//! Rustdoc's JSON backend //! //! This module contains the logic for rendering a crate as JSON rather than the normal static HTML //! output. See [the RFC](https://github.com/rust-lang/rfcs/pull/2963) and the [`types`] module //! docs for usage and details. mod conversions; mod import_finder; use std::cell::RefCell; use std::fs::{create_dir_all, File}; use std::io::{BufWriter, Write}; use std::path::PathBuf; use std::rc::Rc; use rustc_data_structures::fx::{FxHashMap, FxHashSet}; use rustc_hir::def_id::DefId; use rustc_middle::ty::TyCtxt; use rustc_session::Session; use rustc_span::def_id::LOCAL_CRATE; use rustdoc_json_types as types; use crate::clean::types::{ExternalCrate, ExternalLocation}; use crate::clean::ItemKind; use crate::config::RenderOptions; use crate::docfs::PathError; use crate::error::Error; use crate::formats::cache::Cache; use crate::formats::FormatRenderer; use crate::json::conversions::{from_item_id, from_item_id_with_name, IntoWithTcx}; use crate::{clean, try_err}; #[derive(Clone)] pub(crate) struct JsonRenderer<'tcx> { tcx: TyCtxt<'tcx>, /// A mapping of IDs that contains all local items for this crate which gets output as a top /// level field of the JSON blob. index: Rc>>, /// The directory where the blob will be written to. out_path: PathBuf, cache: Rc, imported_items: FxHashSet, } impl<'tcx> JsonRenderer<'tcx> { fn sess(&self) -> &'tcx Session { self.tcx.sess } fn get_trait_implementors(&mut self, id: DefId) -> Vec { Rc::clone(&self.cache) .implementors .get(&id) .map(|implementors| { implementors .iter() .map(|i| { let item = &i.impl_item; self.item(item.clone()).unwrap(); from_item_id_with_name(item.item_id, self.tcx, item.name) }) .collect() }) .unwrap_or_default() } fn get_impls(&mut self, id: DefId) -> Vec { Rc::clone(&self.cache) .impls .get(&id) .map(|impls| { impls .iter() .filter_map(|i| { let item = &i.impl_item; // HACK(hkmatsumoto): For impls of primitive types, we index them // regardless of whether they're local. This is because users can // document primitive items in an arbitrary crate by using // `doc(primitive)`. let mut is_primitive_impl = false; if let clean::types::ItemKind::ImplItem(ref impl_) = *item.kind { if impl_.trait_.is_none() { if let clean::types::Type::Primitive(_) = impl_.for_ { is_primitive_impl = true; } } } if item.item_id.is_local() || is_primitive_impl { self.item(item.clone()).unwrap(); Some(from_item_id_with_name(item.item_id, self.tcx, item.name)) } else { None } }) .collect() }) .unwrap_or_default() } } impl<'tcx> FormatRenderer<'tcx> for JsonRenderer<'tcx> { fn descr() -> &'static str { "json" } const RUN_ON_MODULE: bool = false; fn init( krate: clean::Crate, options: RenderOptions, cache: Cache, tcx: TyCtxt<'tcx>, ) -> Result<(Self, clean::Crate), Error> { debug!("Initializing json renderer"); let (krate, imported_items) = import_finder::get_imports(krate); Ok(( JsonRenderer { tcx, index: Rc::new(RefCell::new(FxHashMap::default())), out_path: options.output, cache: Rc::new(cache), imported_items, }, krate, )) } fn make_child_renderer(&self) -> Self { self.clone() } /// Inserts an item into the index. This should be used rather than directly calling insert on /// the hashmap because certain items (traits and types) need to have their mappings for trait /// implementations filled out before they're inserted. fn item(&mut self, item: clean::Item) -> Result<(), Error> { let item_type = item.type_(); let item_name = item.name; trace!("rendering {} {:?}", item_type, item_name); // Flatten items that recursively store other items. We include orphaned items from // stripped modules and etc that are otherwise reachable. if let ItemKind::StrippedItem(inner) = &*item.kind { inner.inner_items().for_each(|i| self.item(i.clone()).unwrap()); } // Flatten items that recursively store other items item.kind.inner_items().for_each(|i| self.item(i.clone()).unwrap()); let name = item.name; let item_id = item.item_id; if let Some(mut new_item) = self.convert_item(item) { let can_be_ignored = match new_item.inner { types::ItemEnum::Trait(ref mut t) => { t.implementations = self.get_trait_implementors(item_id.expect_def_id()); false } types::ItemEnum::Struct(ref mut s) => { s.impls = self.get_impls(item_id.expect_def_id()); false } types::ItemEnum::Enum(ref mut e) => { e.impls = self.get_impls(item_id.expect_def_id()); false } types::ItemEnum::Union(ref mut u) => { u.impls = self.get_impls(item_id.expect_def_id()); false } types::ItemEnum::Primitive(ref mut p) => { p.impls = self.get_impls(item_id.expect_def_id()); false } types::ItemEnum::Function(_) | types::ItemEnum::Module(_) | types::ItemEnum::Import(_) | types::ItemEnum::AssocConst { .. } | types::ItemEnum::AssocType { .. } => true, types::ItemEnum::ExternCrate { .. } | types::ItemEnum::StructField(_) | types::ItemEnum::Variant(_) | types::ItemEnum::TraitAlias(_) | types::ItemEnum::Impl(_) | types::ItemEnum::Typedef(_) | types::ItemEnum::OpaqueTy(_) | types::ItemEnum::Constant(_) | types::ItemEnum::Static(_) | types::ItemEnum::ForeignType | types::ItemEnum::Macro(_) | types::ItemEnum::ProcMacro(_) => false, }; let removed = self .index .borrow_mut() .insert(from_item_id_with_name(item_id, self.tcx, name), new_item.clone()); // FIXME(adotinthevoid): Currently, the index is duplicated. This is a sanity check // to make sure the items are unique. The main place this happens is when an item, is // reexported in more than one place. See `rustdoc-json/reexport/in_root_and_mod` if let Some(old_item) = removed { // In case of generic implementations (like `impl Trait for T {}`), all the // inner items will be duplicated so we can ignore if they are slightly different. if !can_be_ignored { assert_eq!(old_item, new_item); } } } trace!("done rendering {} {:?}", item_type, item_name); Ok(()) } fn mod_item_in(&mut self, _item: &clean::Item) -> Result<(), Error> { unreachable!("RUN_ON_MODULE = false should never call mod_item_in") } fn after_krate(&mut self) -> Result<(), Error> { debug!("Done with crate"); debug!("Adding Primitve impls"); for primitive in Rc::clone(&self.cache).primitive_locations.values() { self.get_impls(*primitive); } let e = ExternalCrate { crate_num: LOCAL_CRATE }; let index = (*self.index).clone().into_inner(); debug!("Constructing Output"); // This needs to be the default HashMap for compatibility with the public interface for // rustdoc-json-types #[allow(rustc::default_hash_types)] let output = types::Crate { root: types::Id(format!("0:0:{}", e.name(self.tcx).as_u32())), crate_version: self.cache.crate_version.clone(), includes_private: self.cache.document_private, index: index.into_iter().collect(), paths: self .cache .paths .iter() .chain(&self.cache.external_paths) .map(|(&k, &(ref path, kind))| { ( from_item_id(k.into(), self.tcx), types::ItemSummary { crate_id: k.krate.as_u32(), path: path.iter().map(|s| s.to_string()).collect(), kind: kind.into_tcx(self.tcx), }, ) }) .collect(), external_crates: self .cache .extern_locations .iter() .map(|(crate_num, external_location)| { let e = ExternalCrate { crate_num: *crate_num }; ( crate_num.as_u32(), types::ExternalCrate { name: e.name(self.tcx).to_string(), html_root_url: match external_location { ExternalLocation::Remote(s) => Some(s.clone()), _ => None, }, }, ) }) .collect(), format_version: types::FORMAT_VERSION, }; let out_dir = self.out_path.clone(); try_err!(create_dir_all(&out_dir), out_dir); let mut p = out_dir; p.push(output.index.get(&output.root).unwrap().name.clone().unwrap()); p.set_extension("json"); let mut file = BufWriter::new(try_err!(File::create(&p), p)); serde_json::ser::to_writer(&mut file, &output).unwrap(); try_err!(file.flush(), p); Ok(()) } fn cache(&self) -> &Cache { &self.cache } }