use std::sync::{Arc, LazyLock}; use std::{io, mem}; use rustc_data_structures::fx::{FxHashMap, FxHashSet, FxIndexMap}; use rustc_data_structures::unord::UnordSet; use rustc_driver::USING_INTERNAL_FEATURES; use rustc_errors::TerminalUrl; use rustc_errors::codes::*; use rustc_errors::emitter::{ DynEmitter, HumanEmitter, HumanReadableErrorType, OutputTheme, stderr_destination, }; use rustc_errors::json::JsonEmitter; use rustc_feature::UnstableFeatures; use rustc_hir::def::Res; use rustc_hir::def_id::{DefId, DefIdMap, DefIdSet, LocalDefId}; use rustc_hir::intravisit::{self, Visitor}; use rustc_hir::{HirId, Path}; use rustc_lint::{MissingDoc, late_lint_mod}; use rustc_middle::hir::nested_filter; use rustc_middle::ty::{self, ParamEnv, Ty, TyCtxt}; use rustc_session::config::{ self, CrateType, ErrorOutputType, Input, OutFileName, OutputType, OutputTypes, ResolveDocLinks, }; pub(crate) use rustc_session::config::{Options, UnstableOptions}; use rustc_session::{Session, lint}; use rustc_span::source_map; use rustc_span::symbol::sym; use tracing::{debug, info}; use crate::clean::inline::build_trait; use crate::clean::{self, ItemId}; use crate::config::{Options as RustdocOptions, OutputFormat, RenderOptions}; use crate::formats::cache::Cache; use crate::passes; use crate::passes::Condition::*; use crate::passes::collect_intra_doc_links::LinkCollector; pub(crate) struct DocContext<'tcx> { pub(crate) tcx: TyCtxt<'tcx>, /// 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: FxIndexMap, /// Used while populating `external_traits` to ensure we don't process the same trait twice at /// the same time. pub(crate) active_extern_traits: DefIdSet, /// The current set of parameter instantiations for expanding type aliases at the HIR level. /// /// Maps from the `DefId` of a lifetime or type parameter to the /// generic argument it's currently instantiated to in this context. // FIXME(#82852): We don't record const params since we don't visit const exprs at all and // therefore wouldn't use the corresp. generic arg anyway. Add support for them. pub(crate) args: DefIdMap, pub(crate) current_type_aliases: DefIdMap, /// Table synthetic type parameter for `impl Trait` in argument position -> bounds pub(crate) impl_trait_bounds: FxHashMap>, /// 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, /// 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, /// 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>( &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 typing_env(&self) -> ty::TypingEnv<'tcx> { ty::TypingEnv { typing_mode: ty::TypingMode::non_body_analysis(), param_env: self.param_env, } } /// Call the closure with the given parameters set as /// the generic parameters for a type alias' RHS. pub(crate) fn enter_alias( &mut self, args: DefIdMap, def_id: DefId, f: F, ) -> R where F: FnOnce(&mut Self) -> R, { let old_args = mem::replace(&mut self.args, args); *self.current_type_aliases.entry(def_id).or_insert(0) += 1; let r = f(self); self.args = old_args; if let Some(count) = self.current_type_aliases.get_mut(&def_id) { *count -= 1; if *count == 0 { self.current_type_aliases.remove(&def_id); } } r } /// Like `tcx.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 { match item_id { ItemId::DefId(real_id) => { real_id.as_local().map(|def_id| tcx.local_def_id_to_hir_id(def_id)) } // FIXME: Can this be `Some` for `Auto` or `Blanket`? _ => None, } } /// Returns `true` if the JSON output format is enabled for generating the crate content. /// /// If another option like `--show-coverage` is enabled, it will return `false`. pub(crate) fn is_json_output(&self) -> bool { self.output_format.is_json() && !self.show_coverage } } /// Creates a new `DiagCtxt` 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 `DiagCtxt`. pub(crate) fn new_dcx( error_format: ErrorOutputType, source_map: Option>, diagnostic_width: Option, unstable_opts: &UnstableOptions, ) -> rustc_errors::DiagCtxt { let translator = rustc_driver::default_translator(); let emitter: Box = match error_format { ErrorOutputType::HumanReadable { kind, color_config } => { let short = kind.short(); Box::new( HumanEmitter::new(stderr_destination(color_config), translator) .sm(source_map.map(|sm| sm as _)) .short_message(short) .diagnostic_width(diagnostic_width) .track_diagnostics(unstable_opts.track_diagnostics) .theme(if let HumanReadableErrorType::Unicode = kind { OutputTheme::Unicode } else { OutputTheme::Ascii }) .ui_testing(unstable_opts.ui_testing), ) } ErrorOutputType::Json { pretty, json_rendered, color_config } => { let source_map = source_map.unwrap_or_else(|| { Arc::new(source_map::SourceMap::new(source_map::FilePathMapping::empty())) }); Box::new( JsonEmitter::new( Box::new(io::BufWriter::new(io::stderr())), Some(source_map), translator, pretty, json_rendered, color_config, ) .ui_testing(unstable_opts.ui_testing) .diagnostic_width(diagnostic_width) .track_diagnostics(unstable_opts.track_diagnostics) .terminal_url(TerminalUrl::No), ) } }; rustc_errors::DiagCtxt::new(emitter).with_flags(unstable_opts.dcx_flags(true)) } /// Parse, resolve, and typecheck the given crate. pub(crate) fn create_config( input: Input, RustdocOptions { crate_name, proc_macro_crate, error_format, diagnostic_width, libs, externs, mut cfgs, check_cfgs, codegen_options, unstable_opts, target, edition, sysroot, lint_opts, describe_lints, lint_cap, scrape_examples_options, expanded_args, remap_path_prefix, .. }: RustdocOptions, render_options: &RenderOptions, ) -> rustc_interface::Config { // Add the doc cfg into the doc build. cfgs.push("doc".to_string()); // 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 resolve_doc_links = if render_options.document_private { ResolveDocLinks::All } else { ResolveDocLinks::Exported }; let test = scrape_examples_options.map(|opts| opts.scrape_tests).unwrap_or(false); // plays with error output here! let sessopts = config::Options { 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, resolve_doc_links, unstable_opts, error_format, diagnostic_width, edition, describe_lints, crate_name, test, remap_path_prefix, output_types: if let Some(file) = render_options.dep_info() { OutputTypes::new(&[( OutputType::DepInfo, file.map(|f| OutFileName::Real(f.to_path_buf())), )]) } else { OutputTypes::new(&[]) }, ..Options::default() }; rustc_interface::Config { opts: sessopts, crate_cfg: cfgs, crate_check_cfg: check_cfgs, input, output_file: None, output_dir: None, file_loader: None, locale_resources: rustc_driver::DEFAULT_LOCALE_RESOURCES.to_vec(), lint_caps, psess_created: None, hash_untracked_state: None, register_lints: Some(Box::new(crate::lint::register_lints)), override_queries: Some(|_sess, providers| { // We do not register late module lints, so this only runs `MissingDoc`. // Most lints will require typechecking, so just don't run them. providers.lint_mod = |tcx, module_def_id| late_lint_mod(tcx, module_def_id, MissingDoc); // hack so that `used_trait_imports` won't try to call typeck providers.used_trait_imports = |_, _| { static EMPTY_SET: LazyLock> = LazyLock::new(UnordSet::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 body = tcx.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) }; }), extra_symbols: Vec::new(), make_codegen_backend: None, registry: rustc_driver::diagnostics_registry(), ice_file: None, using_internal_features: &USING_INTERNAL_FEATURES, expanded_args, } } pub(crate) fn run_global_ctxt( tcx: TyCtxt<'_>, 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`) // NOTE: These are copy/pasted from typeck/lib.rs and should be kept in sync with those changes. let _ = tcx.sess.time("wf_checking", || tcx.ensure_ok().check_type_wf(())); tcx.dcx().abort_if_errors(); tcx.sess.time("missing_docs", || rustc_lint::check_crate(tcx)); tcx.sess.time("check_mod_attrs", || { tcx.hir_for_each_module(|module| tcx.ensure_ok().check_mod_attrs(module)) }); rustc_passes::stability::check_unused_or_stable_features(tcx); let auto_traits = tcx.all_traits().filter(|&trait_def_id| tcx.trait_is_auto(trait_def_id)).collect(); let mut ctxt = DocContext { tcx, param_env: ParamEnv::empty(), external_traits: Default::default(), active_extern_traits: Default::default(), args: Default::default(), current_type_aliases: Default::default(), impl_trait_bounds: Default::default(), generated_synthetics: Default::default(), auto_traits, cache: Cache::new(render_options.document_private, render_options.document_hidden), inlined: FxHashSet::default(), output_format, render_options, show_coverage, }; for cnum in tcx.crates(()) { crate::visit_lib::lib_embargo_visit_item(&mut ctxt, cnum.as_def_id()); } // 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_trait(&mut ctxt, sized_trait_did); ctxt.external_traits.insert(sized_trait_did, sized_trait); } let mut krate = tcx.sess.time("clean_crate", || clean::krate(&mut ctxt)); if krate.module.doc_value().is_empty() { let help = format!( "The following guide may be of use:\n\ {}/rustdoc/how-to-write-documentation.html", crate::DOC_RUST_LANG_ORG_VERSION ); tcx.node_lint( crate::lint::MISSING_CRATE_LEVEL_DOCS, DocContext::as_local_hir_id(tcx, krate.module.item_id).unwrap(), |lint| { lint.primary_message("no documentation found for this crate's top-level module"); lint.help(help); }, ); } // 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) { if attr.is_word() && attr.has_name(sym::document_private_items) { ctxt.render_options.document_private = true; } } info!("Executing passes"); let mut visited = FxHashMap::default(); let mut ambiguous = FxIndexMap::default(); 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); if let Some(run_fn) = p.pass.run { krate = tcx.sess.time(p.pass.name, || run_fn(krate, &mut ctxt)); } else { let (k, LinkCollector { visited_links, ambiguous_links, .. }) = passes::collect_intra_doc_links::collect_intra_doc_links(krate, &mut ctxt); krate = k; visited = visited_links; ambiguous = ambiguous_links; } } } tcx.sess.time("check_lint_expectations", || tcx.check_expectations(Some(sym::rustdoc))); krate = tcx.sess.time("create_format_cache", || Cache::populate(&mut ctxt, krate)); let mut collector = LinkCollector { cx: &mut ctxt, visited_links: visited, ambiguous_links: ambiguous }; collector.resolve_ambiguities(); tcx.dcx().abort_if_errors(); (krate, ctxt.render_options, ctxt.cache) } /// Due to , /// 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 maybe_tcx(&mut self) -> Self::MaybeTyCtxt { // We need to recurse into nested closures, // since those will fallback to the parent for type checking. self.tcx } fn visit_path(&mut self, path: &Path<'tcx>, _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::() ); rustc_errors::struct_span_code_err!( self.tcx.dcx(), path.span, E0433, "failed to resolve: {label}", ) .with_span_label(path.span, label) .with_note("this error was originally ignored because you are running `rustdoc`") .with_note("try running again with `rustc` or `cargo check` and you may get a more detailed error") .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)] pub(crate) enum ImplTraitParam { DefId(DefId), ParamIndex(u32), } impl From for ImplTraitParam { fn from(did: DefId) -> Self { ImplTraitParam::DefId(did) } } impl From for ImplTraitParam { fn from(idx: u32) -> Self { ImplTraitParam::ParamIndex(idx) } }