rust/compiler/rustc_middle/src/hir/map/collector.rs

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use crate::arena::Arena;
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use crate::hir::map::{Entry, HirOwnerData, Map};
use crate::hir::{Owner, OwnerNodes, ParentedNode};
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use crate::ich::StableHashingContext;
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use crate::middle::cstore::CrateStore;
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use rustc_data_structures::fingerprint::Fingerprint;
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use rustc_data_structures::fx::FxHashMap;
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use rustc_data_structures::stable_hasher::{HashStable, StableHasher};
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use rustc_data_structures::svh::Svh;
use rustc_hir as hir;
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use rustc_hir::def_id::CRATE_DEF_INDEX;
use rustc_hir::def_id::{LocalDefId, LOCAL_CRATE};
use rustc_hir::definitions::{self, DefPathHash};
use rustc_hir::intravisit::{self, NestedVisitorMap, Visitor};
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use rustc_hir::*;
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use rustc_index::vec::{Idx, IndexVec};
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use rustc_session::{CrateDisambiguator, Session};
use rustc_span::source_map::SourceMap;
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use rustc_span::{Span, Symbol, DUMMY_SP};
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use std::iter::repeat;
/// A visitor that walks over the HIR and collects `Node`s into a HIR map.
pub(super) struct NodeCollector<'a, 'hir> {
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arena: &'hir Arena<'hir>,
/// The crate
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krate: &'hir Crate<'hir>,
/// Source map
source_map: &'a SourceMap,
map: IndexVec<LocalDefId, HirOwnerData<'hir>>,
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/// The parent of this node
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parent_node: hir::HirId,
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current_dep_node_owner: LocalDefId,
definitions: &'a definitions::Definitions,
hcx: StableHashingContext<'a>,
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// We are collecting HIR hashes here so we can compute the
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// crate hash from them later on.
hir_body_nodes: Vec<(DefPathHash, Fingerprint)>,
}
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fn insert_vec_map<K: Idx, V: Clone>(map: &mut IndexVec<K, Option<V>>, k: K, v: V) {
let i = k.index();
let len = map.len();
if i >= len {
map.extend(repeat(None).take(i - len + 1));
}
map[k] = Some(v);
}
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fn hash(
hcx: &mut StableHashingContext<'_>,
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input: impl for<'a> HashStable<StableHashingContext<'a>>,
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) -> Fingerprint {
let mut stable_hasher = StableHasher::new();
input.hash_stable(hcx, &mut stable_hasher);
stable_hasher.finish()
}
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fn hash_body(
hcx: &mut StableHashingContext<'_>,
def_path_hash: DefPathHash,
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item_like: impl for<'a> HashStable<StableHashingContext<'a>>,
hir_body_nodes: &mut Vec<(DefPathHash, Fingerprint)>,
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) -> Fingerprint {
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let hash = hash(hcx, HirItemLike { item_like: &item_like });
hir_body_nodes.push((def_path_hash, hash));
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hash
}
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fn upstream_crates(cstore: &dyn CrateStore) -> Vec<(Symbol, Fingerprint, Svh)> {
let mut upstream_crates: Vec<_> = cstore
.crates_untracked()
.iter()
.map(|&cnum| {
let name = cstore.crate_name_untracked(cnum);
let disambiguator = cstore.crate_disambiguator_untracked(cnum).to_fingerprint();
let hash = cstore.crate_hash_untracked(cnum);
(name, disambiguator, hash)
})
.collect();
upstream_crates.sort_unstable_by_key(|&(name, dis, _)| (name.as_str(), dis));
upstream_crates
}
impl<'a, 'hir> NodeCollector<'a, 'hir> {
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pub(super) fn root(
sess: &'a Session,
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arena: &'hir Arena<'hir>,
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krate: &'hir Crate<'hir>,
definitions: &'a definitions::Definitions,
mut hcx: StableHashingContext<'a>,
) -> NodeCollector<'a, 'hir> {
let root_mod_def_path_hash =
definitions.def_path_hash(LocalDefId { local_def_index: CRATE_DEF_INDEX });
let mut hir_body_nodes = Vec::new();
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let hash = {
let Crate {
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ref item,
// These fields are handled separately:
exported_macros: _,
non_exported_macro_attrs: _,
items: _,
trait_items: _,
impl_items: _,
bodies: _,
trait_impls: _,
body_ids: _,
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modules: _,
proc_macros: _,
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trait_map: _,
} = *krate;
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hash_body(&mut hcx, root_mod_def_path_hash, item, &mut hir_body_nodes)
};
let mut collector = NodeCollector {
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arena,
krate,
source_map: sess.source_map(),
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parent_node: hir::CRATE_HIR_ID,
current_dep_node_owner: LocalDefId { local_def_index: CRATE_DEF_INDEX },
definitions,
hcx,
hir_body_nodes,
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map: (0..definitions.def_index_count())
.map(|_| HirOwnerData { signature: None, with_bodies: None })
.collect(),
};
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collector.insert_entry(
hir::CRATE_HIR_ID,
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Entry { parent: hir::CRATE_HIR_ID, node: Node::Crate(&krate.item) },
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hash,
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);
collector
}
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pub(super) fn finalize_and_compute_crate_hash(
mut self,
crate_disambiguator: CrateDisambiguator,
cstore: &dyn CrateStore,
commandline_args_hash: u64,
) -> (IndexVec<LocalDefId, HirOwnerData<'hir>>, Svh) {
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// Insert bodies into the map
for (id, body) in self.krate.bodies.iter() {
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let bodies = &mut self.map[id.hir_id.owner].with_bodies.as_mut().unwrap().bodies;
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assert!(bodies.insert(id.hir_id.local_id, body).is_none());
}
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self.hir_body_nodes.sort_unstable_by_key(|bn| bn.0);
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let node_hashes = self.hir_body_nodes.iter().fold(
Fingerprint::ZERO,
|combined_fingerprint, &(def_path_hash, fingerprint)| {
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combined_fingerprint.combine(def_path_hash.0.combine(fingerprint))
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},
);
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let upstream_crates = upstream_crates(cstore);
// We hash the final, remapped names of all local source files so we
// don't have to include the path prefix remapping commandline args.
// If we included the full mapping in the SVH, we could only have
// reproducible builds by compiling from the same directory. So we just
// hash the result of the mapping instead of the mapping itself.
let mut source_file_names: Vec<_> = self
.source_map
.files()
.iter()
.filter(|source_file| source_file.cnum == LOCAL_CRATE)
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.map(|source_file| source_file.name_hash)
.collect();
source_file_names.sort_unstable();
let crate_hash_input = (
((node_hashes, upstream_crates), source_file_names),
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(commandline_args_hash, crate_disambiguator.to_fingerprint()),
);
let mut stable_hasher = StableHasher::new();
crate_hash_input.hash_stable(&mut self.hcx, &mut stable_hasher);
let crate_hash: Fingerprint = stable_hasher.finish();
let svh = Svh::new(crate_hash.to_smaller_hash());
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(self.map, svh)
}
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fn insert_entry(&mut self, id: HirId, entry: Entry<'hir>, hash: Fingerprint) {
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let i = id.local_id.as_u32() as usize;
let arena = self.arena;
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let data = &mut self.map[id.owner];
if data.with_bodies.is_none() {
data.with_bodies = Some(arena.alloc(OwnerNodes {
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hash,
nodes: IndexVec::new(),
bodies: FxHashMap::default(),
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}));
}
let nodes = data.with_bodies.as_mut().unwrap();
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if i == 0 {
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// Overwrite the dummy hash with the real HIR owner hash.
nodes.hash = hash;
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// FIXME: feature(impl_trait_in_bindings) broken and trigger this assert
//assert!(data.signature.is_none());
data.signature =
Some(self.arena.alloc(Owner { parent: entry.parent, node: entry.node }));
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} else {
assert_eq!(entry.parent.owner, id.owner);
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insert_vec_map(
&mut nodes.nodes,
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id.local_id,
ParentedNode { parent: entry.parent.local_id, node: entry.node },
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);
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}
}
fn insert(&mut self, span: Span, hir_id: HirId, node: Node<'hir>) {
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self.insert_with_hash(span, hir_id, node, Fingerprint::ZERO)
}
fn insert_with_hash(&mut self, span: Span, hir_id: HirId, node: Node<'hir>, hash: Fingerprint) {
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let entry = Entry { parent: self.parent_node, node };
// Make sure that the DepNode of some node coincides with the HirId
// owner of that node.
if cfg!(debug_assertions) {
if hir_id.owner != self.current_dep_node_owner {
let node_str = match self.definitions.opt_hir_id_to_local_def_id(hir_id) {
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Some(def_id) => self.definitions.def_path(def_id).to_string_no_crate_verbose(),
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None => format!("{:?}", node),
};
span_bug!(
span,
"inconsistent DepNode at `{:?}` for `{}`: \
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current_dep_node_owner={} ({:?}), hir_id.owner={} ({:?})",
self.source_map.span_to_string(span),
node_str,
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self.definitions
.def_path(self.current_dep_node_owner)
.to_string_no_crate_verbose(),
self.current_dep_node_owner,
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self.definitions.def_path(hir_id.owner).to_string_no_crate_verbose(),
hir_id.owner,
)
}
}
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self.insert_entry(hir_id, entry, hash);
}
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fn with_parent<F: FnOnce(&mut Self)>(&mut self, parent_node_id: HirId, f: F) {
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let parent_node = self.parent_node;
self.parent_node = parent_node_id;
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f(self);
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self.parent_node = parent_node;
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}
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fn with_dep_node_owner<
T: for<'b> HashStable<StableHashingContext<'b>>,
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F: FnOnce(&mut Self, Fingerprint),
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>(
&mut self,
dep_node_owner: LocalDefId,
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item_like: &T,
f: F,
) {
let prev_owner = self.current_dep_node_owner;
let def_path_hash = self.definitions.def_path_hash(dep_node_owner);
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let hash = hash_body(&mut self.hcx, def_path_hash, item_like, &mut self.hir_body_nodes);
self.current_dep_node_owner = dep_node_owner;
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f(self, hash);
self.current_dep_node_owner = prev_owner;
}
}
impl<'a, 'hir> Visitor<'hir> for NodeCollector<'a, 'hir> {
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type Map = Map<'hir>;
/// Because we want to track parent items and so forth, enable
/// deep walking so that we walk nested items in the context of
/// their outer items.
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fn nested_visit_map(&mut self) -> NestedVisitorMap<Self::Map> {
panic!("`visit_nested_xxx` must be manually implemented in this visitor");
}
fn visit_nested_item(&mut self, item: ItemId) {
debug!("visit_nested_item: {:?}", item);
self.visit_item(self.krate.item(item.id));
}
fn visit_nested_trait_item(&mut self, item_id: TraitItemId) {
self.visit_trait_item(self.krate.trait_item(item_id));
}
fn visit_nested_impl_item(&mut self, item_id: ImplItemId) {
self.visit_impl_item(self.krate.impl_item(item_id));
}
fn visit_nested_body(&mut self, id: BodyId) {
self.visit_body(self.krate.body(id));
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}
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fn visit_param(&mut self, param: &'hir Param<'hir>) {
let node = Node::Param(param);
self.insert(param.pat.span, param.hir_id, node);
self.with_parent(param.hir_id, |this| {
intravisit::walk_param(this, param);
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});
}
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fn visit_item(&mut self, i: &'hir Item<'hir>) {
debug!("visit_item: {:?}", i);
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debug_assert_eq!(
i.hir_id.owner,
self.definitions.opt_hir_id_to_local_def_id(i.hir_id).unwrap()
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);
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self.with_dep_node_owner(i.hir_id.owner, i, |this, hash| {
this.insert_with_hash(i.span, i.hir_id, Node::Item(i), hash);
this.with_parent(i.hir_id, |this| {
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if let ItemKind::Struct(ref struct_def, _) = i.kind {
// If this is a tuple or unit-like struct, register the constructor.
if let Some(ctor_hir_id) = struct_def.ctor_hir_id() {
this.insert(i.span, ctor_hir_id, Node::Ctor(struct_def));
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}
}
intravisit::walk_item(this, i);
});
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});
}
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fn visit_foreign_item(&mut self, foreign_item: &'hir ForeignItem<'hir>) {
self.insert(foreign_item.span, foreign_item.hir_id, Node::ForeignItem(foreign_item));
self.with_parent(foreign_item.hir_id, |this| {
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intravisit::walk_foreign_item(this, foreign_item);
});
}
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fn visit_generic_param(&mut self, param: &'hir GenericParam<'hir>) {
self.insert(param.span, param.hir_id, Node::GenericParam(param));
intravisit::walk_generic_param(self, param);
}
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fn visit_trait_item(&mut self, ti: &'hir TraitItem<'hir>) {
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debug_assert_eq!(
ti.hir_id.owner,
self.definitions.opt_hir_id_to_local_def_id(ti.hir_id).unwrap()
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);
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self.with_dep_node_owner(ti.hir_id.owner, ti, |this, hash| {
this.insert_with_hash(ti.span, ti.hir_id, Node::TraitItem(ti), hash);
this.with_parent(ti.hir_id, |this| {
intravisit::walk_trait_item(this, ti);
});
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});
}
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fn visit_impl_item(&mut self, ii: &'hir ImplItem<'hir>) {
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debug_assert_eq!(
ii.hir_id.owner,
self.definitions.opt_hir_id_to_local_def_id(ii.hir_id).unwrap()
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);
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self.with_dep_node_owner(ii.hir_id.owner, ii, |this, hash| {
this.insert_with_hash(ii.span, ii.hir_id, Node::ImplItem(ii), hash);
this.with_parent(ii.hir_id, |this| {
intravisit::walk_impl_item(this, ii);
});
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});
}
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fn visit_pat(&mut self, pat: &'hir Pat<'hir>) {
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let node =
if let PatKind::Binding(..) = pat.kind { Node::Binding(pat) } else { Node::Pat(pat) };
self.insert(pat.span, pat.hir_id, node);
self.with_parent(pat.hir_id, |this| {
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intravisit::walk_pat(this, pat);
});
}
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fn visit_arm(&mut self, arm: &'hir Arm<'hir>) {
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let node = Node::Arm(arm);
self.insert(arm.span, arm.hir_id, node);
self.with_parent(arm.hir_id, |this| {
intravisit::walk_arm(this, arm);
});
}
fn visit_anon_const(&mut self, constant: &'hir AnonConst) {
self.insert(DUMMY_SP, constant.hir_id, Node::AnonConst(constant));
self.with_parent(constant.hir_id, |this| {
intravisit::walk_anon_const(this, constant);
});
}
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fn visit_expr(&mut self, expr: &'hir Expr<'hir>) {
self.insert(expr.span, expr.hir_id, Node::Expr(expr));
self.with_parent(expr.hir_id, |this| {
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intravisit::walk_expr(this, expr);
});
}
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fn visit_stmt(&mut self, stmt: &'hir Stmt<'hir>) {
self.insert(stmt.span, stmt.hir_id, Node::Stmt(stmt));
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self.with_parent(stmt.hir_id, |this| {
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intravisit::walk_stmt(this, stmt);
});
}
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fn visit_path_segment(&mut self, path_span: Span, path_segment: &'hir PathSegment<'hir>) {
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if let Some(hir_id) = path_segment.hir_id {
self.insert(path_span, hir_id, Node::PathSegment(path_segment));
}
intravisit::walk_path_segment(self, path_span, path_segment);
}
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fn visit_ty(&mut self, ty: &'hir Ty<'hir>) {
self.insert(ty.span, ty.hir_id, Node::Ty(ty));
self.with_parent(ty.hir_id, |this| {
intravisit::walk_ty(this, ty);
});
}
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fn visit_trait_ref(&mut self, tr: &'hir TraitRef<'hir>) {
self.insert(tr.path.span, tr.hir_ref_id, Node::TraitRef(tr));
self.with_parent(tr.hir_ref_id, |this| {
intravisit::walk_trait_ref(this, tr);
});
}
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fn visit_fn(
&mut self,
fk: intravisit::FnKind<'hir>,
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fd: &'hir FnDecl<'hir>,
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b: BodyId,
s: Span,
id: HirId,
) {
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assert_eq!(self.parent_node, id);
intravisit::walk_fn(self, fk, fd, b, s, id);
}
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fn visit_block(&mut self, block: &'hir Block<'hir>) {
self.insert(block.span, block.hir_id, Node::Block(block));
self.with_parent(block.hir_id, |this| {
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intravisit::walk_block(this, block);
});
}
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fn visit_local(&mut self, l: &'hir Local<'hir>) {
self.insert(l.span, l.hir_id, Node::Local(l));
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self.with_parent(l.hir_id, |this| intravisit::walk_local(this, l))
}
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fn visit_lifetime(&mut self, lifetime: &'hir Lifetime) {
self.insert(lifetime.span, lifetime.hir_id, Node::Lifetime(lifetime));
}
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fn visit_vis(&mut self, visibility: &'hir Visibility<'hir>) {
match visibility.node {
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VisibilityKind::Public | VisibilityKind::Crate(_) | VisibilityKind::Inherited => {}
VisibilityKind::Restricted { hir_id, .. } => {
self.insert(visibility.span, hir_id, Node::Visibility(visibility));
self.with_parent(hir_id, |this| {
intravisit::walk_vis(this, visibility);
});
}
}
}
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fn visit_macro_def(&mut self, macro_def: &'hir MacroDef<'hir>) {
self.with_dep_node_owner(macro_def.hir_id.owner, macro_def, |this, hash| {
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this.insert_with_hash(
macro_def.span,
macro_def.hir_id,
Node::MacroDef(macro_def),
hash,
);
});
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}
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fn visit_variant(&mut self, v: &'hir Variant<'hir>, g: &'hir Generics<'hir>, item_id: HirId) {
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self.insert(v.span, v.id, Node::Variant(v));
self.with_parent(v.id, |this| {
// Register the constructor of this variant.
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if let Some(ctor_hir_id) = v.data.ctor_hir_id() {
this.insert(v.span, ctor_hir_id, Node::Ctor(&v.data));
}
intravisit::walk_variant(this, v, g, item_id);
});
}
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fn visit_struct_field(&mut self, field: &'hir StructField<'hir>) {
self.insert(field.span, field.hir_id, Node::Field(field));
self.with_parent(field.hir_id, |this| {
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intravisit::walk_struct_field(this, field);
});
}
fn visit_trait_item_ref(&mut self, ii: &'hir TraitItemRef) {
// Do not visit the duplicate information in TraitItemRef. We want to
// map the actual nodes, not the duplicate ones in the *Ref.
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let TraitItemRef { id, ident: _, kind: _, span: _, defaultness: _ } = *ii;
self.visit_nested_trait_item(id);
}
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fn visit_impl_item_ref(&mut self, ii: &'hir ImplItemRef<'hir>) {
// Do not visit the duplicate information in ImplItemRef. We want to
// map the actual nodes, not the duplicate ones in the *Ref.
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let ImplItemRef { id, ident: _, kind: _, span: _, vis: _, defaultness: _ } = *ii;
self.visit_nested_impl_item(id);
}
}
struct HirItemLike<T> {
item_like: T,
}
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impl<'hir, T> HashStable<StableHashingContext<'hir>> for HirItemLike<T>
where
T: HashStable<StableHashingContext<'hir>>,
{
fn hash_stable(&self, hcx: &mut StableHashingContext<'hir>, hasher: &mut StableHasher) {
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hcx.while_hashing_hir_bodies(true, |hcx| {
self.item_like.hash_stable(hcx, hasher);
});
}
}