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|
use rustc_ast::NodeId;
use rustc_data_structures::fx::{FxHashMap, FxHashSet};
use rustc_data_structures::sync::{self, Lrc};
use rustc_errors::emitter::{Emitter, EmitterWriter};
use rustc_errors::json::JsonEmitter;
use rustc_feature::UnstableFeatures;
use rustc_hir::def::{Namespace, Res};
use rustc_hir::def_id::{DefId, DefIdMap, LocalDefId};
use rustc_hir::intravisit::{self, Visitor};
use rustc_hir::{HirId, Path, TraitCandidate};
use rustc_interface::interface;
use rustc_middle::hir::nested_filter;
use rustc_middle::middle::privacy::AccessLevels;
use rustc_middle::ty::{ParamEnv, Ty, TyCtxt};
use rustc_resolve as resolve;
use rustc_session::config::{self, CrateType, ErrorOutputType};
use rustc_session::lint;
use rustc_session::DiagnosticOutput;
use rustc_session::Session;
use rustc_span::symbol::sym;
use rustc_span::{source_map, Span, Symbol};
use std::cell::RefCell;
use std::mem;
use std::rc::Rc;
use std::sync::LazyLock;
use crate::clean::inline::build_external_trait;
use crate::clean::{self, ItemId, TraitWithExtraInfo};
use crate::config::{Options as RustdocOptions, OutputFormat, RenderOptions};
use crate::formats::cache::Cache;
use crate::passes::collect_intra_doc_links::PreprocessedMarkdownLink;
use crate::passes::{self, Condition::*};
pub(crate) use rustc_session::config::{Input, Options, UnstableOptions};
pub(crate) struct ResolverCaches {
pub(crate) markdown_links: Option<FxHashMap<String, Vec<PreprocessedMarkdownLink>>>,
pub(crate) doc_link_resolutions: FxHashMap<(Symbol, Namespace, DefId), Option<Res<NodeId>>>,
/// Traits in scope for a given module.
/// See `collect_intra_doc_links::traits_implemented_by` for more details.
pub(crate) traits_in_scope: DefIdMap<Vec<TraitCandidate>>,
pub(crate) all_traits: Option<Vec<DefId>>,
pub(crate) all_trait_impls: Option<Vec<DefId>>,
pub(crate) all_macro_rules: FxHashMap<Symbol, Res<NodeId>>,
}
pub(crate) struct DocContext<'tcx> {
pub(crate) tcx: TyCtxt<'tcx>,
/// Name resolver. Used for intra-doc links.
///
/// The `Rc<RefCell<...>>` wrapping is needed because that is what's returned by
/// [`rustc_interface::Queries::expansion()`].
// FIXME: see if we can get rid of this RefCell somehow
pub(crate) resolver: Rc<RefCell<interface::BoxedResolver>>,
pub(crate) resolver_caches: ResolverCaches,
/// Used for normalization.
///
/// Most of this logic is copied from rustc_lint::late.
pub(crate) param_env: ParamEnv<'tcx>,
/// Later on moved through `clean::Crate` into `cache`
pub(crate) external_traits: Rc<RefCell<FxHashMap<DefId, clean::TraitWithExtraInfo>>>,
/// Used while populating `external_traits` to ensure we don't process the same trait twice at
/// the same time.
pub(crate) active_extern_traits: FxHashSet<DefId>,
// The current set of parameter substitutions,
// for expanding type aliases at the HIR level:
/// Table `DefId` of type, lifetime, or const parameter -> substituted type, lifetime, or const
pub(crate) substs: FxHashMap<DefId, clean::SubstParam>,
/// Table synthetic type parameter for `impl Trait` in argument position -> bounds
pub(crate) impl_trait_bounds: FxHashMap<ImplTraitParam, Vec<clean::GenericBound>>,
/// Auto-trait or blanket impls processed so far, as `(self_ty, trait_def_id)`.
// FIXME(eddyb) make this a `ty::TraitRef<'tcx>` set.
pub(crate) generated_synthetics: FxHashSet<(Ty<'tcx>, DefId)>,
pub(crate) auto_traits: Vec<DefId>,
/// The options given to rustdoc that could be relevant to a pass.
pub(crate) render_options: RenderOptions,
/// This same cache is used throughout rustdoc, including in [`crate::html::render`].
pub(crate) cache: Cache,
/// Used by [`clean::inline`] to tell if an item has already been inlined.
pub(crate) inlined: FxHashSet<ItemId>,
/// Used by `calculate_doc_coverage`.
pub(crate) output_format: OutputFormat,
/// Used by `strip_private`.
pub(crate) show_coverage: bool,
}
impl<'tcx> DocContext<'tcx> {
pub(crate) fn sess(&self) -> &'tcx Session {
self.tcx.sess
}
pub(crate) fn with_param_env<T, F: FnOnce(&mut Self) -> T>(
&mut self,
def_id: DefId,
f: F,
) -> T {
let old_param_env = mem::replace(&mut self.param_env, self.tcx.param_env(def_id));
let ret = f(self);
self.param_env = old_param_env;
ret
}
pub(crate) fn enter_resolver<F, R>(&self, f: F) -> R
where
F: FnOnce(&mut resolve::Resolver<'_>) -> R,
{
self.resolver.borrow_mut().access(f)
}
/// Call the closure with the given parameters set as
/// the substitutions for a type alias' RHS.
pub(crate) fn enter_alias<F, R>(
&mut self,
substs: FxHashMap<DefId, clean::SubstParam>,
f: F,
) -> R
where
F: FnOnce(&mut Self) -> R,
{
let old_substs = mem::replace(&mut self.substs, substs);
let r = f(self);
self.substs = old_substs;
r
}
/// Like `hir().local_def_id_to_hir_id()`, but skips calling it on fake DefIds.
/// (This avoids a slice-index-out-of-bounds panic.)
pub(crate) fn as_local_hir_id(tcx: TyCtxt<'_>, item_id: ItemId) -> Option<HirId> {
match item_id {
ItemId::DefId(real_id) => {
real_id.as_local().map(|def_id| tcx.hir().local_def_id_to_hir_id(def_id))
}
// FIXME: Can this be `Some` for `Auto` or `Blanket`?
_ => None,
}
}
pub(crate) fn with_all_traits(&mut self, f: impl FnOnce(&mut Self, &[DefId])) {
let all_traits = self.resolver_caches.all_traits.take();
f(self, all_traits.as_ref().expect("`all_traits` are already borrowed"));
self.resolver_caches.all_traits = all_traits;
}
pub(crate) fn with_all_trait_impls(&mut self, f: impl FnOnce(&mut Self, &[DefId])) {
let all_trait_impls = self.resolver_caches.all_trait_impls.take();
f(self, all_trait_impls.as_ref().expect("`all_trait_impls` are already borrowed"));
self.resolver_caches.all_trait_impls = all_trait_impls;
}
}
/// Creates a new diagnostic `Handler` that can be used to emit warnings and errors.
///
/// If the given `error_format` is `ErrorOutputType::Json` and no `SourceMap` is given, a new one
/// will be created for the handler.
pub(crate) fn new_handler(
error_format: ErrorOutputType,
source_map: Option<Lrc<source_map::SourceMap>>,
diagnostic_width: Option<usize>,
unstable_opts: &UnstableOptions,
) -> rustc_errors::Handler {
let fallback_bundle =
rustc_errors::fallback_fluent_bundle(rustc_errors::DEFAULT_LOCALE_RESOURCES, false);
let emitter: Box<dyn Emitter + sync::Send> = match error_format {
ErrorOutputType::HumanReadable(kind) => {
let (short, color_config) = kind.unzip();
Box::new(
EmitterWriter::stderr(
color_config,
source_map.map(|sm| sm as _),
None,
fallback_bundle,
short,
unstable_opts.teach,
diagnostic_width,
false,
)
.ui_testing(unstable_opts.ui_testing),
)
}
ErrorOutputType::Json { pretty, json_rendered } => {
let source_map = source_map.unwrap_or_else(|| {
Lrc::new(source_map::SourceMap::new(source_map::FilePathMapping::empty()))
});
Box::new(
JsonEmitter::stderr(
None,
source_map,
None,
fallback_bundle,
pretty,
json_rendered,
diagnostic_width,
false,
)
.ui_testing(unstable_opts.ui_testing),
)
}
};
rustc_errors::Handler::with_emitter_and_flags(
emitter,
unstable_opts.diagnostic_handler_flags(true),
)
}
/// Parse, resolve, and typecheck the given crate.
pub(crate) fn create_config(
RustdocOptions {
input,
crate_name,
proc_macro_crate,
error_format,
diagnostic_width,
libs,
externs,
mut cfgs,
check_cfgs,
codegen_options,
unstable_opts,
target,
edition,
maybe_sysroot,
lint_opts,
describe_lints,
lint_cap,
scrape_examples_options,
..
}: RustdocOptions,
) -> rustc_interface::Config {
// Add the doc cfg into the doc build.
cfgs.push("doc".to_string());
let cpath = Some(input.clone());
let input = Input::File(input);
// By default, rustdoc ignores all lints.
// Specifically unblock lints relevant to documentation or the lint machinery itself.
let mut lints_to_show = vec![
// it's unclear whether these should be part of rustdoc directly (#77364)
rustc_lint::builtin::MISSING_DOCS.name.to_string(),
rustc_lint::builtin::INVALID_DOC_ATTRIBUTES.name.to_string(),
// these are definitely not part of rustdoc, but we want to warn on them anyway.
rustc_lint::builtin::RENAMED_AND_REMOVED_LINTS.name.to_string(),
rustc_lint::builtin::UNKNOWN_LINTS.name.to_string(),
rustc_lint::builtin::UNEXPECTED_CFGS.name.to_string(),
// this lint is needed to support `#[expect]` attributes
rustc_lint::builtin::UNFULFILLED_LINT_EXPECTATIONS.name.to_string(),
];
lints_to_show.extend(crate::lint::RUSTDOC_LINTS.iter().map(|lint| lint.name.to_string()));
let (lint_opts, lint_caps) = crate::lint::init_lints(lints_to_show, lint_opts, |lint| {
Some((lint.name_lower(), lint::Allow))
});
let crate_types =
if proc_macro_crate { vec![CrateType::ProcMacro] } else { vec![CrateType::Rlib] };
let test = scrape_examples_options.map(|opts| opts.scrape_tests).unwrap_or(false);
// plays with error output here!
let sessopts = config::Options {
maybe_sysroot,
search_paths: libs,
crate_types,
lint_opts,
lint_cap,
cg: codegen_options,
externs,
target_triple: target,
unstable_features: UnstableFeatures::from_environment(crate_name.as_deref()),
actually_rustdoc: true,
unstable_opts,
error_format,
diagnostic_width,
edition,
describe_lints,
crate_name,
test,
..Options::default()
};
interface::Config {
opts: sessopts,
crate_cfg: interface::parse_cfgspecs(cfgs),
crate_check_cfg: interface::parse_check_cfg(check_cfgs),
input,
input_path: cpath,
output_file: None,
output_dir: None,
file_loader: None,
diagnostic_output: DiagnosticOutput::Default,
lint_caps,
parse_sess_created: None,
register_lints: Some(Box::new(crate::lint::register_lints)),
override_queries: Some(|_sess, providers, _external_providers| {
// Most lints will require typechecking, so just don't run them.
providers.lint_mod = |_, _| {};
// Prevent `rustc_typeck::check_crate` from calling `typeck` on all bodies.
providers.typeck_item_bodies = |_, _| {};
// hack so that `used_trait_imports` won't try to call typeck
providers.used_trait_imports = |_, _| {
static EMPTY_SET: LazyLock<FxHashSet<LocalDefId>> =
LazyLock::new(FxHashSet::default);
&EMPTY_SET
};
// In case typeck does end up being called, don't ICE in case there were name resolution errors
providers.typeck = move |tcx, def_id| {
// Closures' tables come from their outermost function,
// as they are part of the same "inference environment".
// This avoids emitting errors for the parent twice (see similar code in `typeck_with_fallback`)
let typeck_root_def_id = tcx.typeck_root_def_id(def_id.to_def_id()).expect_local();
if typeck_root_def_id != def_id {
return tcx.typeck(typeck_root_def_id);
}
let hir = tcx.hir();
let body = hir.body(hir.body_owned_by(def_id));
debug!("visiting body for {:?}", def_id);
EmitIgnoredResolutionErrors::new(tcx).visit_body(body);
(rustc_interface::DEFAULT_QUERY_PROVIDERS.typeck)(tcx, def_id)
};
}),
make_codegen_backend: None,
registry: rustc_driver::diagnostics_registry(),
}
}
pub(crate) fn run_global_ctxt(
tcx: TyCtxt<'_>,
resolver: Rc<RefCell<interface::BoxedResolver>>,
resolver_caches: ResolverCaches,
show_coverage: bool,
render_options: RenderOptions,
output_format: OutputFormat,
) -> (clean::Crate, RenderOptions, Cache) {
// Certain queries assume that some checks were run elsewhere
// (see https://github.com/rust-lang/rust/pull/73566#issuecomment-656954425),
// so type-check everything other than function bodies in this crate before running lints.
// NOTE: this does not call `tcx.analysis()` so that we won't
// typeck function bodies or run the default rustc lints.
// (see `override_queries` in the `config`)
// HACK(jynelson) this calls an _extremely_ limited subset of `typeck`
// and might break if queries change their assumptions in the future.
// NOTE: This is copy/pasted from typeck/lib.rs and should be kept in sync with those changes.
tcx.sess.time("item_types_checking", || {
tcx.hir().for_each_module(|module| tcx.ensure().check_mod_item_types(module))
});
tcx.sess.abort_if_errors();
tcx.sess.time("missing_docs", || {
rustc_lint::check_crate(tcx, rustc_lint::builtin::MissingDoc::new);
});
tcx.sess.time("check_mod_attrs", || {
tcx.hir().for_each_module(|module| tcx.ensure().check_mod_attrs(module))
});
rustc_passes::stability::check_unused_or_stable_features(tcx);
let auto_traits = resolver_caches
.all_traits
.as_ref()
.expect("`all_traits` are already borrowed")
.iter()
.copied()
.filter(|&trait_def_id| tcx.trait_is_auto(trait_def_id))
.collect();
let access_levels = AccessLevels {
map: tcx.privacy_access_levels(()).map.iter().map(|(k, v)| (k.to_def_id(), *v)).collect(),
};
let mut ctxt = DocContext {
tcx,
resolver,
resolver_caches,
param_env: ParamEnv::empty(),
external_traits: Default::default(),
active_extern_traits: Default::default(),
substs: Default::default(),
impl_trait_bounds: Default::default(),
generated_synthetics: Default::default(),
auto_traits,
cache: Cache::new(access_levels, render_options.document_private),
inlined: FxHashSet::default(),
output_format,
render_options,
show_coverage,
};
// Small hack to force the Sized trait to be present.
//
// Note that in case of `#![no_core]`, the trait is not available.
if let Some(sized_trait_did) = ctxt.tcx.lang_items().sized_trait() {
let sized_trait = build_external_trait(&mut ctxt, sized_trait_did);
ctxt.external_traits
.borrow_mut()
.insert(sized_trait_did, TraitWithExtraInfo { trait_: sized_trait, is_notable: false });
}
debug!("crate: {:?}", tcx.hir().krate());
let mut krate = tcx.sess.time("clean_crate", || clean::krate(&mut ctxt));
if krate.module.doc_value().map(|d| d.is_empty()).unwrap_or(true) {
let help = format!(
"The following guide may be of use:\n\
{}/rustdoc/how-to-write-documentation.html",
crate::DOC_RUST_LANG_ORG_CHANNEL
);
tcx.struct_lint_node(
crate::lint::MISSING_CRATE_LEVEL_DOCS,
DocContext::as_local_hir_id(tcx, krate.module.item_id).unwrap(),
|lint| {
let mut diag =
lint.build("no documentation found for this crate's top-level module");
diag.help(&help);
diag.emit();
},
);
}
fn report_deprecated_attr(name: &str, diag: &rustc_errors::Handler, sp: Span) {
let mut msg =
diag.struct_span_warn(sp, &format!("the `#![doc({})]` attribute is deprecated", name));
msg.note(
"see issue #44136 <https://github.com/rust-lang/rust/issues/44136> \
for more information",
);
if name == "no_default_passes" {
msg.help("`#![doc(no_default_passes)]` no longer functions; you may want to use `#![doc(document_private_items)]`");
} else if name.starts_with("passes") {
msg.help("`#![doc(passes = \"...\")]` no longer functions; you may want to use `#![doc(document_private_items)]`");
} else if name.starts_with("plugins") {
msg.warn("`#![doc(plugins = \"...\")]` no longer functions; see CVE-2018-1000622 <https://nvd.nist.gov/vuln/detail/CVE-2018-1000622>");
}
msg.emit();
}
// Process all of the crate attributes, extracting plugin metadata along
// with the passes which we are supposed to run.
for attr in krate.module.attrs.lists(sym::doc) {
let diag = ctxt.sess().diagnostic();
let name = attr.name_or_empty();
// `plugins = "..."`, `no_default_passes`, and `passes = "..."` have no effect
if attr.is_word() && name == sym::no_default_passes {
report_deprecated_attr("no_default_passes", diag, attr.span());
} else if attr.value_str().is_some() {
match name {
sym::passes => {
report_deprecated_attr("passes = \"...\"", diag, attr.span());
}
sym::plugins => {
report_deprecated_attr("plugins = \"...\"", diag, attr.span());
}
_ => (),
}
}
if attr.is_word() && name == sym::document_private_items {
ctxt.render_options.document_private = true;
}
}
info!("Executing passes");
for p in passes::defaults(show_coverage) {
let run = match p.condition {
Always => true,
WhenDocumentPrivate => ctxt.render_options.document_private,
WhenNotDocumentPrivate => !ctxt.render_options.document_private,
WhenNotDocumentHidden => !ctxt.render_options.document_hidden,
};
if run {
debug!("running pass {}", p.pass.name);
krate = tcx.sess.time(p.pass.name, || (p.pass.run)(krate, &mut ctxt));
}
}
tcx.sess.time("check_lint_expectations", || tcx.check_expectations(Some(sym::rustdoc)));
if tcx.sess.diagnostic().has_errors_or_lint_errors().is_some() {
rustc_errors::FatalError.raise();
}
krate = tcx.sess.time("create_format_cache", || Cache::populate(&mut ctxt, krate));
(krate, ctxt.render_options, ctxt.cache)
}
/// Due to <https://github.com/rust-lang/rust/pull/73566>,
/// the name resolution pass may find errors that are never emitted.
/// If typeck is called after this happens, then we'll get an ICE:
/// 'Res::Error found but not reported'. To avoid this, emit the errors now.
struct EmitIgnoredResolutionErrors<'tcx> {
tcx: TyCtxt<'tcx>,
}
impl<'tcx> EmitIgnoredResolutionErrors<'tcx> {
fn new(tcx: TyCtxt<'tcx>) -> Self {
Self { tcx }
}
}
impl<'tcx> Visitor<'tcx> for EmitIgnoredResolutionErrors<'tcx> {
type NestedFilter = nested_filter::OnlyBodies;
fn nested_visit_map(&mut self) -> Self::Map {
// We need to recurse into nested closures,
// since those will fallback to the parent for type checking.
self.tcx.hir()
}
fn visit_path(&mut self, path: &'tcx Path<'_>, _id: HirId) {
debug!("visiting path {:?}", path);
if path.res == Res::Err {
// We have less context here than in rustc_resolve,
// so we can only emit the name and span.
// However we can give a hint that rustc_resolve will have more info.
let label = format!(
"could not resolve path `{}`",
path.segments
.iter()
.map(|segment| segment.ident.as_str())
.intersperse("::")
.collect::<String>()
);
let mut err = rustc_errors::struct_span_err!(
self.tcx.sess,
path.span,
E0433,
"failed to resolve: {}",
label
);
err.span_label(path.span, label);
err.note("this error was originally ignored because you are running `rustdoc`");
err.note("try running again with `rustc` or `cargo check` and you may get a more detailed error");
err.emit();
}
// We could have an outer resolution that succeeded,
// but with generic parameters that failed.
// Recurse into the segments so we catch those too.
intravisit::walk_path(self, path);
}
}
/// `DefId` or parameter index (`ty::ParamTy.index`) of a synthetic type parameter
/// for `impl Trait` in argument position.
#[derive(Clone, Copy, PartialEq, Eq, Hash, PartialOrd, Ord)]
pub(crate) enum ImplTraitParam {
DefId(DefId),
ParamIndex(u32),
}
impl From<DefId> for ImplTraitParam {
fn from(did: DefId) -> Self {
ImplTraitParam::DefId(did)
}
}
impl From<u32> for ImplTraitParam {
fn from(idx: u32) -> Self {
ImplTraitParam::ParamIndex(idx)
}
}
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