: &'hir Ty<'hir>,
- pub attrs: &'hir [Attribute],
-}
-
-impl StructField<'_> {
- // Still necessary in couple of places
- pub fn is_positional(&self) -> bool {
- let first = self.ident.as_str().as_bytes()[0];
- first >= b'0' && first <= b'9'
- }
-}
-
-/// Fields and constructor IDs of enum variants and structs.
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub enum VariantData<'hir> {
- /// A struct variant.
- ///
- /// E.g., `Bar { .. }` as in `enum Foo { Bar { .. } }`.
- Struct(&'hir [StructField<'hir>], /* recovered */ bool),
- /// A tuple variant.
- ///
- /// E.g., `Bar(..)` as in `enum Foo { Bar(..) }`.
- Tuple(&'hir [StructField<'hir>], HirId),
- /// A unit variant.
- ///
- /// E.g., `Bar = ..` as in `enum Foo { Bar = .. }`.
- Unit(HirId),
-}
-
-impl VariantData<'hir> {
- /// Return the fields of this variant.
- pub fn fields(&self) -> &'hir [StructField<'hir>] {
- match *self {
- VariantData::Struct(ref fields, ..) | VariantData::Tuple(ref fields, ..) => fields,
- _ => &[],
- }
- }
-
- /// Return the `HirId` of this variant's constructor, if it has one.
- pub fn ctor_hir_id(&self) -> Option<HirId> {
- match *self {
- VariantData::Struct(_, _) => None,
- VariantData::Tuple(_, hir_id) | VariantData::Unit(hir_id) => Some(hir_id),
- }
- }
-}
-
-// The bodies for items are stored "out of line", in a separate
-// hashmap in the `Crate`. Here we just record the node-id of the item
-// so it can fetched later.
-#[derive(Copy, Clone, RustcEncodable, RustcDecodable, Debug)]
-pub struct ItemId {
- pub id: HirId,
-}
-
-/// An item
-///
-/// The name might be a dummy name in case of anonymous items
-#[derive(RustcEncodable, RustcDecodable, Debug)]
-pub struct Item<'hir> {
- pub ident: Ident,
- pub hir_id: HirId,
- pub attrs: &'hir [Attribute],
- pub kind: ItemKind<'hir>,
- pub vis: Visibility<'hir>,
- pub span: Span,
-}
-
-#[derive(Copy, Clone, RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub struct FnHeader {
- pub unsafety: Unsafety,
- pub constness: Constness,
- pub asyncness: IsAsync,
- pub abi: Abi,
-}
-
-impl FnHeader {
- pub fn is_const(&self) -> bool {
- match &self.constness {
- Constness::Const => true,
- _ => false,
- }
- }
-}
-
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub enum ItemKind<'hir> {
- /// An `extern crate` item, with optional *original* crate name if the crate was renamed.
- ///
- /// E.g., `extern crate foo` or `extern crate foo_bar as foo`.
- ExternCrate(Option<Name>),
-
- /// `use foo::bar::*;` or `use foo::bar::baz as quux;`
- ///
- /// or just
- ///
- /// `use foo::bar::baz;` (with `as baz` implicitly on the right).
- Use(&'hir Path<'hir>, UseKind),
-
- /// A `static` item.
- Static(&'hir Ty<'hir>, Mutability, BodyId),
- /// A `const` item.
- Const(&'hir Ty<'hir>, BodyId),
- /// A function declaration.
- Fn(FnSig<'hir>, Generics<'hir>, BodyId),
- /// A module.
- Mod(Mod<'hir>),
- /// An external module, e.g. `extern { .. }`.
- ForeignMod(ForeignMod<'hir>),
- /// Module-level inline assembly (from `global_asm!`).
- GlobalAsm(&'hir GlobalAsm),
- /// A type alias, e.g., `type Foo = Bar<u8>`.
- TyAlias(&'hir Ty<'hir>, Generics<'hir>),
- /// An opaque `impl Trait` type alias, e.g., `type Foo = impl Bar;`.
- OpaqueTy(OpaqueTy<'hir>),
- /// An enum definition, e.g., `enum Foo<A, B> {C<A>, D<B>}`.
- Enum(EnumDef<'hir>, Generics<'hir>),
- /// A struct definition, e.g., `struct Foo<A> {x: A}`.
- Struct(VariantData<'hir>, Generics<'hir>),
- /// A union definition, e.g., `union Foo<A, B> {x: A, y: B}`.
- Union(VariantData<'hir>, Generics<'hir>),
- /// A trait definition.
- Trait(IsAuto, Unsafety, Generics<'hir>, GenericBounds<'hir>, &'hir [TraitItemRef]),
- /// A trait alias.
- TraitAlias(Generics<'hir>, GenericBounds<'hir>),
-
- /// An implementation, e.g., `impl<A> Trait for Foo { .. }`.
- Impl(
- Unsafety,
- ImplPolarity,
- Defaultness,
- Generics<'hir>,
- Option<TraitRef<'hir>>, // (optional) trait this impl implements
- &'hir Ty<'hir>, // self
- &'hir [ImplItemRef<'hir>],
- ),
-}
-
-impl ItemKind<'_> {
- pub fn descriptive_variant(&self) -> &str {
- match *self {
- ItemKind::ExternCrate(..) => "extern crate",
- ItemKind::Use(..) => "use",
- ItemKind::Static(..) => "static item",
- ItemKind::Const(..) => "constant item",
- ItemKind::Fn(..) => "function",
- ItemKind::Mod(..) => "module",
- ItemKind::ForeignMod(..) => "foreign module",
- ItemKind::GlobalAsm(..) => "global asm",
- ItemKind::TyAlias(..) => "type alias",
- ItemKind::OpaqueTy(..) => "opaque type",
- ItemKind::Enum(..) => "enum",
- ItemKind::Struct(..) => "struct",
- ItemKind::Union(..) => "union",
- ItemKind::Trait(..) => "trait",
- ItemKind::TraitAlias(..) => "trait alias",
- ItemKind::Impl(..) => "impl",
- }
- }
-
- pub fn generics(&self) -> Option<&Generics<'_>> {
- Some(match *self {
- ItemKind::Fn(_, ref generics, _)
- | ItemKind::TyAlias(_, ref generics)
- | ItemKind::OpaqueTy(OpaqueTy { ref generics, impl_trait_fn: None, .. })
- | ItemKind::Enum(_, ref generics)
- | ItemKind::Struct(_, ref generics)
- | ItemKind::Union(_, ref generics)
- | ItemKind::Trait(_, _, ref generics, _, _)
- | ItemKind::Impl(_, _, _, ref generics, _, _, _) => generics,
- _ => return None,
- })
- }
-}
-
-/// A reference from an trait to one of its associated items. This
-/// contains the item's id, naturally, but also the item's name and
-/// some other high-level details (like whether it is an associated
-/// type or method, and whether it is public). This allows other
-/// passes to find the impl they want without loading the ID (which
-/// means fewer edges in the incremental compilation graph).
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub struct TraitItemRef {
- pub id: TraitItemId,
- #[stable_hasher(project(name))]
- pub ident: Ident,
- pub kind: AssocItemKind,
- pub span: Span,
- pub defaultness: Defaultness,
-}
-
-/// A reference from an impl to one of its associated items. This
-/// contains the item's ID, naturally, but also the item's name and
-/// some other high-level details (like whether it is an associated
-/// type or method, and whether it is public). This allows other
-/// passes to find the impl they want without loading the ID (which
-/// means fewer edges in the incremental compilation graph).
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub struct ImplItemRef<'hir> {
- pub id: ImplItemId,
- #[stable_hasher(project(name))]
- pub ident: Ident,
- pub kind: AssocItemKind,
- pub span: Span,
- pub vis: Visibility<'hir>,
- pub defaultness: Defaultness,
-}
-
-#[derive(Copy, Clone, PartialEq, RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub enum AssocItemKind {
- Const,
- Method { has_self: bool },
- Type,
- OpaqueTy,
-}
-
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub struct ForeignItem<'hir> {
- #[stable_hasher(project(name))]
- pub ident: Ident,
- pub attrs: &'hir [Attribute],
- pub kind: ForeignItemKind<'hir>,
- pub hir_id: HirId,
- pub span: Span,
- pub vis: Visibility<'hir>,
-}
-
-/// An item within an `extern` block.
-#[derive(RustcEncodable, RustcDecodable, Debug, HashStable)]
-pub enum ForeignItemKind<'hir> {
- /// A foreign function.
- Fn(&'hir FnDecl<'hir>, &'hir [Ident], Generics<'hir>),
- /// A foreign static item (`static ext: u8`).
- Static(&'hir Ty<'hir>, Mutability),
- /// A foreign type.
- Type,
-}
-
-impl ForeignItemKind<'hir> {
- pub fn descriptive_variant(&self) -> &str {
- match *self {
- ForeignItemKind::Fn(..) => "foreign function",
- ForeignItemKind::Static(..) => "foreign static item",
- ForeignItemKind::Type => "foreign type",
- }
- }
-}
-
-/// A variable captured by a closure.
-#[derive(Debug, Copy, Clone, RustcEncodable, RustcDecodable, HashStable)]
-pub struct Upvar {
- // First span where it is accessed (there can be multiple).
- pub span: Span,
-}
-
-pub type CaptureModeMap = NodeMap<CaptureBy>;
-
-// The TraitCandidate's import_ids is empty if the trait is defined in the same module, and
-// has length > 0 if the trait is found through an chain of imports, starting with the
-// import/use statement in the scope where the trait is used.
-#[derive(Clone, Debug)]
-pub struct TraitCandidate {
- pub def_id: DefId,
- pub import_ids: SmallVec<[NodeId; 1]>,
-}
-
-// Trait method resolution
-pub type TraitMap = NodeMap<Vec<TraitCandidate>>;
-
-// Map from the NodeId of a glob import to a list of items which are actually
-// imported.
-pub type GlobMap = NodeMap<FxHashSet<Name>>;
+use crate::ty::query::Providers;
pub fn provide(providers: &mut Providers<'_>) {
check_attr::provide(providers);
map::provide(providers);
upvars::provide(providers);
}
-
-#[derive(Copy, Clone, Debug)]
-pub enum Node<'hir> {
- Param(&'hir Param<'hir>),
- Item(&'hir Item<'hir>),
- ForeignItem(&'hir ForeignItem<'hir>),
- TraitItem(&'hir TraitItem<'hir>),
- ImplItem(&'hir ImplItem<'hir>),
- Variant(&'hir Variant<'hir>),
- Field(&'hir StructField<'hir>),
- AnonConst(&'hir AnonConst),
- Expr(&'hir Expr<'hir>),
- Stmt(&'hir Stmt<'hir>),
- PathSegment(&'hir PathSegment<'hir>),
- Ty(&'hir Ty<'hir>),
- TraitRef(&'hir TraitRef<'hir>),
- Binding(&'hir Pat<'hir>),
- Pat(&'hir Pat<'hir>),
- Arm(&'hir Arm<'hir>),
- Block(&'hir Block<'hir>),
- Local(&'hir Local<'hir>),
- MacroDef(&'hir MacroDef<'hir>),
-
- /// `Ctor` refers to the constructor of an enum variant or struct. Only tuple or unit variants
- /// with synthesized constructors.
- Ctor(&'hir VariantData<'hir>),
-
- Lifetime(&'hir Lifetime),
- GenericParam(&'hir GenericParam<'hir>),
- Visibility(&'hir Visibility<'hir>),
-
- Crate,
-}
-
-impl Node<'_> {
- pub fn ident(&self) -> Option<Ident> {
- match self {
- Node::TraitItem(TraitItem { ident, .. })
- | Node::ImplItem(ImplItem { ident, .. })
- | Node::ForeignItem(ForeignItem { ident, .. })
- | Node::Item(Item { ident, .. }) => Some(*ident),
- _ => None,
- }
- }
-}