compiler/rustc_middle/src/hir/mod.rs - toolchain/rustc - Git at Google

 //! HIR datatypes. See the [rustc dev guide] for more info.
 //!
 //! [rustc dev guide]: https://rustc-dev-guide.rust-lang.org/hir.html

 pub mod map;
 pub mod nested_filter;
 pub mod place;

 use crate::ty::query::Providers;
 use crate::ty::{DefIdTree, ImplSubject, TyCtxt};
 use rustc_data_structures::fingerprint::Fingerprint;
 use rustc_data_structures::stable_hasher::{HashStable, StableHasher};
 use rustc_data_structures::sync::{par_for_each_in, Send, Sync};
 use rustc_hir::def_id::{DefId, LocalDefId};
 use rustc_hir::*;
 use rustc_query_system::ich::StableHashingContext;
 use rustc_span::{ExpnId, DUMMY_SP};

 /// Top-level HIR node for current owner. This only contains the node for which
 /// `HirId::local_id == 0`, and excludes bodies.
 ///
 /// This struct exists to encapsulate all access to the hir_owner query in this module, and to
 /// implement HashStable without hashing bodies.
 #[derive(Copy, Clone, Debug)]
 pub struct Owner<'tcx> {
     node: OwnerNode<'tcx>,
     hash_without_bodies: Fingerprint,
 }

 impl<'a, 'tcx> HashStable<StableHashingContext<'a>> for Owner<'tcx> {
     #[inline]
     fn hash_stable(&self, hcx: &mut StableHashingContext<'a>, hasher: &mut StableHasher) {
         let Owner { node: _, hash_without_bodies } = self;
         hash_without_bodies.hash_stable(hcx, hasher)
     }
 }

 /// Gather the LocalDefId for each item-like within a module, including items contained within
 /// bodies.  The Ids are in visitor order.  This is used to partition a pass between modules.
 #[derive(Debug, HashStable, Encodable, Decodable)]
 pub struct ModuleItems {
     submodules: Box<[OwnerId]>,
     items: Box<[ItemId]>,
     trait_items: Box<[TraitItemId]>,
     impl_items: Box<[ImplItemId]>,
     foreign_items: Box<[ForeignItemId]>,
     body_owners: Box<[LocalDefId]>,
 }

 impl ModuleItems {
     pub fn items(&self) -> impl Iterator<Item = ItemId> + '_ {
         self.items.iter().copied()
     }

     pub fn trait_items(&self) -> impl Iterator<Item = TraitItemId> + '_ {
         self.trait_items.iter().copied()
     }

     pub fn impl_items(&self) -> impl Iterator<Item = ImplItemId> + '_ {
         self.impl_items.iter().copied()
     }

     pub fn foreign_items(&self) -> impl Iterator<Item = ForeignItemId> + '_ {
         self.foreign_items.iter().copied()
     }

     pub fn definitions(&self) -> impl Iterator<Item = LocalDefId> + '_ {
         self.items
             .iter()
             .map(|id| id.owner_id.def_id)
             .chain(self.trait_items.iter().map(|id| id.owner_id.def_id))
             .chain(self.impl_items.iter().map(|id| id.owner_id.def_id))
             .chain(self.foreign_items.iter().map(|id| id.owner_id.def_id))
     }

     pub fn par_items(&self, f: impl Fn(ItemId) + Send + Sync) {
         par_for_each_in(&self.items[..], |&id| f(id))
     }

     pub fn par_trait_items(&self, f: impl Fn(TraitItemId) + Send + Sync) {
         par_for_each_in(&self.trait_items[..], |&id| f(id))
     }

     pub fn par_impl_items(&self, f: impl Fn(ImplItemId) + Send + Sync) {
         par_for_each_in(&self.impl_items[..], |&id| f(id))
     }

     pub fn par_foreign_items(&self, f: impl Fn(ForeignItemId) + Send + Sync) {
         par_for_each_in(&self.foreign_items[..], |&id| f(id))
     }
 }

 impl<'tcx> TyCtxt<'tcx> {
     #[inline(always)]
     pub fn hir(self) -> map::Map<'tcx> {
         map::Map { tcx: self }
     }

     pub fn parent_module(self, id: HirId) -> LocalDefId {
         self.parent_module_from_def_id(id.owner.def_id)
     }

     pub fn impl_subject(self, def_id: DefId) -> ImplSubject<'tcx> {
         self.impl_trait_ref(def_id)
             .map(ImplSubject::Trait)
             .unwrap_or_else(|| ImplSubject::Inherent(self.type_of(def_id)))
     }
 }

 pub fn provide(providers: &mut Providers) {
     providers.parent_module_from_def_id = |tcx, id| {
         let hir = tcx.hir();
         hir.get_module_parent_node(hir.local_def_id_to_hir_id(id)).def_id
     };
     providers.hir_crate_items = map::hir_crate_items;
     providers.crate_hash = map::crate_hash;
     providers.hir_module_items = map::hir_module_items;
     providers.hir_owner = |tcx, id| {
         let owner = tcx.hir_crate(()).owners.get(id.def_id)?.as_owner()?;
         let node = owner.node();
         Some(Owner { node, hash_without_bodies: owner.nodes.hash_without_bodies })
     };
     providers.local_def_id_to_hir_id = |tcx, id| {
         let owner = tcx.hir_crate(()).owners[id].map(|_| ());
         match owner {
             MaybeOwner::Owner(_) => HirId::make_owner(id),
             MaybeOwner::Phantom => bug!("No HirId for {:?}", id),
             MaybeOwner::NonOwner(hir_id) => hir_id,
         }
     };
     providers.hir_owner_nodes = |tcx, id| tcx.hir_crate(()).owners[id.def_id].map(|i| &i.nodes);
     providers.hir_owner_parent = |tcx, id| {
         // Accessing the local_parent is ok since its value is hashed as part of `id`'s DefPathHash.
         tcx.opt_local_parent(id.def_id).map_or(CRATE_HIR_ID, |parent| {
             let mut parent_hir_id = tcx.hir().local_def_id_to_hir_id(parent);
             if let Some(local_id) = tcx.hir_crate(()).owners[parent_hir_id.owner.def_id]
                 .unwrap()
                 .parenting
                 .get(&id.def_id)
             {
                 parent_hir_id.local_id = *local_id;
             }
             parent_hir_id
         })
     };
     providers.hir_attrs = |tcx, id| {
         tcx.hir_crate(()).owners[id.def_id].as_owner().map_or(AttributeMap::EMPTY, |o| &o.attrs)
     };
     providers.source_span =
         |tcx, def_id| tcx.resolutions(()).source_span.get(def_id).copied().unwrap_or(DUMMY_SP);
     providers.def_span = |tcx, def_id| {
         let def_id = def_id.expect_local();
         let hir_id = tcx.hir().local_def_id_to_hir_id(def_id);
         tcx.hir().opt_span(hir_id).unwrap_or(DUMMY_SP)
     };
     providers.def_ident_span = |tcx, def_id| {
         let def_id = def_id.expect_local();
         let hir_id = tcx.hir().local_def_id_to_hir_id(def_id);
         tcx.hir().opt_ident_span(hir_id)
     };
     providers.fn_arg_names = |tcx, id| {
         let hir = tcx.hir();
         let def_id = id.expect_local();
         let hir_id = hir.local_def_id_to_hir_id(def_id);
         if let Some(body_id) = hir.maybe_body_owned_by(def_id) {
             tcx.arena.alloc_from_iter(hir.body_param_names(body_id))
         } else if let Node::TraitItem(&TraitItem {
             kind: TraitItemKind::Fn(_, TraitFn::Required(idents)),
             ..
         }) = hir.get(hir_id)
         {
             tcx.arena.alloc_slice(idents)
         } else {
             span_bug!(hir.span(hir_id), "fn_arg_names: unexpected item {:?}", id);
         }
     };
     providers.opt_def_kind = |tcx, def_id| tcx.hir().opt_def_kind(def_id.expect_local());
     providers.all_local_trait_impls = |tcx, ()| &tcx.resolutions(()).trait_impls;
     providers.expn_that_defined = |tcx, id| {
         let id = id.expect_local();
         tcx.resolutions(()).expn_that_defined.get(&id).copied().unwrap_or(ExpnId::root())
     };
     providers.in_scope_traits_map = |tcx, id| {
         tcx.hir_crate(()).owners[id.def_id].as_owner().map(|owner_info| &owner_info.trait_map)
     };
 }
	//! HIR datatypes. See the [rustc dev guide] for more info.
	//!
	//! [rustc dev guide]: https://rustc-dev-guide.rust-lang.org/hir.html

	pub mod map;
	pub mod nested_filter;
	pub mod place;

	use crate::ty::query::Providers;
	use crate::ty::{DefIdTree, ImplSubject, TyCtxt};
	use rustc_data_structures::fingerprint::Fingerprint;
	use rustc_data_structures::stable_hasher::{HashStable, StableHasher};
	use rustc_data_structures::sync::{par_for_each_in, Send, Sync};
	use rustc_hir::def_id::{DefId, LocalDefId};
	use rustc_hir::*;
	use rustc_query_system::ich::StableHashingContext;
	use rustc_span::{ExpnId, DUMMY_SP};

	/// Top-level HIR node for current owner. This only contains the node for which
	/// `HirId::local_id == 0`, and excludes bodies.
	///
	/// This struct exists to encapsulate all access to the hir_owner query in this module, and to
	/// implement HashStable without hashing bodies.
	#[derive(Copy, Clone, Debug)]
	pub struct Owner<'tcx> {
	node: OwnerNode<'tcx>,
	hash_without_bodies: Fingerprint,
	}

	impl<'a, 'tcx> HashStable<StableHashingContext<'a>> for Owner<'tcx> {
	#[inline]
	fn hash_stable(&self, hcx: &mut StableHashingContext<'a>, hasher: &mut StableHasher) {
	let Owner { node: _, hash_without_bodies } = self;
	hash_without_bodies.hash_stable(hcx, hasher)
	}
	}

	/// Gather the LocalDefId for each item-like within a module, including items contained within
	/// bodies. The Ids are in visitor order. This is used to partition a pass between modules.
	#[derive(Debug, HashStable, Encodable, Decodable)]
	pub struct ModuleItems {
	submodules: Box<[OwnerId]>,
	items: Box<[ItemId]>,
	trait_items: Box<[TraitItemId]>,
	impl_items: Box<[ImplItemId]>,
	foreign_items: Box<[ForeignItemId]>,
	body_owners: Box<[LocalDefId]>,
	}

	impl ModuleItems {
	pub fn items(&self) -> impl Iterator<Item = ItemId> + '_ {
	self.items.iter().copied()
	}

	pub fn trait_items(&self) -> impl Iterator<Item = TraitItemId> + '_ {
	self.trait_items.iter().copied()
	}

	pub fn impl_items(&self) -> impl Iterator<Item = ImplItemId> + '_ {
	self.impl_items.iter().copied()
	}

	pub fn foreign_items(&self) -> impl Iterator<Item = ForeignItemId> + '_ {
	self.foreign_items.iter().copied()
	}

	pub fn definitions(&self) -> impl Iterator<Item = LocalDefId> + '_ {
	self.items
	.iter()
	.map(\|id\| id.owner_id.def_id)
	.chain(self.trait_items.iter().map(\|id\| id.owner_id.def_id))
	.chain(self.impl_items.iter().map(\|id\| id.owner_id.def_id))
	.chain(self.foreign_items.iter().map(\|id\| id.owner_id.def_id))
	}

	pub fn par_items(&self, f: impl Fn(ItemId) + Send + Sync) {
	par_for_each_in(&self.items[..], \|&id\| f(id))
	}

	pub fn par_trait_items(&self, f: impl Fn(TraitItemId) + Send + Sync) {
	par_for_each_in(&self.trait_items[..], \|&id\| f(id))
	}

	pub fn par_impl_items(&self, f: impl Fn(ImplItemId) + Send + Sync) {
	par_for_each_in(&self.impl_items[..], \|&id\| f(id))
	}

	pub fn par_foreign_items(&self, f: impl Fn(ForeignItemId) + Send + Sync) {
	par_for_each_in(&self.foreign_items[..], \|&id\| f(id))
	}
	}

	impl<'tcx> TyCtxt<'tcx> {
	#[inline(always)]
	pub fn hir(self) -> map::Map<'tcx> {
	map::Map { tcx: self }
	}

	pub fn parent_module(self, id: HirId) -> LocalDefId {
	self.parent_module_from_def_id(id.owner.def_id)
	}

	pub fn impl_subject(self, def_id: DefId) -> ImplSubject<'tcx> {
	self.impl_trait_ref(def_id)
	.map(ImplSubject::Trait)
	.unwrap_or_else(\|\| ImplSubject::Inherent(self.type_of(def_id)))
	}
	}

	pub fn provide(providers: &mut Providers) {
	providers.parent_module_from_def_id = \|tcx, id\| {
	let hir = tcx.hir();
	hir.get_module_parent_node(hir.local_def_id_to_hir_id(id)).def_id
	};
	providers.hir_crate_items = map::hir_crate_items;
	providers.crate_hash = map::crate_hash;
	providers.hir_module_items = map::hir_module_items;
	providers.hir_owner = \|tcx, id\| {
	let owner = tcx.hir_crate(()).owners.get(id.def_id)?.as_owner()?;
	let node = owner.node();
	Some(Owner { node, hash_without_bodies: owner.nodes.hash_without_bodies })
	};
	providers.local_def_id_to_hir_id = \|tcx, id\| {
	let owner = tcx.hir_crate(()).owners[id].map(\|_\| ());
	match owner {
	MaybeOwner::Owner(_) => HirId::make_owner(id),
	MaybeOwner::Phantom => bug!("No HirId for {:?}", id),
	MaybeOwner::NonOwner(hir_id) => hir_id,
	}
	};
	providers.hir_owner_nodes = \|tcx, id\| tcx.hir_crate(()).owners[id.def_id].map(\|i\| &i.nodes);
	providers.hir_owner_parent = \|tcx, id\| {
	// Accessing the local_parent is ok since its value is hashed as part of `id`'s DefPathHash.
	tcx.opt_local_parent(id.def_id).map_or(CRATE_HIR_ID, \|parent\| {
	let mut parent_hir_id = tcx.hir().local_def_id_to_hir_id(parent);
	if let Some(local_id) = tcx.hir_crate(()).owners[parent_hir_id.owner.def_id]
	.unwrap()
	.parenting
	.get(&id.def_id)
	{
	parent_hir_id.local_id = *local_id;
	}
	parent_hir_id
	})
	};
	providers.hir_attrs = \|tcx, id\| {
	tcx.hir_crate(()).owners[id.def_id].as_owner().map_or(AttributeMap::EMPTY, \|o\| &o.attrs)
	};
	providers.source_span =
	\|tcx, def_id\| tcx.resolutions(()).source_span.get(def_id).copied().unwrap_or(DUMMY_SP);
	providers.def_span = \|tcx, def_id\| {
	let def_id = def_id.expect_local();
	let hir_id = tcx.hir().local_def_id_to_hir_id(def_id);
	tcx.hir().opt_span(hir_id).unwrap_or(DUMMY_SP)
	};
	providers.def_ident_span = \|tcx, def_id\| {
	let def_id = def_id.expect_local();
	let hir_id = tcx.hir().local_def_id_to_hir_id(def_id);
	tcx.hir().opt_ident_span(hir_id)
	};
	providers.fn_arg_names = \|tcx, id\| {
	let hir = tcx.hir();
	let def_id = id.expect_local();
	let hir_id = hir.local_def_id_to_hir_id(def_id);
	if let Some(body_id) = hir.maybe_body_owned_by(def_id) {
	tcx.arena.alloc_from_iter(hir.body_param_names(body_id))
	} else if let Node::TraitItem(&TraitItem {
	kind: TraitItemKind::Fn(_, TraitFn::Required(idents)),
	..
	}) = hir.get(hir_id)
	{
	tcx.arena.alloc_slice(idents)
	} else {
	span_bug!(hir.span(hir_id), "fn_arg_names: unexpected item {:?}", id);
	}
	};
	providers.opt_def_kind = \|tcx, def_id\| tcx.hir().opt_def_kind(def_id.expect_local());
	providers.all_local_trait_impls = \|tcx, ()\| &tcx.resolutions(()).trait_impls;
	providers.expn_that_defined = \|tcx, id\| {
	let id = id.expect_local();
	tcx.resolutions(()).expn_that_defined.get(&id).copied().unwrap_or(ExpnId::root())
	};
	providers.in_scope_traits_map = \|tcx, id\| {
	tcx.hir_crate(()).owners[id.def_id].as_owner().map(\|owner_info\| &owner_info.trait_map)
	};
	}