| use self::collector::NodeCollector; |
| pub use self::def_collector::{DefCollector, MacroInvocationData}; |
| pub use self::definitions::{Definitions, DefKey, DefPath, DefPathData, |
| DisambiguatedDefPathData, DefPathHash}; |
| |
| use dep_graph::{DepGraph, DepNode, DepKind, DepNodeIndex}; |
| |
| use hir::def_id::{CRATE_DEF_INDEX, DefId, LocalDefId, DefIndexAddressSpace}; |
| |
| use middle::cstore::CrateStoreDyn; |
| |
| use rustc_target::spec::abi::Abi; |
| use rustc_data_structures::svh::Svh; |
| use rustc_data_structures::sync::join; |
| use syntax::ast::{self, Name, NodeId, CRATE_NODE_ID}; |
| use syntax::source_map::Spanned; |
| use syntax::ext::base::MacroKind; |
| use syntax_pos::{Span, DUMMY_SP}; |
| |
| use hir::*; |
| use hir::itemlikevisit::ItemLikeVisitor; |
| use hir::print::Nested; |
| use util::nodemap::FxHashMap; |
| use util::common::time; |
| |
| use std::io; |
| use std::result::Result::Err; |
| use ty::TyCtxt; |
| |
| pub mod blocks; |
| mod collector; |
| mod def_collector; |
| pub mod definitions; |
| mod hir_id_validator; |
| |
| pub const ITEM_LIKE_SPACE: DefIndexAddressSpace = DefIndexAddressSpace::Low; |
| pub const REGULAR_SPACE: DefIndexAddressSpace = DefIndexAddressSpace::High; |
| |
| /// Represents an entry and its parent NodeId. |
| #[derive(Copy, Clone, Debug)] |
| pub struct Entry<'hir> { |
| parent: NodeId, |
| dep_node: DepNodeIndex, |
| node: Node<'hir>, |
| } |
| |
| impl<'hir> Entry<'hir> { |
| fn parent_node(self) -> Option<NodeId> { |
| match self.node { |
| Node::Crate | Node::MacroDef(_) => None, |
| _ => Some(self.parent), |
| } |
| } |
| |
| fn fn_decl(&self) -> Option<&FnDecl> { |
| match self.node { |
| Node::Item(ref item) => { |
| match item.node { |
| ItemKind::Fn(ref fn_decl, _, _, _) => Some(&fn_decl), |
| _ => None, |
| } |
| } |
| |
| Node::TraitItem(ref item) => { |
| match item.node { |
| TraitItemKind::Method(ref method_sig, _) => Some(&method_sig.decl), |
| _ => None |
| } |
| } |
| |
| Node::ImplItem(ref item) => { |
| match item.node { |
| ImplItemKind::Method(ref method_sig, _) => Some(&method_sig.decl), |
| _ => None, |
| } |
| } |
| |
| Node::Expr(ref expr) => { |
| match expr.node { |
| ExprKind::Closure(_, ref fn_decl, ..) => Some(&fn_decl), |
| _ => None, |
| } |
| } |
| |
| _ => None, |
| } |
| } |
| |
| fn associated_body(self) -> Option<BodyId> { |
| match self.node { |
| Node::Item(item) => { |
| match item.node { |
| ItemKind::Const(_, body) | |
| ItemKind::Static(.., body) | |
| ItemKind::Fn(_, _, _, body) => Some(body), |
| _ => None, |
| } |
| } |
| |
| Node::TraitItem(item) => { |
| match item.node { |
| TraitItemKind::Const(_, Some(body)) | |
| TraitItemKind::Method(_, TraitMethod::Provided(body)) => Some(body), |
| _ => None |
| } |
| } |
| |
| Node::ImplItem(item) => { |
| match item.node { |
| ImplItemKind::Const(_, body) | |
| ImplItemKind::Method(_, body) => Some(body), |
| _ => None, |
| } |
| } |
| |
| Node::AnonConst(constant) => Some(constant.body), |
| |
| Node::Expr(expr) => { |
| match expr.node { |
| ExprKind::Closure(.., body, _, _) => Some(body), |
| _ => None, |
| } |
| } |
| |
| _ => None |
| } |
| } |
| |
| fn is_body_owner(self, node_id: NodeId) -> bool { |
| match self.associated_body() { |
| Some(b) => b.node_id == node_id, |
| None => false, |
| } |
| } |
| } |
| |
| /// Stores a crate and any number of inlined items from other crates. |
| pub struct Forest { |
| krate: Crate, |
| pub dep_graph: DepGraph, |
| } |
| |
| impl Forest { |
| pub fn new(krate: Crate, dep_graph: &DepGraph) -> Forest { |
| Forest { |
| krate, |
| dep_graph: dep_graph.clone(), |
| } |
| } |
| |
| pub fn krate<'hir>(&'hir self) -> &'hir Crate { |
| self.dep_graph.read(DepNode::new_no_params(DepKind::Krate)); |
| &self.krate |
| } |
| |
| /// This is internally in the depedency tracking system. |
| /// Use the `krate` method to ensure your dependency on the |
| /// crate is tracked. |
| pub fn untracked_krate<'hir>(&'hir self) -> &'hir Crate { |
| &self.krate |
| } |
| } |
| |
| /// Represents a mapping from Node IDs to AST elements and their parent |
| /// Node IDs |
| #[derive(Clone)] |
| pub struct Map<'hir> { |
| /// The backing storage for all the AST nodes. |
| pub forest: &'hir Forest, |
| |
| /// Same as the dep_graph in forest, just available with one fewer |
| /// deref. This is a gratuitous micro-optimization. |
| pub dep_graph: DepGraph, |
| |
| /// The SVH of the local crate. |
| pub crate_hash: Svh, |
| |
| /// `NodeId`s are sequential integers from 0, so we can be |
| /// super-compact by storing them in a vector. Not everything with |
| /// a `NodeId` is in the map, but empirically the occupancy is about |
| /// 75-80%, so there's not too much overhead (certainly less than |
| /// a hashmap, since they (at the time of writing) have a maximum |
| /// of 75% occupancy). |
| /// |
| /// Also, indexing is pretty quick when you've got a vector and |
| /// plain old integers. |
| map: Vec<Option<Entry<'hir>>>, |
| |
| definitions: &'hir Definitions, |
| |
| /// The reverse mapping of `node_to_hir_id`. |
| hir_to_node_id: FxHashMap<HirId, NodeId>, |
| } |
| |
| impl<'hir> Map<'hir> { |
| /// Registers a read in the dependency graph of the AST node with |
| /// the given `id`. This needs to be called each time a public |
| /// function returns the HIR for a node -- in other words, when it |
| /// "reveals" the content of a node to the caller (who might not |
| /// otherwise have had access to those contents, and hence needs a |
| /// read recorded). If the function just returns a DefId or |
| /// NodeId, no actual content was returned, so no read is needed. |
| pub fn read(&self, id: NodeId) { |
| if let Some(entry) = self.map[id.as_usize()] { |
| self.dep_graph.read_index(entry.dep_node); |
| } else { |
| bug!("called `HirMap::read()` with invalid `NodeId`: {:?}", id) |
| } |
| } |
| |
| #[inline] |
| pub fn definitions(&self) -> &'hir Definitions { |
| self.definitions |
| } |
| |
| pub fn def_key(&self, def_id: DefId) -> DefKey { |
| assert!(def_id.is_local()); |
| self.definitions.def_key(def_id.index) |
| } |
| |
| pub fn def_path_from_id(&self, id: NodeId) -> Option<DefPath> { |
| self.opt_local_def_id(id).map(|def_id| { |
| self.def_path(def_id) |
| }) |
| } |
| |
| pub fn def_path(&self, def_id: DefId) -> DefPath { |
| assert!(def_id.is_local()); |
| self.definitions.def_path(def_id.index) |
| } |
| |
| #[inline] |
| pub fn local_def_id(&self, node: NodeId) -> DefId { |
| self.opt_local_def_id(node).unwrap_or_else(|| { |
| bug!("local_def_id: no entry for `{}`, which has a map of `{:?}`", |
| node, self.find_entry(node)) |
| }) |
| } |
| |
| #[inline] |
| pub fn opt_local_def_id(&self, node: NodeId) -> Option<DefId> { |
| self.definitions.opt_local_def_id(node) |
| } |
| |
| #[inline] |
| pub fn as_local_node_id(&self, def_id: DefId) -> Option<NodeId> { |
| self.definitions.as_local_node_id(def_id) |
| } |
| |
| #[inline] |
| pub fn hir_to_node_id(&self, hir_id: HirId) -> NodeId { |
| self.hir_to_node_id[&hir_id] |
| } |
| |
| #[inline] |
| pub fn node_to_hir_id(&self, node_id: NodeId) -> HirId { |
| self.definitions.node_to_hir_id(node_id) |
| } |
| |
| #[inline] |
| pub fn def_index_to_hir_id(&self, def_index: DefIndex) -> HirId { |
| self.definitions.def_index_to_hir_id(def_index) |
| } |
| |
| #[inline] |
| pub fn def_index_to_node_id(&self, def_index: DefIndex) -> NodeId { |
| self.definitions.as_local_node_id(DefId::local(def_index)).unwrap() |
| } |
| |
| #[inline] |
| pub fn local_def_id_to_hir_id(&self, def_id: LocalDefId) -> HirId { |
| self.definitions.def_index_to_hir_id(def_id.to_def_id().index) |
| } |
| |
| #[inline] |
| pub fn local_def_id_to_node_id(&self, def_id: LocalDefId) -> NodeId { |
| self.definitions.as_local_node_id(def_id.to_def_id()).unwrap() |
| } |
| |
| pub fn describe_def(&self, node_id: NodeId) -> Option<Def> { |
| let node = if let Some(node) = self.find(node_id) { |
| node |
| } else { |
| return None |
| }; |
| |
| match node { |
| Node::Item(item) => { |
| let def_id = || self.local_def_id(item.id); |
| |
| match item.node { |
| ItemKind::Static(_, m, _) => Some(Def::Static(def_id(), m == MutMutable)), |
| ItemKind::Const(..) => Some(Def::Const(def_id())), |
| ItemKind::Fn(..) => Some(Def::Fn(def_id())), |
| ItemKind::Mod(..) => Some(Def::Mod(def_id())), |
| ItemKind::Existential(..) => Some(Def::Existential(def_id())), |
| ItemKind::Ty(..) => Some(Def::TyAlias(def_id())), |
| ItemKind::Enum(..) => Some(Def::Enum(def_id())), |
| ItemKind::Struct(..) => Some(Def::Struct(def_id())), |
| ItemKind::Union(..) => Some(Def::Union(def_id())), |
| ItemKind::Trait(..) => Some(Def::Trait(def_id())), |
| ItemKind::TraitAlias(..) => Some(Def::TraitAlias(def_id())), |
| ItemKind::ExternCrate(_) | |
| ItemKind::Use(..) | |
| ItemKind::ForeignMod(..) | |
| ItemKind::GlobalAsm(..) | |
| ItemKind::Impl(..) => None, |
| } |
| } |
| Node::ForeignItem(item) => { |
| let def_id = self.local_def_id(item.id); |
| match item.node { |
| ForeignItemKind::Fn(..) => Some(Def::Fn(def_id)), |
| ForeignItemKind::Static(_, m) => Some(Def::Static(def_id, m)), |
| ForeignItemKind::Type => Some(Def::ForeignTy(def_id)), |
| } |
| } |
| Node::TraitItem(item) => { |
| let def_id = self.local_def_id(item.id); |
| match item.node { |
| TraitItemKind::Const(..) => Some(Def::AssociatedConst(def_id)), |
| TraitItemKind::Method(..) => Some(Def::Method(def_id)), |
| TraitItemKind::Type(..) => Some(Def::AssociatedTy(def_id)), |
| } |
| } |
| Node::ImplItem(item) => { |
| let def_id = self.local_def_id(item.id); |
| match item.node { |
| ImplItemKind::Const(..) => Some(Def::AssociatedConst(def_id)), |
| ImplItemKind::Method(..) => Some(Def::Method(def_id)), |
| ImplItemKind::Type(..) => Some(Def::AssociatedTy(def_id)), |
| ImplItemKind::Existential(..) => Some(Def::AssociatedExistential(def_id)), |
| } |
| } |
| Node::Variant(variant) => { |
| let def_id = self.local_def_id(variant.node.data.id()); |
| Some(Def::Variant(def_id)) |
| } |
| Node::Field(_) | |
| Node::AnonConst(_) | |
| Node::Expr(_) | |
| Node::Stmt(_) | |
| Node::PathSegment(_) | |
| Node::Ty(_) | |
| Node::TraitRef(_) | |
| Node::Pat(_) | |
| Node::Binding(_) | |
| Node::StructCtor(_) | |
| Node::Lifetime(_) | |
| Node::Visibility(_) | |
| Node::Block(_) | |
| Node::Crate => None, |
| Node::Local(local) => { |
| Some(Def::Local(local.id)) |
| } |
| Node::MacroDef(macro_def) => { |
| Some(Def::Macro(self.local_def_id(macro_def.id), |
| MacroKind::Bang)) |
| } |
| Node::GenericParam(param) => { |
| Some(match param.kind { |
| GenericParamKind::Lifetime { .. } => Def::Local(param.id), |
| GenericParamKind::Type { .. } => Def::TyParam(self.local_def_id(param.id)), |
| }) |
| } |
| } |
| } |
| |
| fn entry_count(&self) -> usize { |
| self.map.len() |
| } |
| |
| fn find_entry(&self, id: NodeId) -> Option<Entry<'hir>> { |
| self.map.get(id.as_usize()).cloned().unwrap_or(None) |
| } |
| |
| pub fn krate(&self) -> &'hir Crate { |
| self.forest.krate() |
| } |
| |
| pub fn trait_item(&self, id: TraitItemId) -> &'hir TraitItem { |
| self.read(id.node_id); |
| |
| // N.B., intentionally bypass `self.forest.krate()` so that we |
| // do not trigger a read of the whole krate here |
| self.forest.krate.trait_item(id) |
| } |
| |
| pub fn impl_item(&self, id: ImplItemId) -> &'hir ImplItem { |
| self.read(id.node_id); |
| |
| // N.B., intentionally bypass `self.forest.krate()` so that we |
| // do not trigger a read of the whole krate here |
| self.forest.krate.impl_item(id) |
| } |
| |
| pub fn body(&self, id: BodyId) -> &'hir Body { |
| self.read(id.node_id); |
| |
| // N.B., intentionally bypass `self.forest.krate()` so that we |
| // do not trigger a read of the whole krate here |
| self.forest.krate.body(id) |
| } |
| |
| pub fn fn_decl(&self, node_id: ast::NodeId) -> Option<FnDecl> { |
| if let Some(entry) = self.find_entry(node_id) { |
| entry.fn_decl().cloned() |
| } else { |
| bug!("no entry for node_id `{}`", node_id) |
| } |
| } |
| |
| /// Returns the `NodeId` that corresponds to the definition of |
| /// which this is the body of, i.e., a `fn`, `const` or `static` |
| /// item (possibly associated), a closure, or a `hir::AnonConst`. |
| pub fn body_owner(&self, BodyId { node_id }: BodyId) -> NodeId { |
| let parent = self.get_parent_node(node_id); |
| assert!(self.map[parent.as_usize()].map_or(false, |e| e.is_body_owner(node_id))); |
| parent |
| } |
| |
| pub fn body_owner_def_id(&self, id: BodyId) -> DefId { |
| self.local_def_id(self.body_owner(id)) |
| } |
| |
| /// Given a node id, returns the `BodyId` associated with it, |
| /// if the node is a body owner, otherwise returns `None`. |
| pub fn maybe_body_owned_by(&self, id: NodeId) -> Option<BodyId> { |
| if let Some(entry) = self.find_entry(id) { |
| if self.dep_graph.is_fully_enabled() { |
| let hir_id_owner = self.node_to_hir_id(id).owner; |
| let def_path_hash = self.definitions.def_path_hash(hir_id_owner); |
| self.dep_graph.read(def_path_hash.to_dep_node(DepKind::HirBody)); |
| } |
| |
| entry.associated_body() |
| } else { |
| bug!("no entry for id `{}`", id) |
| } |
| } |
| |
| /// Given a body owner's id, returns the `BodyId` associated with it. |
| pub fn body_owned_by(&self, id: NodeId) -> BodyId { |
| self.maybe_body_owned_by(id).unwrap_or_else(|| { |
| span_bug!(self.span(id), "body_owned_by: {} has no associated body", |
| self.node_to_string(id)); |
| }) |
| } |
| |
| pub fn body_owner_kind(&self, id: NodeId) -> BodyOwnerKind { |
| match self.get(id) { |
| Node::Item(&Item { node: ItemKind::Const(..), .. }) | |
| Node::TraitItem(&TraitItem { node: TraitItemKind::Const(..), .. }) | |
| Node::ImplItem(&ImplItem { node: ImplItemKind::Const(..), .. }) | |
| Node::AnonConst(_) => { |
| BodyOwnerKind::Const |
| } |
| Node::Item(&Item { node: ItemKind::Static(_, m, _), .. }) => { |
| BodyOwnerKind::Static(m) |
| } |
| // Default to function if it's not a constant or static. |
| _ => BodyOwnerKind::Fn |
| } |
| } |
| |
| pub fn ty_param_owner(&self, id: NodeId) -> NodeId { |
| match self.get(id) { |
| Node::Item(&Item { node: ItemKind::Trait(..), .. }) => id, |
| Node::GenericParam(_) => self.get_parent_node(id), |
| _ => bug!("ty_param_owner: {} not a type parameter", self.node_to_string(id)) |
| } |
| } |
| |
| pub fn ty_param_name(&self, id: NodeId) -> Name { |
| match self.get(id) { |
| Node::Item(&Item { node: ItemKind::Trait(..), .. }) => keywords::SelfUpper.name(), |
| Node::GenericParam(param) => param.name.ident().name, |
| _ => bug!("ty_param_name: {} not a type parameter", self.node_to_string(id)), |
| } |
| } |
| |
| pub fn trait_impls(&self, trait_did: DefId) -> &'hir [NodeId] { |
| self.dep_graph.read(DepNode::new_no_params(DepKind::AllLocalTraitImpls)); |
| |
| // N.B., intentionally bypass `self.forest.krate()` so that we |
| // do not trigger a read of the whole krate here |
| self.forest.krate.trait_impls.get(&trait_did).map_or(&[], |xs| &xs[..]) |
| } |
| |
| pub fn trait_auto_impl(&self, trait_did: DefId) -> Option<NodeId> { |
| self.dep_graph.read(DepNode::new_no_params(DepKind::AllLocalTraitImpls)); |
| |
| // N.B., intentionally bypass `self.forest.krate()` so that we |
| // do not trigger a read of the whole krate here |
| self.forest.krate.trait_auto_impl.get(&trait_did).cloned() |
| } |
| |
| pub fn trait_is_auto(&self, trait_did: DefId) -> bool { |
| self.trait_auto_impl(trait_did).is_some() |
| } |
| |
| /// Get the attributes on the krate. This is preferable to |
| /// invoking `krate.attrs` because it registers a tighter |
| /// dep-graph access. |
| pub fn krate_attrs(&self) -> &'hir [ast::Attribute] { |
| let def_path_hash = self.definitions.def_path_hash(CRATE_DEF_INDEX); |
| |
| self.dep_graph.read(def_path_hash.to_dep_node(DepKind::Hir)); |
| &self.forest.krate.attrs |
| } |
| |
| pub fn visit_item_likes_in_module<V>(&self, module: DefId, visitor: &mut V) |
| where V: ItemLikeVisitor<'hir> |
| { |
| let node_id = self.as_local_node_id(module).unwrap(); |
| |
| // Read the module so we'll be re-executed if new items |
| // appear immediately under in the module. If some new item appears |
| // in some nested item in the module, we'll be re-executed due to reads |
| // in the expect_* calls the loops below |
| self.read(node_id); |
| |
| let module = &self.forest.krate.modules[&node_id]; |
| |
| for id in &module.items { |
| visitor.visit_item(self.expect_item(*id)); |
| } |
| |
| for id in &module.trait_items { |
| visitor.visit_trait_item(self.expect_trait_item(id.node_id)); |
| } |
| |
| for id in &module.impl_items { |
| visitor.visit_impl_item(self.expect_impl_item(id.node_id)); |
| } |
| } |
| |
| /// Retrieve the Node corresponding to `id`, panicking if it cannot |
| /// be found. |
| pub fn get(&self, id: NodeId) -> Node<'hir> { |
| // read recorded by `find` |
| self.find(id).unwrap_or_else(|| bug!("couldn't find node id {} in the AST map", id)) |
| } |
| |
| pub fn get_if_local(&self, id: DefId) -> Option<Node<'hir>> { |
| self.as_local_node_id(id).map(|id| self.get(id)) // read recorded by `get` |
| } |
| |
| pub fn get_generics(&self, id: DefId) -> Option<&'hir Generics> { |
| self.get_if_local(id).and_then(|node| { |
| match node { |
| Node::ImplItem(ref impl_item) => Some(&impl_item.generics), |
| Node::TraitItem(ref trait_item) => Some(&trait_item.generics), |
| Node::Item(ref item) => { |
| match item.node { |
| ItemKind::Fn(_, _, ref generics, _) | |
| ItemKind::Ty(_, ref generics) | |
| ItemKind::Enum(_, ref generics) | |
| ItemKind::Struct(_, ref generics) | |
| ItemKind::Union(_, ref generics) | |
| ItemKind::Trait(_, _, ref generics, ..) | |
| ItemKind::TraitAlias(ref generics, _) | |
| ItemKind::Impl(_, _, _, ref generics, ..) => Some(generics), |
| _ => None, |
| } |
| } |
| _ => None, |
| } |
| }) |
| } |
| |
| pub fn get_generics_span(&self, id: DefId) -> Option<Span> { |
| self.get_generics(id).map(|generics| generics.span).filter(|sp| *sp != DUMMY_SP) |
| } |
| |
| /// Retrieve the Node corresponding to `id`, returning None if |
| /// cannot be found. |
| pub fn find(&self, id: NodeId) -> Option<Node<'hir>> { |
| let result = self.find_entry(id).and_then(|entry| { |
| if let Node::Crate = entry.node { |
| None |
| } else { |
| Some(entry.node) |
| } |
| }); |
| if result.is_some() { |
| self.read(id); |
| } |
| result |
| } |
| |
| /// Similar to `get_parent`; returns the parent node-id, or own `id` if there is |
| /// no parent. Note that the parent may be `CRATE_NODE_ID`, which is not itself |
| /// present in the map -- so passing the return value of get_parent_node to |
| /// get may actually panic. |
| /// This function returns the immediate parent in the AST, whereas get_parent |
| /// returns the enclosing item. Note that this might not be the actual parent |
| /// node in the AST - some kinds of nodes are not in the map and these will |
| /// never appear as the parent_node. So you can always walk the `parent_nodes` |
| /// from a node to the root of the ast (unless you get the same id back here |
| /// that can happen if the id is not in the map itself or is just weird). |
| pub fn get_parent_node(&self, id: NodeId) -> NodeId { |
| if self.dep_graph.is_fully_enabled() { |
| let hir_id_owner = self.node_to_hir_id(id).owner; |
| let def_path_hash = self.definitions.def_path_hash(hir_id_owner); |
| self.dep_graph.read(def_path_hash.to_dep_node(DepKind::HirBody)); |
| } |
| |
| self.find_entry(id).and_then(|x| x.parent_node()).unwrap_or(id) |
| } |
| |
| /// Check if the node is an argument. An argument is a local variable whose |
| /// immediate parent is an item or a closure. |
| pub fn is_argument(&self, id: NodeId) -> bool { |
| match self.find(id) { |
| Some(Node::Binding(_)) => (), |
| _ => return false, |
| } |
| match self.find(self.get_parent_node(id)) { |
| Some(Node::Item(_)) | |
| Some(Node::TraitItem(_)) | |
| Some(Node::ImplItem(_)) => true, |
| Some(Node::Expr(e)) => { |
| match e.node { |
| ExprKind::Closure(..) => true, |
| _ => false, |
| } |
| } |
| _ => false, |
| } |
| } |
| |
| /// If there is some error when walking the parents (e.g., a node does not |
| /// have a parent in the map or a node can't be found), then we return the |
| /// last good node id we found. Note that reaching the crate root (`id == 0`), |
| /// is not an error, since items in the crate module have the crate root as |
| /// parent. |
| fn walk_parent_nodes<F, F2>(&self, |
| start_id: NodeId, |
| found: F, |
| bail_early: F2) |
| -> Result<NodeId, NodeId> |
| where F: Fn(&Node<'hir>) -> bool, F2: Fn(&Node<'hir>) -> bool |
| { |
| let mut id = start_id; |
| loop { |
| let parent_node = self.get_parent_node(id); |
| if parent_node == CRATE_NODE_ID { |
| return Ok(CRATE_NODE_ID); |
| } |
| if parent_node == id { |
| return Err(id); |
| } |
| |
| if let Some(entry) = self.find_entry(parent_node) { |
| if let Node::Crate = entry.node { |
| return Err(id); |
| } |
| if found(&entry.node) { |
| return Ok(parent_node); |
| } else if bail_early(&entry.node) { |
| return Err(parent_node); |
| } |
| id = parent_node; |
| } else { |
| return Err(id); |
| } |
| } |
| } |
| |
| /// Retrieve the `NodeId` for `id`'s enclosing method, unless there's a |
| /// `while` or `loop` before reaching it, as block tail returns are not |
| /// available in them. |
| /// |
| /// ``` |
| /// fn foo(x: usize) -> bool { |
| /// if x == 1 { |
| /// true // `get_return_block` gets passed the `id` corresponding |
| /// } else { // to this, it will return `foo`'s `NodeId`. |
| /// false |
| /// } |
| /// } |
| /// ``` |
| /// |
| /// ``` |
| /// fn foo(x: usize) -> bool { |
| /// loop { |
| /// true // `get_return_block` gets passed the `id` corresponding |
| /// } // to this, it will return `None`. |
| /// false |
| /// } |
| /// ``` |
| pub fn get_return_block(&self, id: NodeId) -> Option<NodeId> { |
| let match_fn = |node: &Node<'_>| { |
| match *node { |
| Node::Item(_) | |
| Node::ForeignItem(_) | |
| Node::TraitItem(_) | |
| Node::Expr(Expr { node: ExprKind::Closure(..), ..}) | |
| Node::ImplItem(_) => true, |
| _ => false, |
| } |
| }; |
| let match_non_returning_block = |node: &Node<'_>| { |
| match *node { |
| Node::Expr(ref expr) => { |
| match expr.node { |
| ExprKind::While(..) | ExprKind::Loop(..) | ExprKind::Ret(..) => true, |
| _ => false, |
| } |
| } |
| _ => false, |
| } |
| }; |
| |
| self.walk_parent_nodes(id, match_fn, match_non_returning_block).ok() |
| } |
| |
| /// Retrieve the `NodeId` for `id`'s parent item, or `id` itself if no |
| /// parent item is in this map. The "parent item" is the closest parent node |
| /// in the HIR which is recorded by the map and is an item, either an item |
| /// in a module, trait, or impl. |
| pub fn get_parent(&self, id: NodeId) -> NodeId { |
| match self.walk_parent_nodes(id, |node| match *node { |
| Node::Item(_) | |
| Node::ForeignItem(_) | |
| Node::TraitItem(_) | |
| Node::ImplItem(_) => true, |
| _ => false, |
| }, |_| false) { |
| Ok(id) => id, |
| Err(id) => id, |
| } |
| } |
| |
| /// Returns the `DefId` of `id`'s nearest module parent, or `id` itself if no |
| /// module parent is in this map. |
| pub fn get_module_parent(&self, id: NodeId) -> DefId { |
| self.local_def_id(self.get_module_parent_node(id)) |
| } |
| |
| /// Returns the `NodeId` of `id`'s nearest module parent, or `id` itself if no |
| /// module parent is in this map. |
| pub fn get_module_parent_node(&self, id: NodeId) -> NodeId { |
| match self.walk_parent_nodes(id, |node| match *node { |
| Node::Item(&Item { node: ItemKind::Mod(_), .. }) => true, |
| _ => false, |
| }, |_| false) { |
| Ok(id) => id, |
| Err(id) => id, |
| } |
| } |
| |
| /// Returns the nearest enclosing scope. A scope is an item or block. |
| /// FIXME: it is not clear to me that all items qualify as scopes -- statics |
| /// and associated types probably shouldn't, for example. Behavior in this |
| /// regard should be expected to be highly unstable. |
| pub fn get_enclosing_scope(&self, id: NodeId) -> Option<NodeId> { |
| self.walk_parent_nodes(id, |node| match *node { |
| Node::Item(_) | |
| Node::ForeignItem(_) | |
| Node::TraitItem(_) | |
| Node::ImplItem(_) | |
| Node::Block(_) => true, |
| _ => false, |
| }, |_| false).ok() |
| } |
| |
| pub fn get_parent_did(&self, id: NodeId) -> DefId { |
| self.local_def_id(self.get_parent(id)) |
| } |
| |
| pub fn get_foreign_abi(&self, id: NodeId) -> Abi { |
| let parent = self.get_parent(id); |
| if let Some(entry) = self.find_entry(parent) { |
| if let Entry { |
| node: Node::Item(Item { node: ItemKind::ForeignMod(ref nm), .. }), .. } = entry |
| { |
| self.read(id); // reveals some of the content of a node |
| return nm.abi; |
| } |
| } |
| bug!("expected foreign mod or inlined parent, found {}", self.node_to_string(parent)) |
| } |
| |
| pub fn expect_item(&self, id: NodeId) -> &'hir Item { |
| match self.find(id) { // read recorded by `find` |
| Some(Node::Item(item)) => item, |
| _ => bug!("expected item, found {}", self.node_to_string(id)) |
| } |
| } |
| |
| pub fn expect_impl_item(&self, id: NodeId) -> &'hir ImplItem { |
| match self.find(id) { |
| Some(Node::ImplItem(item)) => item, |
| _ => bug!("expected impl item, found {}", self.node_to_string(id)) |
| } |
| } |
| |
| pub fn expect_trait_item(&self, id: NodeId) -> &'hir TraitItem { |
| match self.find(id) { |
| Some(Node::TraitItem(item)) => item, |
| _ => bug!("expected trait item, found {}", self.node_to_string(id)) |
| } |
| } |
| |
| pub fn expect_variant_data(&self, id: NodeId) -> &'hir VariantData { |
| match self.find(id) { |
| Some(Node::Item(i)) => { |
| match i.node { |
| ItemKind::Struct(ref struct_def, _) | |
| ItemKind::Union(ref struct_def, _) => struct_def, |
| _ => bug!("struct ID bound to non-struct {}", self.node_to_string(id)) |
| } |
| } |
| Some(Node::StructCtor(data)) => data, |
| Some(Node::Variant(variant)) => &variant.node.data, |
| _ => bug!("expected struct or variant, found {}", self.node_to_string(id)) |
| } |
| } |
| |
| pub fn expect_variant(&self, id: NodeId) -> &'hir Variant { |
| match self.find(id) { |
| Some(Node::Variant(variant)) => variant, |
| _ => bug!("expected variant, found {}", self.node_to_string(id)), |
| } |
| } |
| |
| pub fn expect_foreign_item(&self, id: NodeId) -> &'hir ForeignItem { |
| match self.find(id) { |
| Some(Node::ForeignItem(item)) => item, |
| _ => bug!("expected foreign item, found {}", self.node_to_string(id)) |
| } |
| } |
| |
| pub fn expect_expr(&self, id: NodeId) -> &'hir Expr { |
| match self.find(id) { // read recorded by find |
| Some(Node::Expr(expr)) => expr, |
| _ => bug!("expected expr, found {}", self.node_to_string(id)) |
| } |
| } |
| |
| /// Returns the name associated with the given NodeId's AST. |
| pub fn name(&self, id: NodeId) -> Name { |
| match self.get(id) { |
| Node::Item(i) => i.ident.name, |
| Node::ForeignItem(fi) => fi.ident.name, |
| Node::ImplItem(ii) => ii.ident.name, |
| Node::TraitItem(ti) => ti.ident.name, |
| Node::Variant(v) => v.node.ident.name, |
| Node::Field(f) => f.ident.name, |
| Node::Lifetime(lt) => lt.name.ident().name, |
| Node::GenericParam(param) => param.name.ident().name, |
| Node::Binding(&Pat { node: PatKind::Binding(_,_,l,_), .. }) => l.name, |
| Node::StructCtor(_) => self.name(self.get_parent(id)), |
| _ => bug!("no name for {}", self.node_to_string(id)) |
| } |
| } |
| |
| /// Given a node ID, get a list of attributes associated with the AST |
| /// corresponding to the Node ID |
| pub fn attrs(&self, id: NodeId) -> &'hir [ast::Attribute] { |
| self.read(id); // reveals attributes on the node |
| let attrs = match self.find(id) { |
| Some(Node::Item(i)) => Some(&i.attrs[..]), |
| Some(Node::ForeignItem(fi)) => Some(&fi.attrs[..]), |
| Some(Node::TraitItem(ref ti)) => Some(&ti.attrs[..]), |
| Some(Node::ImplItem(ref ii)) => Some(&ii.attrs[..]), |
| Some(Node::Variant(ref v)) => Some(&v.node.attrs[..]), |
| Some(Node::Field(ref f)) => Some(&f.attrs[..]), |
| Some(Node::Expr(ref e)) => Some(&*e.attrs), |
| Some(Node::Stmt(ref s)) => Some(s.node.attrs()), |
| Some(Node::GenericParam(param)) => Some(¶m.attrs[..]), |
| // unit/tuple structs take the attributes straight from |
| // the struct definition. |
| Some(Node::StructCtor(_)) => return self.attrs(self.get_parent(id)), |
| _ => None |
| }; |
| attrs.unwrap_or(&[]) |
| } |
| |
| /// Returns an iterator that yields the node id's with paths that |
| /// match `parts`. (Requires `parts` is non-empty.) |
| /// |
| /// For example, if given `parts` equal to `["bar", "quux"]`, then |
| /// the iterator will produce node id's for items with paths |
| /// such as `foo::bar::quux`, `bar::quux`, `other::bar::quux`, and |
| /// any other such items it can find in the map. |
| pub fn nodes_matching_suffix<'a>(&'a self, parts: &'a [String]) |
| -> NodesMatchingSuffix<'a, 'hir> { |
| NodesMatchingSuffix { |
| map: self, |
| item_name: parts.last().unwrap(), |
| in_which: &parts[..parts.len() - 1], |
| idx: CRATE_NODE_ID, |
| } |
| } |
| |
| pub fn span(&self, id: NodeId) -> Span { |
| self.read(id); // reveals span from node |
| match self.find_entry(id).map(|entry| entry.node) { |
| Some(Node::Item(item)) => item.span, |
| Some(Node::ForeignItem(foreign_item)) => foreign_item.span, |
| Some(Node::TraitItem(trait_method)) => trait_method.span, |
| Some(Node::ImplItem(impl_item)) => impl_item.span, |
| Some(Node::Variant(variant)) => variant.span, |
| Some(Node::Field(field)) => field.span, |
| Some(Node::AnonConst(constant)) => self.body(constant.body).value.span, |
| Some(Node::Expr(expr)) => expr.span, |
| Some(Node::Stmt(stmt)) => stmt.span, |
| Some(Node::PathSegment(seg)) => seg.ident.span, |
| Some(Node::Ty(ty)) => ty.span, |
| Some(Node::TraitRef(tr)) => tr.path.span, |
| Some(Node::Binding(pat)) => pat.span, |
| Some(Node::Pat(pat)) => pat.span, |
| Some(Node::Block(block)) => block.span, |
| Some(Node::StructCtor(_)) => self.expect_item(self.get_parent(id)).span, |
| Some(Node::Lifetime(lifetime)) => lifetime.span, |
| Some(Node::GenericParam(param)) => param.span, |
| Some(Node::Visibility(&Spanned { |
| node: VisibilityKind::Restricted { ref path, .. }, .. |
| })) => path.span, |
| Some(Node::Visibility(v)) => bug!("unexpected Visibility {:?}", v), |
| Some(Node::Local(local)) => local.span, |
| Some(Node::MacroDef(macro_def)) => macro_def.span, |
| Some(Node::Crate) => self.forest.krate.span, |
| None => bug!("hir::map::Map::span: id not in map: {:?}", id), |
| } |
| } |
| |
| pub fn span_if_local(&self, id: DefId) -> Option<Span> { |
| self.as_local_node_id(id).map(|id| self.span(id)) |
| } |
| |
| pub fn node_to_string(&self, id: NodeId) -> String { |
| node_id_to_string(self, id, true) |
| } |
| |
| pub fn node_to_user_string(&self, id: NodeId) -> String { |
| node_id_to_string(self, id, false) |
| } |
| |
| pub fn node_to_pretty_string(&self, id: NodeId) -> String { |
| print::to_string(self, |s| s.print_node(self.get(id))) |
| } |
| } |
| |
| pub struct NodesMatchingSuffix<'a, 'hir:'a> { |
| map: &'a Map<'hir>, |
| item_name: &'a String, |
| in_which: &'a [String], |
| idx: NodeId, |
| } |
| |
| impl<'a, 'hir> NodesMatchingSuffix<'a, 'hir> { |
| /// Returns true only if some suffix of the module path for parent |
| /// matches `self.in_which`. |
| /// |
| /// In other words: let `[x_0,x_1,...,x_k]` be `self.in_which`; |
| /// returns true if parent's path ends with the suffix |
| /// `x_0::x_1::...::x_k`. |
| fn suffix_matches(&self, parent: NodeId) -> bool { |
| let mut cursor = parent; |
| for part in self.in_which.iter().rev() { |
| let (mod_id, mod_name) = match find_first_mod_parent(self.map, cursor) { |
| None => return false, |
| Some((node_id, name)) => (node_id, name), |
| }; |
| if mod_name != &**part { |
| return false; |
| } |
| cursor = self.map.get_parent(mod_id); |
| } |
| return true; |
| |
| // Finds the first mod in parent chain for `id`, along with |
| // that mod's name. |
| // |
| // If `id` itself is a mod named `m` with parent `p`, then |
| // returns `Some(id, m, p)`. If `id` has no mod in its parent |
| // chain, then returns `None`. |
| fn find_first_mod_parent<'a>(map: &'a Map<'_>, mut id: NodeId) -> Option<(NodeId, Name)> { |
| loop { |
| if let Node::Item(item) = map.find(id)? { |
| if item_is_mod(&item) { |
| return Some((id, item.ident.name)) |
| } |
| } |
| let parent = map.get_parent(id); |
| if parent == id { return None } |
| id = parent; |
| } |
| |
| fn item_is_mod(item: &Item) -> bool { |
| match item.node { |
| ItemKind::Mod(_) => true, |
| _ => false, |
| } |
| } |
| } |
| } |
| |
| // We are looking at some node `n` with a given name and parent |
| // id; do their names match what I am seeking? |
| fn matches_names(&self, parent_of_n: NodeId, name: Name) -> bool { |
| name == &**self.item_name && self.suffix_matches(parent_of_n) |
| } |
| } |
| |
| impl<'a, 'hir> Iterator for NodesMatchingSuffix<'a, 'hir> { |
| type Item = NodeId; |
| |
| fn next(&mut self) -> Option<NodeId> { |
| loop { |
| let idx = self.idx; |
| if idx.as_usize() >= self.map.entry_count() { |
| return None; |
| } |
| self.idx = NodeId::from_u32(self.idx.as_u32() + 1); |
| let name = match self.map.find_entry(idx).map(|entry| entry.node) { |
| Some(Node::Item(n)) => n.name(), |
| Some(Node::ForeignItem(n)) => n.name(), |
| Some(Node::TraitItem(n)) => n.name(), |
| Some(Node::ImplItem(n)) => n.name(), |
| Some(Node::Variant(n)) => n.name(), |
| Some(Node::Field(n)) => n.name(), |
| _ => continue, |
| }; |
| if self.matches_names(self.map.get_parent(idx), name) { |
| return Some(idx) |
| } |
| } |
| } |
| } |
| |
| trait Named { |
| fn name(&self) -> Name; |
| } |
| |
| impl<T:Named> Named for Spanned<T> { fn name(&self) -> Name { self.node.name() } } |
| |
| impl Named for Item { fn name(&self) -> Name { self.ident.name } } |
| impl Named for ForeignItem { fn name(&self) -> Name { self.ident.name } } |
| impl Named for VariantKind { fn name(&self) -> Name { self.ident.name } } |
| impl Named for StructField { fn name(&self) -> Name { self.ident.name } } |
| impl Named for TraitItem { fn name(&self) -> Name { self.ident.name } } |
| impl Named for ImplItem { fn name(&self) -> Name { self.ident.name } } |
| |
| pub fn map_crate<'hir>(sess: &::session::Session, |
| cstore: &CrateStoreDyn, |
| forest: &'hir Forest, |
| definitions: &'hir Definitions) |
| -> Map<'hir> { |
| let ((map, crate_hash), hir_to_node_id) = join(|| { |
| let hcx = ::ich::StableHashingContext::new(sess, &forest.krate, definitions, cstore); |
| |
| let mut collector = NodeCollector::root(sess, |
| &forest.krate, |
| &forest.dep_graph, |
| &definitions, |
| hcx); |
| intravisit::walk_crate(&mut collector, &forest.krate); |
| |
| let crate_disambiguator = sess.local_crate_disambiguator(); |
| let cmdline_args = sess.opts.dep_tracking_hash(); |
| collector.finalize_and_compute_crate_hash( |
| crate_disambiguator, |
| cstore, |
| cmdline_args |
| ) |
| }, || { |
| // Build the reverse mapping of `node_to_hir_id`. |
| definitions.node_to_hir_id.iter_enumerated() |
| .map(|(node_id, &hir_id)| (hir_id, node_id)).collect() |
| }); |
| |
| if log_enabled!(::log::Level::Debug) { |
| // This only makes sense for ordered stores; note the |
| // enumerate to count the number of entries. |
| let (entries_less_1, _) = map.iter().filter_map(|x| *x).enumerate().last() |
| .expect("AST map was empty after folding?"); |
| |
| let entries = entries_less_1 + 1; |
| let vector_length = map.len(); |
| debug!("The AST map has {} entries with a maximum of {}: occupancy {:.1}%", |
| entries, vector_length, (entries as f64 / vector_length as f64) * 100.); |
| } |
| |
| let map = Map { |
| forest, |
| dep_graph: forest.dep_graph.clone(), |
| crate_hash, |
| map, |
| hir_to_node_id, |
| definitions, |
| }; |
| |
| time(sess, "validate hir map", || { |
| hir_id_validator::check_crate(&map); |
| }); |
| |
| map |
| } |
| |
| /// Identical to the `PpAnn` implementation for `hir::Crate`, |
| /// except it avoids creating a dependency on the whole crate. |
| impl<'hir> print::PpAnn for Map<'hir> { |
| fn nested(&self, state: &mut print::State<'_>, nested: print::Nested) -> io::Result<()> { |
| match nested { |
| Nested::Item(id) => state.print_item(self.expect_item(id.id)), |
| Nested::TraitItem(id) => state.print_trait_item(self.trait_item(id)), |
| Nested::ImplItem(id) => state.print_impl_item(self.impl_item(id)), |
| Nested::Body(id) => state.print_expr(&self.body(id).value), |
| Nested::BodyArgPat(id, i) => state.print_pat(&self.body(id).arguments[i].pat) |
| } |
| } |
| } |
| |
| impl<'a> print::State<'a> { |
| pub fn print_node(&mut self, node: Node<'_>) -> io::Result<()> { |
| match node { |
| Node::Item(a) => self.print_item(&a), |
| Node::ForeignItem(a) => self.print_foreign_item(&a), |
| Node::TraitItem(a) => self.print_trait_item(a), |
| Node::ImplItem(a) => self.print_impl_item(a), |
| Node::Variant(a) => self.print_variant(&a), |
| Node::AnonConst(a) => self.print_anon_const(&a), |
| Node::Expr(a) => self.print_expr(&a), |
| Node::Stmt(a) => self.print_stmt(&a), |
| Node::PathSegment(a) => self.print_path_segment(&a), |
| Node::Ty(a) => self.print_type(&a), |
| Node::TraitRef(a) => self.print_trait_ref(&a), |
| Node::Binding(a) | |
| Node::Pat(a) => self.print_pat(&a), |
| Node::Block(a) => { |
| use syntax::print::pprust::PrintState; |
| |
| // containing cbox, will be closed by print-block at } |
| self.cbox(print::indent_unit)?; |
| // head-ibox, will be closed by print-block after { |
| self.ibox(0)?; |
| self.print_block(&a) |
| } |
| Node::Lifetime(a) => self.print_lifetime(&a), |
| Node::Visibility(a) => self.print_visibility(&a), |
| Node::GenericParam(_) => bug!("cannot print Node::GenericParam"), |
| Node::Field(_) => bug!("cannot print StructField"), |
| // these cases do not carry enough information in the |
| // hir_map to reconstruct their full structure for pretty |
| // printing. |
| Node::StructCtor(_) => bug!("cannot print isolated StructCtor"), |
| Node::Local(a) => self.print_local_decl(&a), |
| Node::MacroDef(_) => bug!("cannot print MacroDef"), |
| Node::Crate => bug!("cannot print Crate"), |
| } |
| } |
| } |
| |
| fn node_id_to_string(map: &Map<'_>, id: NodeId, include_id: bool) -> String { |
| let id_str = format!(" (id={})", id); |
| let id_str = if include_id { &id_str[..] } else { "" }; |
| |
| let path_str = || { |
| // This functionality is used for debugging, try to use TyCtxt to get |
| // the user-friendly path, otherwise fall back to stringifying DefPath. |
| ::ty::tls::with_opt(|tcx| { |
| if let Some(tcx) = tcx { |
| tcx.node_path_str(id) |
| } else if let Some(path) = map.def_path_from_id(id) { |
| path.data.into_iter().map(|elem| { |
| elem.data.to_string() |
| }).collect::<Vec<_>>().join("::") |
| } else { |
| String::from("<missing path>") |
| } |
| }) |
| }; |
| |
| match map.find(id) { |
| Some(Node::Item(item)) => { |
| let item_str = match item.node { |
| ItemKind::ExternCrate(..) => "extern crate", |
| ItemKind::Use(..) => "use", |
| ItemKind::Static(..) => "static", |
| ItemKind::Const(..) => "const", |
| ItemKind::Fn(..) => "fn", |
| ItemKind::Mod(..) => "mod", |
| ItemKind::ForeignMod(..) => "foreign mod", |
| ItemKind::GlobalAsm(..) => "global asm", |
| ItemKind::Ty(..) => "ty", |
| ItemKind::Existential(..) => "existential type", |
| ItemKind::Enum(..) => "enum", |
| ItemKind::Struct(..) => "struct", |
| ItemKind::Union(..) => "union", |
| ItemKind::Trait(..) => "trait", |
| ItemKind::TraitAlias(..) => "trait alias", |
| ItemKind::Impl(..) => "impl", |
| }; |
| format!("{} {}{}", item_str, path_str(), id_str) |
| } |
| Some(Node::ForeignItem(_)) => { |
| format!("foreign item {}{}", path_str(), id_str) |
| } |
| Some(Node::ImplItem(ii)) => { |
| match ii.node { |
| ImplItemKind::Const(..) => { |
| format!("assoc const {} in {}{}", ii.ident, path_str(), id_str) |
| } |
| ImplItemKind::Method(..) => { |
| format!("method {} in {}{}", ii.ident, path_str(), id_str) |
| } |
| ImplItemKind::Type(_) => { |
| format!("assoc type {} in {}{}", ii.ident, path_str(), id_str) |
| } |
| ImplItemKind::Existential(_) => { |
| format!("assoc existential type {} in {}{}", ii.ident, path_str(), id_str) |
| } |
| } |
| } |
| Some(Node::TraitItem(ti)) => { |
| let kind = match ti.node { |
| TraitItemKind::Const(..) => "assoc constant", |
| TraitItemKind::Method(..) => "trait method", |
| TraitItemKind::Type(..) => "assoc type", |
| }; |
| |
| format!("{} {} in {}{}", kind, ti.ident, path_str(), id_str) |
| } |
| Some(Node::Variant(ref variant)) => { |
| format!("variant {} in {}{}", |
| variant.node.ident, |
| path_str(), id_str) |
| } |
| Some(Node::Field(ref field)) => { |
| format!("field {} in {}{}", |
| field.ident, |
| path_str(), id_str) |
| } |
| Some(Node::AnonConst(_)) => { |
| format!("const {}{}", map.node_to_pretty_string(id), id_str) |
| } |
| Some(Node::Expr(_)) => { |
| format!("expr {}{}", map.node_to_pretty_string(id), id_str) |
| } |
| Some(Node::Stmt(_)) => { |
| format!("stmt {}{}", map.node_to_pretty_string(id), id_str) |
| } |
| Some(Node::PathSegment(_)) => { |
| format!("path segment {}{}", map.node_to_pretty_string(id), id_str) |
| } |
| Some(Node::Ty(_)) => { |
| format!("type {}{}", map.node_to_pretty_string(id), id_str) |
| } |
| Some(Node::TraitRef(_)) => { |
| format!("trait_ref {}{}", map.node_to_pretty_string(id), id_str) |
| } |
| Some(Node::Binding(_)) => { |
| format!("local {}{}", map.node_to_pretty_string(id), id_str) |
| } |
| Some(Node::Pat(_)) => { |
| format!("pat {}{}", map.node_to_pretty_string(id), id_str) |
| } |
| Some(Node::Block(_)) => { |
| format!("block {}{}", map.node_to_pretty_string(id), id_str) |
| } |
| Some(Node::Local(_)) => { |
| format!("local {}{}", map.node_to_pretty_string(id), id_str) |
| } |
| Some(Node::StructCtor(_)) => { |
| format!("struct_ctor {}{}", path_str(), id_str) |
| } |
| Some(Node::Lifetime(_)) => { |
| format!("lifetime {}{}", map.node_to_pretty_string(id), id_str) |
| } |
| Some(Node::GenericParam(ref param)) => { |
| format!("generic_param {:?}{}", param, id_str) |
| } |
| Some(Node::Visibility(ref vis)) => { |
| format!("visibility {:?}{}", vis, id_str) |
| } |
| Some(Node::MacroDef(_)) => { |
| format!("macro {}{}", path_str(), id_str) |
| } |
| Some(Node::Crate) => String::from("root_crate"), |
| None => format!("unknown node{}", id_str), |
| } |
| } |
| |
| pub fn describe_def(tcx: TyCtxt<'_, '_, '_>, def_id: DefId) -> Option<Def> { |
| if let Some(node_id) = tcx.hir().as_local_node_id(def_id) { |
| tcx.hir().describe_def(node_id) |
| } else { |
| bug!("Calling local describe_def query provider for upstream DefId: {:?}", |
| def_id) |
| } |
| } |