1 //! Collects trait impls for each item in the crate. For example, if a crate
2 //! defines a struct that implements a trait, this pass will note that the
3 //! struct implements that trait.
6 use crate::core::DocContext;
7 use crate::formats::cache::Cache;
8 use crate::visit::DocVisitor;
10 use rustc_data_structures::fx::{FxHashMap, FxHashSet};
11 use rustc_hir::def_id::DefId;
12 use rustc_middle::ty::DefIdTree;
13 use rustc_span::symbol::sym;
15 crate const COLLECT_TRAIT_IMPLS: Pass = Pass {
16 name: "collect-trait-impls",
17 run: collect_trait_impls,
18 description: "retrieves trait impls for items in the crate",
21 crate fn collect_trait_impls(mut krate: Crate, cx: &mut DocContext<'_>) -> Crate {
22 let synth_impls = cx.sess().time("collect_synthetic_impls", || {
23 let mut synth = SyntheticImplCollector { cx, impls: Vec::new() };
24 synth.visit_crate(&krate);
28 let prims: FxHashSet<PrimitiveType> = krate.primitives.iter().map(|p| p.1).collect();
31 let mut coll = ItemCollector::new();
32 cx.sess().time("collect_items_for_trait_impls", || coll.visit_crate(&krate));
36 let mut new_items_external = Vec::new();
37 let mut new_items_local = Vec::new();
39 // External trait impls.
40 cx.with_all_trait_impls(|cx, all_trait_impls| {
41 let _prof_timer = cx.tcx.sess.prof.generic_activity("build_extern_trait_impls");
42 for &impl_def_id in all_trait_impls.iter().skip_while(|def_id| def_id.is_local()) {
43 inline::build_impl(cx, None, impl_def_id, None, &mut new_items_external);
48 cx.with_all_trait_impls(|cx, all_trait_impls| {
49 let _prof_timer = cx.tcx.sess.prof.generic_activity("build_local_trait_impls");
50 let mut attr_buf = Vec::new();
51 for &impl_def_id in all_trait_impls.iter().take_while(|def_id| def_id.is_local()) {
52 let mut parent = cx.tcx.parent(impl_def_id);
53 while let Some(did) = parent {
58 .filter(|attr| attr.has_name(sym::doc))
60 if let Some([attr]) = attr.meta_item_list().as_deref() {
61 attr.has_name(sym::cfg)
68 parent = cx.tcx.parent(did);
70 inline::build_impl(cx, None, impl_def_id, Some(&attr_buf), &mut new_items_local);
75 cx.tcx.sess.prof.generic_activity("build_primitive_trait_impls").run(|| {
76 for def_id in PrimitiveType::all_impls(cx.tcx) {
77 // Try to inline primitive impls from other crates.
78 if !def_id.is_local() {
79 inline::build_impl(cx, None, def_id, None, &mut new_items_external);
82 for (prim, did) in PrimitiveType::primitive_locations(cx.tcx) {
83 // Do not calculate blanket impl list for docs that are not going to be rendered.
84 // While the `impl` blocks themselves are only in `libcore`, the module with `doc`
85 // attached is directly included in `libstd` as well.
87 for def_id in prim.impls(cx.tcx) {
88 let impls = get_auto_trait_and_blanket_impls(cx, def_id);
89 new_items_external.extend(impls.filter(|i| cx.inlined.insert(i.item_id)));
95 let mut cleaner = BadImplStripper { prims, items: crate_items, cache: &cx.cache };
96 let mut type_did_to_deref_target: FxHashMap<DefId, &Type> = FxHashMap::default();
98 // Follow all `Deref` targets of included items and recursively add them as valid
101 map: &FxHashMap<DefId, &Type>,
102 cleaner: &mut BadImplStripper<'_>,
103 targets: &mut FxHashSet<DefId>,
106 if let Some(target) = map.get(&type_did) {
107 debug!("add_deref_target: type {:?}, target {:?}", type_did, target);
108 if let Some(target_prim) = target.primitive_type() {
109 cleaner.prims.insert(target_prim);
110 } else if let Some(target_did) = target.def_id(&cx.cache) {
111 // `impl Deref<Target = S> for S`
112 if !targets.insert(target_did) {
113 // Avoid infinite cycles
116 cleaner.items.insert(target_did.into());
117 add_deref_target(cx, map, cleaner, targets, target_did);
122 // scan through included items ahead of time to splice in Deref targets to the "valid" sets
123 for it in new_items_external.iter().chain(new_items_local.iter()) {
124 if let ImplItem(Impl { ref for_, ref trait_, ref items, .. }) = *it.kind {
125 if trait_.as_ref().map(|t| t.def_id()) == cx.tcx.lang_items().deref_trait()
126 && cleaner.keep_impl(for_, true)
130 .find_map(|item| match *item.kind {
131 AssocTypeItem(ref t, _) => Some(&t.type_),
134 .expect("Deref impl without Target type");
136 if let Some(prim) = target.primitive_type() {
137 cleaner.prims.insert(prim);
138 } else if let Some(did) = target.def_id(&cx.cache) {
139 cleaner.items.insert(did.into());
141 if let Some(for_did) = for_.def_id(&cx.cache) {
142 if type_did_to_deref_target.insert(for_did, target).is_none() {
143 // Since only the `DefId` portion of the `Type` instances is known to be same for both the
144 // `Deref` target type and the impl for type positions, this map of types is keyed by
145 // `DefId` and for convenience uses a special cleaner that accepts `DefId`s directly.
146 if cleaner.keep_impl_with_def_id(for_did.into()) {
147 let mut targets = FxHashSet::default();
148 targets.insert(for_did);
151 &type_did_to_deref_target,
163 // Filter out external items that are not needed
164 new_items_external.retain(|it| {
165 if let ImplItem(Impl { ref for_, ref trait_, ref kind, .. }) = *it.kind {
168 trait_.as_ref().map(|t| t.def_id()) == cx.tcx.lang_items().deref_trait(),
169 ) || trait_.as_ref().map_or(false, |t| cleaner.keep_impl_with_def_id(t.def_id().into()))
176 if let ModuleItem(Module { items, .. }) = &mut *krate.module.kind {
177 items.extend(synth_impls);
178 items.extend(new_items_external);
179 items.extend(new_items_local);
181 panic!("collect-trait-impls can't run");
187 struct SyntheticImplCollector<'a, 'tcx> {
188 cx: &'a mut DocContext<'tcx>,
192 impl<'a, 'tcx> DocVisitor for SyntheticImplCollector<'a, 'tcx> {
193 fn visit_item(&mut self, i: &Item) {
194 if i.is_struct() || i.is_enum() || i.is_union() {
195 // FIXME(eddyb) is this `doc(hidden)` check needed?
196 if !self.cx.tcx.is_doc_hidden(i.item_id.expect_def_id()) {
198 .extend(get_auto_trait_and_blanket_impls(self.cx, i.item_id.expect_def_id()));
202 self.visit_item_recur(i)
207 struct ItemCollector {
208 items: FxHashSet<ItemId>,
217 impl DocVisitor for ItemCollector {
218 fn visit_item(&mut self, i: &Item) {
219 self.items.insert(i.item_id);
221 self.visit_item_recur(i)
225 struct BadImplStripper<'a> {
226 prims: FxHashSet<PrimitiveType>,
227 items: FxHashSet<ItemId>,
231 impl<'a> BadImplStripper<'a> {
232 fn keep_impl(&self, ty: &Type, is_deref: bool) -> bool {
233 if let Generic(_) = ty {
234 // keep impls made on generics
236 } else if let Some(prim) = ty.primitive_type() {
237 self.prims.contains(&prim)
238 } else if let Some(did) = ty.def_id(self.cache) {
239 is_deref || self.keep_impl_with_def_id(did.into())
245 fn keep_impl_with_def_id(&self, item_id: ItemId) -> bool {
246 self.items.contains(&item_id)