//! Strip all doc(hidden) items from the output. use rustc_hir::def_id::LocalDefId; use rustc_middle::ty::TyCtxt; use rustc_span::symbol::sym; use std::mem; use crate::clean; use crate::clean::utils::inherits_doc_hidden; use crate::clean::{Item, ItemIdSet}; use crate::core::DocContext; use crate::fold::{strip_item, DocFolder}; use crate::passes::{ImplStripper, Pass}; pub(crate) const STRIP_HIDDEN: Pass = Pass { name: "strip-hidden", run: strip_hidden, description: "strips all `#[doc(hidden)]` items from the output", }; /// Strip items marked `#[doc(hidden)]` pub(crate) fn strip_hidden(krate: clean::Crate, cx: &mut DocContext<'_>) -> clean::Crate { let mut retained = ItemIdSet::default(); let is_json_output = cx.output_format.is_json() && !cx.show_coverage; // strip all #[doc(hidden)] items let krate = { let mut stripper = Stripper { retained: &mut retained, update_retained: true, tcx: cx.tcx, is_in_hidden_item: false, last_reexport: None, }; stripper.fold_crate(krate) }; // strip all impls referencing stripped items let mut stripper = ImplStripper { tcx: cx.tcx, retained: &retained, cache: &cx.cache, is_json_output, document_private: cx.render_options.document_private, document_hidden: cx.render_options.document_hidden, }; stripper.fold_crate(krate) } struct Stripper<'a, 'tcx> { retained: &'a mut ItemIdSet, update_retained: bool, tcx: TyCtxt<'tcx>, is_in_hidden_item: bool, last_reexport: Option, } impl<'a, 'tcx> Stripper<'a, 'tcx> { fn set_last_reexport_then_fold_item(&mut self, i: Item) -> Item { let prev_from_reexport = self.last_reexport; if i.inline_stmt_id.is_some() { self.last_reexport = i.item_id.as_def_id().and_then(|def_id| def_id.as_local()); } let ret = self.fold_item_recur(i); self.last_reexport = prev_from_reexport; ret } fn set_is_in_hidden_item_and_fold(&mut self, is_in_hidden_item: bool, i: Item) -> Item { let prev = self.is_in_hidden_item; self.is_in_hidden_item |= is_in_hidden_item; let ret = self.set_last_reexport_then_fold_item(i); self.is_in_hidden_item = prev; ret } /// In case `i` is a non-hidden impl block, then we special-case it by changing the value /// of `is_in_hidden_item` to `true` because the impl children inherit its visibility. fn recurse_in_impl_or_exported_macro(&mut self, i: Item) -> Item { let prev = mem::replace(&mut self.is_in_hidden_item, false); let ret = self.set_last_reexport_then_fold_item(i); self.is_in_hidden_item = prev; ret } } impl<'a, 'tcx> DocFolder for Stripper<'a, 'tcx> { fn fold_item(&mut self, i: Item) -> Option { let has_doc_hidden = i.is_doc_hidden(); let is_impl_or_exported_macro = match *i.kind { clean::ImplItem(..) => true, // If the macro has the `#[macro_export]` attribute, it means it's accessible at the // crate level so it should be handled differently. clean::MacroItem(..) => { i.attrs.other_attrs.iter().any(|attr| attr.has_name(sym::macro_export)) } _ => false, }; let mut is_hidden = has_doc_hidden; if !is_impl_or_exported_macro { is_hidden = self.is_in_hidden_item || has_doc_hidden; if !is_hidden && i.inline_stmt_id.is_none() { // `i.inline_stmt_id` is `Some` if the item is directly reexported. If it is, we // don't need to check it, because the reexport itself was already checked. // // If this item is the child of a reexported module, `self.last_reexport` will be // `Some` even though `i.inline_stmt_id` is `None`. Hiddenness inheritance needs to // account for the possibility that an item's true parent module is hidden, but it's // inlined into a visible module true. This code shouldn't be reachable if the // module's reexport is itself hidden, for the same reason it doesn't need to be // checked if `i.inline_stmt_id` is Some: hidden reexports are never inlined. is_hidden = i .item_id .as_def_id() .and_then(|def_id| def_id.as_local()) .map(|def_id| inherits_doc_hidden(self.tcx, def_id, self.last_reexport)) .unwrap_or(false); } } if !is_hidden { if self.update_retained { self.retained.insert(i.item_id); } return Some(if is_impl_or_exported_macro { self.recurse_in_impl_or_exported_macro(i) } else { self.set_is_in_hidden_item_and_fold(false, i) }); } debug!("strip_hidden: stripping {:?} {:?}", i.type_(), i.name); // Use a dedicated hidden item for fields, variants, and modules. // We need to keep private fields and variants, so that the docs // can show a placeholder "// some variants omitted". We need to keep // private modules, because they can contain impl blocks, and impl // block privacy is inherited from the type and trait, not from the // module it's defined in. Both of these are marked "stripped," and // not included in the final docs, but since they still have an effect // on the final doc, cannot be completely removed from the Clean IR. match *i.kind { clean::StructFieldItem(..) | clean::ModuleItem(..) | clean::VariantItem(..) => { // We need to recurse into stripped modules to // strip things like impl methods but when doing so // we must not add any items to the `retained` set. let old = mem::replace(&mut self.update_retained, false); let ret = self.set_is_in_hidden_item_and_fold(true, i); self.update_retained = old; if ret.is_crate() { // We don't strip the crate, even if it has `#[doc(hidden)]`. Some(ret) } else { Some(strip_item(ret)) } } _ => { let ret = self.set_is_in_hidden_item_and_fold(true, i); if has_doc_hidden { // If the item itself has `#[doc(hidden)]`, then we simply remove it. None } else { // However if it's a "descendant" of a `#[doc(hidden)]` item, then we strip it. Some(strip_item(ret)) } } } } }