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authorDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-17 12:02:58 +0000
committerDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-17 12:02:58 +0000
commit698f8c2f01ea549d77d7dc3338a12e04c11057b9 (patch)
tree173a775858bd501c378080a10dca74132f05bc50 /src/librustdoc/formats
parentInitial commit. (diff)
downloadrustc-698f8c2f01ea549d77d7dc3338a12e04c11057b9.tar.xz
rustc-698f8c2f01ea549d77d7dc3338a12e04c11057b9.zip
Adding upstream version 1.64.0+dfsg1.upstream/1.64.0+dfsg1
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'src/librustdoc/formats')
-rw-r--r--src/librustdoc/formats/cache.rs569
-rw-r--r--src/librustdoc/formats/item_type.rs185
-rw-r--r--src/librustdoc/formats/mod.rs101
-rw-r--r--src/librustdoc/formats/renderer.rs97
4 files changed, 952 insertions, 0 deletions
diff --git a/src/librustdoc/formats/cache.rs b/src/librustdoc/formats/cache.rs
new file mode 100644
index 000000000..2b2691e53
--- /dev/null
+++ b/src/librustdoc/formats/cache.rs
@@ -0,0 +1,569 @@
+use std::mem;
+
+use rustc_data_structures::fx::{FxHashMap, FxHashSet};
+use rustc_hir::def_id::{CrateNum, DefId};
+use rustc_middle::middle::privacy::AccessLevels;
+use rustc_middle::ty::{self, TyCtxt};
+use rustc_span::{sym, Symbol};
+
+use crate::clean::{self, types::ExternalLocation, ExternalCrate, ItemId, PrimitiveType};
+use crate::core::DocContext;
+use crate::fold::DocFolder;
+use crate::formats::item_type::ItemType;
+use crate::formats::Impl;
+use crate::html::format::join_with_double_colon;
+use crate::html::markdown::short_markdown_summary;
+use crate::html::render::search_index::get_function_type_for_search;
+use crate::html::render::IndexItem;
+
+/// This cache is used to store information about the [`clean::Crate`] being
+/// rendered in order to provide more useful documentation. This contains
+/// information like all implementors of a trait, all traits a type implements,
+/// documentation for all known traits, etc.
+///
+/// This structure purposefully does not implement `Clone` because it's intended
+/// to be a fairly large and expensive structure to clone. Instead this adheres
+/// to `Send` so it may be stored in an `Arc` instance and shared among the various
+/// rendering threads.
+#[derive(Default)]
+pub(crate) struct Cache {
+ /// Maps a type ID to all known implementations for that type. This is only
+ /// recognized for intra-crate [`clean::Type::Path`]s, and is used to print
+ /// out extra documentation on the page of an enum/struct.
+ ///
+ /// The values of the map are a list of implementations and documentation
+ /// found on that implementation.
+ pub(crate) impls: FxHashMap<DefId, Vec<Impl>>,
+
+ /// Maintains a mapping of local crate `DefId`s to the fully qualified name
+ /// and "short type description" of that node. This is used when generating
+ /// URLs when a type is being linked to. External paths are not located in
+ /// this map because the `External` type itself has all the information
+ /// necessary.
+ pub(crate) paths: FxHashMap<DefId, (Vec<Symbol>, ItemType)>,
+
+ /// Similar to `paths`, but only holds external paths. This is only used for
+ /// generating explicit hyperlinks to other crates.
+ pub(crate) external_paths: FxHashMap<DefId, (Vec<Symbol>, ItemType)>,
+
+ /// Maps local `DefId`s of exported types to fully qualified paths.
+ /// Unlike 'paths', this mapping ignores any renames that occur
+ /// due to 'use' statements.
+ ///
+ /// This map is used when writing out the special 'implementors'
+ /// javascript file. By using the exact path that the type
+ /// is declared with, we ensure that each path will be identical
+ /// to the path used if the corresponding type is inlined. By
+ /// doing this, we can detect duplicate impls on a trait page, and only display
+ /// the impl for the inlined type.
+ pub(crate) exact_paths: FxHashMap<DefId, Vec<Symbol>>,
+
+ /// This map contains information about all known traits of this crate.
+ /// Implementations of a crate should inherit the documentation of the
+ /// parent trait if no extra documentation is specified, and default methods
+ /// should show up in documentation about trait implementations.
+ pub(crate) traits: FxHashMap<DefId, clean::TraitWithExtraInfo>,
+
+ /// When rendering traits, it's often useful to be able to list all
+ /// implementors of the trait, and this mapping is exactly, that: a mapping
+ /// of trait ids to the list of known implementors of the trait
+ pub(crate) implementors: FxHashMap<DefId, Vec<Impl>>,
+
+ /// Cache of where external crate documentation can be found.
+ pub(crate) extern_locations: FxHashMap<CrateNum, ExternalLocation>,
+
+ /// Cache of where documentation for primitives can be found.
+ pub(crate) primitive_locations: FxHashMap<clean::PrimitiveType, DefId>,
+
+ // Note that external items for which `doc(hidden)` applies to are shown as
+ // non-reachable while local items aren't. This is because we're reusing
+ // the access levels from the privacy check pass.
+ pub(crate) access_levels: AccessLevels<DefId>,
+
+ /// The version of the crate being documented, if given from the `--crate-version` flag.
+ pub(crate) crate_version: Option<String>,
+
+ /// Whether to document private items.
+ /// This is stored in `Cache` so it doesn't need to be passed through all rustdoc functions.
+ pub(crate) document_private: bool,
+
+ /// Crates marked with [`#[doc(masked)]`][doc_masked].
+ ///
+ /// [doc_masked]: https://doc.rust-lang.org/nightly/unstable-book/language-features/doc-masked.html
+ pub(crate) masked_crates: FxHashSet<CrateNum>,
+
+ // Private fields only used when initially crawling a crate to build a cache
+ stack: Vec<Symbol>,
+ parent_stack: Vec<ParentStackItem>,
+ stripped_mod: bool,
+
+ pub(crate) search_index: Vec<IndexItem>,
+
+ // In rare case where a structure is defined in one module but implemented
+ // in another, if the implementing module is parsed before defining module,
+ // then the fully qualified name of the structure isn't presented in `paths`
+ // yet when its implementation methods are being indexed. Caches such methods
+ // and their parent id here and indexes them at the end of crate parsing.
+ pub(crate) orphan_impl_items: Vec<OrphanImplItem>,
+
+ // Similarly to `orphan_impl_items`, sometimes trait impls are picked up
+ // even though the trait itself is not exported. This can happen if a trait
+ // was defined in function/expression scope, since the impl will be picked
+ // up by `collect-trait-impls` but the trait won't be scraped out in the HIR
+ // crawl. In order to prevent crashes when looking for notable traits or
+ // when gathering trait documentation on a type, hold impls here while
+ // folding and add them to the cache later on if we find the trait.
+ orphan_trait_impls: Vec<(DefId, FxHashSet<DefId>, Impl)>,
+
+ /// All intra-doc links resolved so far.
+ ///
+ /// Links are indexed by the DefId of the item they document.
+ pub(crate) intra_doc_links: FxHashMap<ItemId, Vec<clean::ItemLink>>,
+ /// Cfg that have been hidden via #![doc(cfg_hide(...))]
+ pub(crate) hidden_cfg: FxHashSet<clean::cfg::Cfg>,
+}
+
+/// This struct is used to wrap the `cache` and `tcx` in order to run `DocFolder`.
+struct CacheBuilder<'a, 'tcx> {
+ cache: &'a mut Cache,
+ /// This field is used to prevent duplicated impl blocks.
+ impl_ids: FxHashMap<DefId, FxHashSet<DefId>>,
+ tcx: TyCtxt<'tcx>,
+}
+
+impl Cache {
+ pub(crate) fn new(access_levels: AccessLevels<DefId>, document_private: bool) -> Self {
+ Cache { access_levels, document_private, ..Cache::default() }
+ }
+
+ /// Populates the `Cache` with more data. The returned `Crate` will be missing some data that was
+ /// in `krate` due to the data being moved into the `Cache`.
+ pub(crate) fn populate(cx: &mut DocContext<'_>, mut krate: clean::Crate) -> clean::Crate {
+ let tcx = cx.tcx;
+
+ // Crawl the crate to build various caches used for the output
+ debug!(?cx.cache.crate_version);
+ cx.cache.traits = krate.external_traits.take();
+
+ // Cache where all our extern crates are located
+ // FIXME: this part is specific to HTML so it'd be nice to remove it from the common code
+ for &crate_num in cx.tcx.crates(()) {
+ let e = ExternalCrate { crate_num };
+
+ let name = e.name(tcx);
+ let render_options = &cx.render_options;
+ let extern_url = render_options.extern_html_root_urls.get(name.as_str()).map(|u| &**u);
+ let extern_url_takes_precedence = render_options.extern_html_root_takes_precedence;
+ let dst = &render_options.output;
+ let location = e.location(extern_url, extern_url_takes_precedence, dst, tcx);
+ cx.cache.extern_locations.insert(e.crate_num, location);
+ cx.cache.external_paths.insert(e.def_id(), (vec![name], ItemType::Module));
+ }
+
+ // FIXME: avoid this clone (requires implementing Default manually)
+ cx.cache.primitive_locations = PrimitiveType::primitive_locations(tcx).clone();
+ for (prim, &def_id) in &cx.cache.primitive_locations {
+ let crate_name = tcx.crate_name(def_id.krate);
+ // Recall that we only allow primitive modules to be at the root-level of the crate.
+ // If that restriction is ever lifted, this will have to include the relative paths instead.
+ cx.cache
+ .external_paths
+ .insert(def_id, (vec![crate_name, prim.as_sym()], ItemType::Primitive));
+ }
+
+ let (krate, mut impl_ids) = {
+ let mut cache_builder =
+ CacheBuilder { tcx, cache: &mut cx.cache, impl_ids: FxHashMap::default() };
+ krate = cache_builder.fold_crate(krate);
+ (krate, cache_builder.impl_ids)
+ };
+
+ for (trait_did, dids, impl_) in cx.cache.orphan_trait_impls.drain(..) {
+ if cx.cache.traits.contains_key(&trait_did) {
+ for did in dids {
+ if impl_ids.entry(did).or_default().insert(impl_.def_id()) {
+ cx.cache.impls.entry(did).or_default().push(impl_.clone());
+ }
+ }
+ }
+ }
+
+ krate
+ }
+}
+
+impl<'a, 'tcx> DocFolder for CacheBuilder<'a, 'tcx> {
+ fn fold_item(&mut self, item: clean::Item) -> Option<clean::Item> {
+ if item.item_id.is_local() {
+ debug!("folding {} \"{:?}\", id {:?}", item.type_(), item.name, item.item_id);
+ }
+
+ // If this is a stripped module,
+ // we don't want it or its children in the search index.
+ let orig_stripped_mod = match *item.kind {
+ clean::StrippedItem(box clean::ModuleItem(..)) => {
+ mem::replace(&mut self.cache.stripped_mod, true)
+ }
+ _ => self.cache.stripped_mod,
+ };
+
+ // If the impl is from a masked crate or references something from a
+ // masked crate then remove it completely.
+ if let clean::ImplItem(ref i) = *item.kind {
+ if self.cache.masked_crates.contains(&item.item_id.krate())
+ || i.trait_
+ .as_ref()
+ .map_or(false, |t| self.cache.masked_crates.contains(&t.def_id().krate))
+ || i.for_
+ .def_id(self.cache)
+ .map_or(false, |d| self.cache.masked_crates.contains(&d.krate))
+ {
+ return None;
+ }
+ }
+
+ // Propagate a trait method's documentation to all implementors of the
+ // trait.
+ if let clean::TraitItem(ref t) = *item.kind {
+ self.cache.traits.entry(item.item_id.expect_def_id()).or_insert_with(|| {
+ clean::TraitWithExtraInfo {
+ trait_: t.clone(),
+ is_notable: item.attrs.has_doc_flag(sym::notable_trait),
+ }
+ });
+ }
+
+ // Collect all the implementors of traits.
+ if let clean::ImplItem(ref i) = *item.kind {
+ if let Some(trait_) = &i.trait_ {
+ if !i.kind.is_blanket() {
+ self.cache
+ .implementors
+ .entry(trait_.def_id())
+ .or_default()
+ .push(Impl { impl_item: item.clone() });
+ }
+ }
+ }
+
+ // Index this method for searching later on.
+ if let Some(ref s) = item.name.or_else(|| {
+ if item.is_stripped() {
+ None
+ } else if let clean::ImportItem(ref i) = *item.kind &&
+ let clean::ImportKind::Simple(s) = i.kind {
+ Some(s)
+ } else {
+ None
+ }
+ }) {
+ let (parent, is_inherent_impl_item) = match *item.kind {
+ clean::StrippedItem(..) => ((None, None), false),
+ clean::AssocConstItem(..) | clean::AssocTypeItem(..)
+ if self
+ .cache
+ .parent_stack
+ .last()
+ .map_or(false, |parent| parent.is_trait_impl()) =>
+ {
+ // skip associated items in trait impls
+ ((None, None), false)
+ }
+ clean::TyMethodItem(..)
+ | clean::TyAssocConstItem(..)
+ | clean::TyAssocTypeItem(..)
+ | clean::StructFieldItem(..)
+ | clean::VariantItem(..) => (
+ (
+ Some(
+ self.cache
+ .parent_stack
+ .last()
+ .expect("parent_stack is empty")
+ .item_id()
+ .expect_def_id(),
+ ),
+ Some(&self.cache.stack[..self.cache.stack.len() - 1]),
+ ),
+ false,
+ ),
+ clean::MethodItem(..) | clean::AssocConstItem(..) | clean::AssocTypeItem(..) => {
+ if self.cache.parent_stack.is_empty() {
+ ((None, None), false)
+ } else {
+ let last = self.cache.parent_stack.last().expect("parent_stack is empty 2");
+ let did = match &*last {
+ ParentStackItem::Impl { for_, .. } => for_.def_id(&self.cache),
+ ParentStackItem::Type(item_id) => item_id.as_def_id(),
+ };
+ let path = match did.and_then(|did| self.cache.paths.get(&did)) {
+ // The current stack not necessarily has correlation
+ // for where the type was defined. On the other
+ // hand, `paths` always has the right
+ // information if present.
+ Some(&(ref fqp, _)) => Some(&fqp[..fqp.len() - 1]),
+ None => None,
+ };
+ ((did, path), true)
+ }
+ }
+ _ => ((None, Some(&*self.cache.stack)), false),
+ };
+
+ match parent {
+ (parent, Some(path)) if is_inherent_impl_item || !self.cache.stripped_mod => {
+ debug_assert!(!item.is_stripped());
+
+ // A crate has a module at its root, containing all items,
+ // which should not be indexed. The crate-item itself is
+ // inserted later on when serializing the search-index.
+ if item.item_id.as_def_id().map_or(false, |idx| !idx.is_crate_root()) {
+ let desc = item.doc_value().map_or_else(String::new, |x| {
+ short_markdown_summary(x.as_str(), &item.link_names(self.cache))
+ });
+ self.cache.search_index.push(IndexItem {
+ ty: item.type_(),
+ name: s.to_string(),
+ path: join_with_double_colon(path),
+ desc,
+ parent,
+ parent_idx: None,
+ search_type: get_function_type_for_search(
+ &item,
+ self.tcx,
+ clean_impl_generics(self.cache.parent_stack.last()).as_ref(),
+ self.cache,
+ ),
+ aliases: item.attrs.get_doc_aliases(),
+ });
+ }
+ }
+ (Some(parent), None) if is_inherent_impl_item => {
+ // We have a parent, but we don't know where they're
+ // defined yet. Wait for later to index this item.
+ let impl_generics = clean_impl_generics(self.cache.parent_stack.last());
+ self.cache.orphan_impl_items.push(OrphanImplItem {
+ parent,
+ item: item.clone(),
+ impl_generics,
+ });
+ }
+ _ => {}
+ }
+ }
+
+ // Keep track of the fully qualified path for this item.
+ let pushed = match item.name {
+ Some(n) if !n.is_empty() => {
+ self.cache.stack.push(n);
+ true
+ }
+ _ => false,
+ };
+
+ match *item.kind {
+ clean::StructItem(..)
+ | clean::EnumItem(..)
+ | clean::TypedefItem(..)
+ | clean::TraitItem(..)
+ | clean::TraitAliasItem(..)
+ | clean::FunctionItem(..)
+ | clean::ModuleItem(..)
+ | clean::ForeignFunctionItem(..)
+ | clean::ForeignStaticItem(..)
+ | clean::ConstantItem(..)
+ | clean::StaticItem(..)
+ | clean::UnionItem(..)
+ | clean::ForeignTypeItem
+ | clean::MacroItem(..)
+ | clean::ProcMacroItem(..)
+ | clean::VariantItem(..) => {
+ if !self.cache.stripped_mod {
+ // Re-exported items mean that the same id can show up twice
+ // in the rustdoc ast that we're looking at. We know,
+ // however, that a re-exported item doesn't show up in the
+ // `public_items` map, so we can skip inserting into the
+ // paths map if there was already an entry present and we're
+ // not a public item.
+ if !self.cache.paths.contains_key(&item.item_id.expect_def_id())
+ || self.cache.access_levels.is_public(item.item_id.expect_def_id())
+ {
+ self.cache.paths.insert(
+ item.item_id.expect_def_id(),
+ (self.cache.stack.clone(), item.type_()),
+ );
+ }
+ }
+ }
+ clean::PrimitiveItem(..) => {
+ self.cache
+ .paths
+ .insert(item.item_id.expect_def_id(), (self.cache.stack.clone(), item.type_()));
+ }
+
+ clean::ExternCrateItem { .. }
+ | clean::ImportItem(..)
+ | clean::OpaqueTyItem(..)
+ | clean::ImplItem(..)
+ | clean::TyMethodItem(..)
+ | clean::MethodItem(..)
+ | clean::StructFieldItem(..)
+ | clean::TyAssocConstItem(..)
+ | clean::AssocConstItem(..)
+ | clean::TyAssocTypeItem(..)
+ | clean::AssocTypeItem(..)
+ | clean::StrippedItem(..)
+ | clean::KeywordItem => {
+ // FIXME: Do these need handling?
+ // The person writing this comment doesn't know.
+ // So would rather leave them to an expert,
+ // as at least the list is better than `_ => {}`.
+ }
+ }
+
+ // Maintain the parent stack.
+ let (item, parent_pushed) = match *item.kind {
+ clean::TraitItem(..)
+ | clean::EnumItem(..)
+ | clean::ForeignTypeItem
+ | clean::StructItem(..)
+ | clean::UnionItem(..)
+ | clean::VariantItem(..)
+ | clean::ImplItem(..) => {
+ self.cache.parent_stack.push(ParentStackItem::new(&item));
+ (self.fold_item_recur(item), true)
+ }
+ _ => (self.fold_item_recur(item), false),
+ };
+
+ // Once we've recursively found all the generics, hoard off all the
+ // implementations elsewhere.
+ let ret = if let clean::Item { kind: box clean::ImplItem(ref i), .. } = item {
+ // Figure out the id of this impl. This may map to a
+ // primitive rather than always to a struct/enum.
+ // Note: matching twice to restrict the lifetime of the `i` borrow.
+ let mut dids = FxHashSet::default();
+ match i.for_ {
+ clean::Type::Path { ref path }
+ | clean::BorrowedRef { type_: box clean::Type::Path { ref path }, .. } => {
+ dids.insert(path.def_id());
+ if let Some(generics) = path.generics() &&
+ let ty::Adt(adt, _) = self.tcx.type_of(path.def_id()).kind() &&
+ adt.is_fundamental() {
+ for ty in generics {
+ if let Some(did) = ty.def_id(self.cache) {
+ dids.insert(did);
+ }
+ }
+ }
+ }
+ clean::DynTrait(ref bounds, _)
+ | clean::BorrowedRef { type_: box clean::DynTrait(ref bounds, _), .. } => {
+ dids.insert(bounds[0].trait_.def_id());
+ }
+ ref t => {
+ let did = t
+ .primitive_type()
+ .and_then(|t| self.cache.primitive_locations.get(&t).cloned());
+
+ if let Some(did) = did {
+ dids.insert(did);
+ }
+ }
+ }
+
+ if let Some(generics) = i.trait_.as_ref().and_then(|t| t.generics()) {
+ for bound in generics {
+ if let Some(did) = bound.def_id(self.cache) {
+ dids.insert(did);
+ }
+ }
+ }
+ let impl_item = Impl { impl_item: item };
+ if impl_item.trait_did().map_or(true, |d| self.cache.traits.contains_key(&d)) {
+ for did in dids {
+ if self.impl_ids.entry(did).or_default().insert(impl_item.def_id()) {
+ self.cache
+ .impls
+ .entry(did)
+ .or_insert_with(Vec::new)
+ .push(impl_item.clone());
+ }
+ }
+ } else {
+ let trait_did = impl_item.trait_did().expect("no trait did");
+ self.cache.orphan_trait_impls.push((trait_did, dids, impl_item));
+ }
+ None
+ } else {
+ Some(item)
+ };
+
+ if pushed {
+ self.cache.stack.pop().expect("stack already empty");
+ }
+ if parent_pushed {
+ self.cache.parent_stack.pop().expect("parent stack already empty");
+ }
+ self.cache.stripped_mod = orig_stripped_mod;
+ ret
+ }
+}
+
+pub(crate) struct OrphanImplItem {
+ pub(crate) parent: DefId,
+ pub(crate) item: clean::Item,
+ pub(crate) impl_generics: Option<(clean::Type, clean::Generics)>,
+}
+
+/// Information about trait and type parents is tracked while traversing the item tree to build
+/// the cache.
+///
+/// We don't just store `Item` in there, because `Item` contains the list of children being
+/// traversed and it would be wasteful to clone all that. We also need the item id, so just
+/// storing `ItemKind` won't work, either.
+enum ParentStackItem {
+ Impl {
+ for_: clean::Type,
+ trait_: Option<clean::Path>,
+ generics: clean::Generics,
+ kind: clean::ImplKind,
+ item_id: ItemId,
+ },
+ Type(ItemId),
+}
+
+impl ParentStackItem {
+ fn new(item: &clean::Item) -> Self {
+ match &*item.kind {
+ clean::ItemKind::ImplItem(box clean::Impl { for_, trait_, generics, kind, .. }) => {
+ ParentStackItem::Impl {
+ for_: for_.clone(),
+ trait_: trait_.clone(),
+ generics: generics.clone(),
+ kind: kind.clone(),
+ item_id: item.item_id,
+ }
+ }
+ _ => ParentStackItem::Type(item.item_id),
+ }
+ }
+ fn is_trait_impl(&self) -> bool {
+ matches!(self, ParentStackItem::Impl { trait_: Some(..), .. })
+ }
+ fn item_id(&self) -> ItemId {
+ match self {
+ ParentStackItem::Impl { item_id, .. } => *item_id,
+ ParentStackItem::Type(item_id) => *item_id,
+ }
+ }
+}
+
+fn clean_impl_generics(item: Option<&ParentStackItem>) -> Option<(clean::Type, clean::Generics)> {
+ if let Some(ParentStackItem::Impl { for_, generics, kind: clean::ImplKind::Normal, .. }) = item
+ {
+ Some((for_.clone(), generics.clone()))
+ } else {
+ None
+ }
+}
diff --git a/src/librustdoc/formats/item_type.rs b/src/librustdoc/formats/item_type.rs
new file mode 100644
index 000000000..0a7ee2005
--- /dev/null
+++ b/src/librustdoc/formats/item_type.rs
@@ -0,0 +1,185 @@
+//! Item types.
+
+use std::fmt;
+
+use serde::{Serialize, Serializer};
+
+use rustc_hir::def::DefKind;
+use rustc_span::hygiene::MacroKind;
+
+use crate::clean;
+
+/// Item type. Corresponds to `clean::ItemEnum` variants.
+///
+/// The search index uses item types encoded as smaller numbers which equal to
+/// discriminants. JavaScript then is used to decode them into the original value.
+/// Consequently, every change to this type should be synchronized to
+/// the `itemTypes` mapping table in `html/static/js/search.js`.
+///
+/// In addition, code in `html::render` uses this enum to generate CSS classes, page prefixes, and
+/// module headings. If you are adding to this enum and want to ensure that the sidebar also prints
+/// a heading, edit the listing in `html/render.rs`, function `sidebar_module`. This uses an
+/// ordering based on a helper function inside `item_module`, in the same file.
+#[derive(Copy, PartialEq, Eq, Hash, Clone, Debug, PartialOrd, Ord)]
+pub(crate) enum ItemType {
+ Module = 0,
+ ExternCrate = 1,
+ Import = 2,
+ Struct = 3,
+ Enum = 4,
+ Function = 5,
+ Typedef = 6,
+ Static = 7,
+ Trait = 8,
+ Impl = 9,
+ TyMethod = 10,
+ Method = 11,
+ StructField = 12,
+ Variant = 13,
+ Macro = 14,
+ Primitive = 15,
+ AssocType = 16,
+ Constant = 17,
+ AssocConst = 18,
+ Union = 19,
+ ForeignType = 20,
+ Keyword = 21,
+ OpaqueTy = 22,
+ ProcAttribute = 23,
+ ProcDerive = 24,
+ TraitAlias = 25,
+}
+
+impl Serialize for ItemType {
+ fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error>
+ where
+ S: Serializer,
+ {
+ (*self as u8).serialize(serializer)
+ }
+}
+
+impl<'a> From<&'a clean::Item> for ItemType {
+ fn from(item: &'a clean::Item) -> ItemType {
+ let kind = match *item.kind {
+ clean::StrippedItem(box ref item) => item,
+ ref kind => kind,
+ };
+
+ match *kind {
+ clean::ModuleItem(..) => ItemType::Module,
+ clean::ExternCrateItem { .. } => ItemType::ExternCrate,
+ clean::ImportItem(..) => ItemType::Import,
+ clean::StructItem(..) => ItemType::Struct,
+ clean::UnionItem(..) => ItemType::Union,
+ clean::EnumItem(..) => ItemType::Enum,
+ clean::FunctionItem(..) => ItemType::Function,
+ clean::TypedefItem(..) => ItemType::Typedef,
+ clean::OpaqueTyItem(..) => ItemType::OpaqueTy,
+ clean::StaticItem(..) => ItemType::Static,
+ clean::ConstantItem(..) => ItemType::Constant,
+ clean::TraitItem(..) => ItemType::Trait,
+ clean::ImplItem(..) => ItemType::Impl,
+ clean::TyMethodItem(..) => ItemType::TyMethod,
+ clean::MethodItem(..) => ItemType::Method,
+ clean::StructFieldItem(..) => ItemType::StructField,
+ clean::VariantItem(..) => ItemType::Variant,
+ clean::ForeignFunctionItem(..) => ItemType::Function, // no ForeignFunction
+ clean::ForeignStaticItem(..) => ItemType::Static, // no ForeignStatic
+ clean::MacroItem(..) => ItemType::Macro,
+ clean::PrimitiveItem(..) => ItemType::Primitive,
+ clean::TyAssocConstItem(..) | clean::AssocConstItem(..) => ItemType::AssocConst,
+ clean::TyAssocTypeItem(..) | clean::AssocTypeItem(..) => ItemType::AssocType,
+ clean::ForeignTypeItem => ItemType::ForeignType,
+ clean::KeywordItem => ItemType::Keyword,
+ clean::TraitAliasItem(..) => ItemType::TraitAlias,
+ clean::ProcMacroItem(ref mac) => match mac.kind {
+ MacroKind::Bang => ItemType::Macro,
+ MacroKind::Attr => ItemType::ProcAttribute,
+ MacroKind::Derive => ItemType::ProcDerive,
+ },
+ clean::StrippedItem(..) => unreachable!(),
+ }
+ }
+}
+
+impl From<DefKind> for ItemType {
+ fn from(other: DefKind) -> Self {
+ match other {
+ DefKind::Enum => Self::Enum,
+ DefKind::Fn => Self::Function,
+ DefKind::Mod => Self::Module,
+ DefKind::Const => Self::Constant,
+ DefKind::Static(_) => Self::Static,
+ DefKind::Struct => Self::Struct,
+ DefKind::Union => Self::Union,
+ DefKind::Trait => Self::Trait,
+ DefKind::TyAlias => Self::Typedef,
+ DefKind::TraitAlias => Self::TraitAlias,
+ DefKind::Macro(kind) => match kind {
+ MacroKind::Bang => ItemType::Macro,
+ MacroKind::Attr => ItemType::ProcAttribute,
+ MacroKind::Derive => ItemType::ProcDerive,
+ },
+ DefKind::ForeignTy
+ | DefKind::Variant
+ | DefKind::AssocTy
+ | DefKind::TyParam
+ | DefKind::ConstParam
+ | DefKind::Ctor(..)
+ | DefKind::AssocFn
+ | DefKind::AssocConst
+ | DefKind::ExternCrate
+ | DefKind::Use
+ | DefKind::ForeignMod
+ | DefKind::AnonConst
+ | DefKind::InlineConst
+ | DefKind::OpaqueTy
+ | DefKind::Field
+ | DefKind::LifetimeParam
+ | DefKind::GlobalAsm
+ | DefKind::Impl
+ | DefKind::Closure
+ | DefKind::Generator => Self::ForeignType,
+ }
+ }
+}
+
+impl ItemType {
+ pub(crate) fn as_str(&self) -> &'static str {
+ match *self {
+ ItemType::Module => "mod",
+ ItemType::ExternCrate => "externcrate",
+ ItemType::Import => "import",
+ ItemType::Struct => "struct",
+ ItemType::Union => "union",
+ ItemType::Enum => "enum",
+ ItemType::Function => "fn",
+ ItemType::Typedef => "type",
+ ItemType::Static => "static",
+ ItemType::Trait => "trait",
+ ItemType::Impl => "impl",
+ ItemType::TyMethod => "tymethod",
+ ItemType::Method => "method",
+ ItemType::StructField => "structfield",
+ ItemType::Variant => "variant",
+ ItemType::Macro => "macro",
+ ItemType::Primitive => "primitive",
+ ItemType::AssocType => "associatedtype",
+ ItemType::Constant => "constant",
+ ItemType::AssocConst => "associatedconstant",
+ ItemType::ForeignType => "foreigntype",
+ ItemType::Keyword => "keyword",
+ ItemType::OpaqueTy => "opaque",
+ ItemType::ProcAttribute => "attr",
+ ItemType::ProcDerive => "derive",
+ ItemType::TraitAlias => "traitalias",
+ }
+ }
+}
+
+impl fmt::Display for ItemType {
+ fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
+ f.write_str(self.as_str())
+ }
+}
diff --git a/src/librustdoc/formats/mod.rs b/src/librustdoc/formats/mod.rs
new file mode 100644
index 000000000..b236bd7be
--- /dev/null
+++ b/src/librustdoc/formats/mod.rs
@@ -0,0 +1,101 @@
+pub(crate) mod cache;
+pub(crate) mod item_type;
+pub(crate) mod renderer;
+
+use rustc_hir::def_id::DefId;
+
+pub(crate) use renderer::{run_format, FormatRenderer};
+
+use crate::clean::{self, ItemId};
+use crate::html::render::Context;
+
+/// Specifies whether rendering directly implemented trait items or ones from a certain Deref
+/// impl.
+pub(crate) enum AssocItemRender<'a> {
+ All,
+ DerefFor { trait_: &'a clean::Path, type_: &'a clean::Type, deref_mut_: bool },
+}
+
+/// For different handling of associated items from the Deref target of a type rather than the type
+/// itself.
+#[derive(Copy, Clone, PartialEq)]
+pub(crate) enum RenderMode {
+ Normal,
+ ForDeref { mut_: bool },
+}
+
+/// Metadata about implementations for a type or trait.
+#[derive(Clone, Debug)]
+pub(crate) struct Impl {
+ pub(crate) impl_item: clean::Item,
+}
+
+impl Impl {
+ pub(crate) fn inner_impl(&self) -> &clean::Impl {
+ match *self.impl_item.kind {
+ clean::ImplItem(ref impl_) => impl_,
+ _ => panic!("non-impl item found in impl"),
+ }
+ }
+
+ pub(crate) fn trait_did(&self) -> Option<DefId> {
+ self.inner_impl().trait_.as_ref().map(|t| t.def_id())
+ }
+
+ /// This function is used to extract a `DefId` to be used as a key for the `Cache::impls` field.
+ ///
+ /// It allows to prevent having duplicated implementations showing up (the biggest issue was
+ /// with blanket impls).
+ ///
+ /// It panics if `self` is a `ItemId::Primitive`.
+ pub(crate) fn def_id(&self) -> DefId {
+ match self.impl_item.item_id {
+ ItemId::Blanket { impl_id, .. } => impl_id,
+ ItemId::Auto { trait_, .. } => trait_,
+ ItemId::DefId(def_id) => def_id,
+ ItemId::Primitive(_, _) => {
+ panic!(
+ "Unexpected ItemId::Primitive in expect_def_id: {:?}",
+ self.impl_item.item_id
+ )
+ }
+ }
+ }
+
+ // Returns true if this is an implementation on a "local" type, meaning:
+ // the type is in the current crate, or the type and the trait are both
+ // re-exported by the current crate.
+ pub(crate) fn is_on_local_type(&self, cx: &Context<'_>) -> bool {
+ let cache = cx.cache();
+ let for_type = &self.inner_impl().for_;
+ if let Some(for_type_did) = for_type.def_id(cache) {
+ // The "for" type is local if it's in the paths for the current crate.
+ if cache.paths.contains_key(&for_type_did) {
+ return true;
+ }
+ if let Some(trait_did) = self.trait_did() {
+ // The "for" type and the trait are from the same crate. That could
+ // be different from the current crate, for instance when both were
+ // re-exported from some other crate. But they are local with respect to
+ // each other.
+ if for_type_did.krate == trait_did.krate {
+ return true;
+ }
+ // Hack: many traits and types in std are re-exported from
+ // core or alloc. In general, rustdoc is capable of recognizing
+ // these implementations as being on local types. However, in at
+ // least one case (https://github.com/rust-lang/rust/issues/97610),
+ // rustdoc gets confused and labels an implementation as being on
+ // a foreign type. To make sure that confusion doesn't pass on to
+ // the reader, consider all implementations in std, core, and alloc
+ // to be on local types.
+ let crate_name = cx.tcx().crate_name(trait_did.krate);
+ if matches!(crate_name.as_str(), "std" | "core" | "alloc") {
+ return true;
+ }
+ }
+ return false;
+ };
+ true
+ }
+}
diff --git a/src/librustdoc/formats/renderer.rs b/src/librustdoc/formats/renderer.rs
new file mode 100644
index 000000000..62ba984ac
--- /dev/null
+++ b/src/librustdoc/formats/renderer.rs
@@ -0,0 +1,97 @@
+use rustc_middle::ty::TyCtxt;
+use rustc_span::Symbol;
+
+use crate::clean;
+use crate::config::RenderOptions;
+use crate::error::Error;
+use crate::formats::cache::Cache;
+
+/// Allows for different backends to rustdoc to be used with the `run_format()` function. Each
+/// backend renderer has hooks for initialization, documenting an item, entering and exiting a
+/// module, and cleanup/finalizing output.
+pub(crate) trait FormatRenderer<'tcx>: Sized {
+ /// Gives a description of the renderer. Used for performance profiling.
+ fn descr() -> &'static str;
+
+ /// Whether to call `item` recursively for modules
+ ///
+ /// This is true for html, and false for json. See #80664
+ const RUN_ON_MODULE: bool;
+
+ /// Sets up any state required for the renderer. When this is called the cache has already been
+ /// populated.
+ fn init(
+ krate: clean::Crate,
+ options: RenderOptions,
+ cache: Cache,
+ tcx: TyCtxt<'tcx>,
+ ) -> Result<(Self, clean::Crate), Error>;
+
+ /// Make a new renderer to render a child of the item currently being rendered.
+ fn make_child_renderer(&self) -> Self;
+
+ /// Renders a single non-module item. This means no recursive sub-item rendering is required.
+ fn item(&mut self, item: clean::Item) -> Result<(), Error>;
+
+ /// Renders a module (should not handle recursing into children).
+ fn mod_item_in(&mut self, item: &clean::Item) -> Result<(), Error>;
+
+ /// Runs after recursively rendering all sub-items of a module.
+ fn mod_item_out(&mut self) -> Result<(), Error> {
+ Ok(())
+ }
+
+ /// Post processing hook for cleanup and dumping output to files.
+ fn after_krate(&mut self) -> Result<(), Error>;
+
+ fn cache(&self) -> &Cache;
+}
+
+/// Main method for rendering a crate.
+pub(crate) fn run_format<'tcx, T: FormatRenderer<'tcx>>(
+ krate: clean::Crate,
+ options: RenderOptions,
+ cache: Cache,
+ tcx: TyCtxt<'tcx>,
+) -> Result<(), Error> {
+ let prof = &tcx.sess.prof;
+
+ let emit_crate = options.should_emit_crate();
+ let (mut format_renderer, krate) = prof
+ .extra_verbose_generic_activity("create_renderer", T::descr())
+ .run(|| T::init(krate, options, cache, tcx))?;
+
+ if !emit_crate {
+ return Ok(());
+ }
+
+ // Render the crate documentation
+ let mut work = vec![(format_renderer.make_child_renderer(), krate.module)];
+
+ let unknown = Symbol::intern("<unknown item>");
+ while let Some((mut cx, item)) = work.pop() {
+ if item.is_mod() && T::RUN_ON_MODULE {
+ // modules are special because they add a namespace. We also need to
+ // recurse into the items of the module as well.
+ let _timer =
+ prof.generic_activity_with_arg("render_mod_item", item.name.unwrap().to_string());
+
+ cx.mod_item_in(&item)?;
+ let (clean::StrippedItem(box clean::ModuleItem(module)) | clean::ModuleItem(module)) = *item.kind
+ else { unreachable!() };
+ for it in module.items {
+ debug!("Adding {:?} to worklist", it.name);
+ work.push((cx.make_child_renderer(), it));
+ }
+
+ cx.mod_item_out()?;
+ // FIXME: checking `item.name.is_some()` is very implicit and leads to lots of special
+ // cases. Use an explicit match instead.
+ } else if item.name.is_some() && !item.is_extern_crate() {
+ prof.generic_activity_with_arg("render_item", item.name.unwrap_or(unknown).as_str())
+ .run(|| cx.item(item))?;
+ }
+ }
+ prof.extra_verbose_generic_activity("renderer_after_krate", T::descr())
+ .run(|| format_renderer.after_krate())
+}