use super::Pass; use crate::clean::*; use crate::core::DocContext; use crate::fold::DocFolder; use rustc_data_structures::fx::FxHashSet; use rustc_middle::ty::DefIdTree; use rustc_span::symbol::sym; crate const COLLECT_TRAIT_IMPLS: Pass = Pass { name: "collect-trait-impls", run: collect_trait_impls, description: "retrieves trait impls for items in the crate", }; crate fn collect_trait_impls(krate: Crate, cx: &mut DocContext<'_>) -> Crate { let (mut krate, synth_impls) = cx.sess().time("collect_synthetic_impls", || { let mut synth = SyntheticImplCollector { cx, impls: Vec::new() }; (synth.fold_crate(krate), synth.impls) }); let prims: FxHashSet = krate.primitives.iter().map(|p| p.1).collect(); let crate_items = { let mut coll = ItemCollector::new(); krate = cx.sess().time("collect_items_for_trait_impls", || coll.fold_crate(krate)); coll.items }; let mut new_items = Vec::new(); for &cnum in cx.tcx.crates(()).iter() { for &(did, _) in cx.tcx.all_trait_implementations(cnum).iter() { cx.tcx.sess.prof.generic_activity("build_extern_trait_impl").run(|| { inline::build_impl(cx, None, did, None, &mut new_items); }); } } // Also try to inline primitive impls from other crates. for &def_id in PrimitiveType::all_impls(cx.tcx).values().flatten() { if !def_id.is_local() { cx.tcx.sess.prof.generic_activity("build_primitive_trait_impls").run(|| { inline::build_impl(cx, None, def_id, None, &mut new_items); // FIXME(eddyb) is this `doc(hidden)` check needed? if !cx.tcx.get_attrs(def_id).lists(sym::doc).has_word(sym::hidden) { let impls = get_auto_trait_and_blanket_impls(cx, def_id); new_items.extend(impls.filter(|i| cx.inlined.insert(i.def_id))); } }); } } let mut cleaner = BadImplStripper { prims, items: crate_items }; // scan through included items ahead of time to splice in Deref targets to the "valid" sets for it in &new_items { if let ImplItem(Impl { ref for_, ref trait_, ref items, .. }) = *it.kind { if cleaner.keep_impl(for_) && trait_.as_ref().map(|t| t.def_id()) == cx.tcx.lang_items().deref_trait() { let target = items .iter() .find_map(|item| match *item.kind { TypedefItem(ref t, true) => Some(&t.type_), _ => None, }) .expect("Deref impl without Target type"); if let Some(prim) = target.primitive_type() { cleaner.prims.insert(prim); } else if let Some(did) = target.def_id() { cleaner.items.insert(did.into()); } } } } new_items.retain(|it| { if let ImplItem(Impl { ref for_, ref trait_, ref blanket_impl, .. }) = *it.kind { cleaner.keep_impl(for_) || trait_ .as_ref() .map_or(false, |t| cleaner.keep_impl_with_def_id(t.def_id().into())) || blanket_impl.is_some() } else { true } }); // `tcx.crates(())` doesn't include the local crate, and `tcx.all_trait_implementations` // doesn't work with it anyway, so pull them from the HIR map instead let mut extra_attrs = Vec::new(); for &trait_did in cx.tcx.all_traits(()).iter() { for &impl_did in cx.tcx.hir().trait_impls(trait_did) { let impl_did = impl_did.to_def_id(); cx.tcx.sess.prof.generic_activity("build_local_trait_impl").run(|| { let mut parent = cx.tcx.parent(impl_did); while let Some(did) = parent { extra_attrs.extend( cx.tcx .get_attrs(did) .iter() .filter(|attr| attr.has_name(sym::doc)) .filter(|attr| { if let Some([attr]) = attr.meta_item_list().as_deref() { attr.has_name(sym::cfg) } else { false } }) .cloned(), ); parent = cx.tcx.parent(did); } inline::build_impl(cx, None, impl_did, Some(&extra_attrs), &mut new_items); extra_attrs.clear(); }); } } let items = if let ModuleItem(Module { ref mut items, .. }) = *krate.module.kind { items } else { panic!("collect-trait-impls can't run"); }; items.extend(synth_impls); items.extend(new_items); krate } struct SyntheticImplCollector<'a, 'tcx> { cx: &'a mut DocContext<'tcx>, impls: Vec, } impl<'a, 'tcx> DocFolder for SyntheticImplCollector<'a, 'tcx> { fn fold_item(&mut self, i: Item) -> Option { if i.is_struct() || i.is_enum() || i.is_union() { // FIXME(eddyb) is this `doc(hidden)` check needed? if !self .cx .tcx .get_attrs(i.def_id.expect_def_id()) .lists(sym::doc) .has_word(sym::hidden) { self.impls .extend(get_auto_trait_and_blanket_impls(self.cx, i.def_id.expect_def_id())); } } Some(self.fold_item_recur(i)) } } #[derive(Default)] struct ItemCollector { items: FxHashSet, } impl ItemCollector { fn new() -> Self { Self::default() } } impl DocFolder for ItemCollector { fn fold_item(&mut self, i: Item) -> Option { self.items.insert(i.def_id); Some(self.fold_item_recur(i)) } } struct BadImplStripper { prims: FxHashSet, items: FxHashSet, } impl BadImplStripper { fn keep_impl(&self, ty: &Type) -> bool { if let Generic(_) = ty { // keep impls made on generics true } else if let Some(prim) = ty.primitive_type() { self.prims.contains(&prim) } else if let Some(did) = ty.def_id() { self.keep_impl_with_def_id(did.into()) } else { false } } fn keep_impl_with_def_id(&self, did: ItemId) -> bool { self.items.contains(&did) } }