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|
//! 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<RefCell<FxHashMap<types::Id, types::Item>>>,
/// The directory where the blob will be written to.
out_path: PathBuf,
cache: Rc<Cache>,
imported_items: FxHashSet<DefId>,
}
impl<'tcx> JsonRenderer<'tcx> {
fn sess(&self) -> &'tcx Session {
self.tcx.sess
}
fn get_trait_implementors(&mut self, id: DefId) -> Vec<types::Id> {
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<types::Id> {
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<T> 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
}
}
|