1 use crate::context::{CheckLintNameResult, LintStore};
2 use crate::late::unerased_lint_store;
4 use rustc_ast_pretty::pprust;
5 use rustc_data_structures::fx::FxHashMap;
6 use rustc_errors::{struct_span_err, Applicability, Diagnostic, MultiSpan};
8 use rustc_hir::{intravisit, HirId};
9 use rustc_middle::hir::nested_filter;
10 use rustc_middle::lint::{
11 struct_lint_level, LevelAndSource, LintDiagnosticBuilder, LintExpectation, LintLevelMap,
12 LintLevelSets, LintLevelSource, LintSet, LintStackIndex, COMMAND_LINE,
14 use rustc_middle::ty::query::Providers;
15 use rustc_middle::ty::{RegisteredTools, TyCtxt};
16 use rustc_session::lint::{
17 builtin::{self, FORBIDDEN_LINT_GROUPS, SINGLE_USE_LIFETIMES, UNFULFILLED_LINT_EXPECTATIONS},
18 Level, Lint, LintExpectationId, LintId,
20 use rustc_session::parse::{add_feature_diagnostics, feature_err};
21 use rustc_session::Session;
22 use rustc_span::symbol::{sym, Symbol};
23 use rustc_span::{Span, DUMMY_SP};
26 fn lint_levels(tcx: TyCtxt<'_>, (): ()) -> LintLevelMap {
27 let store = unerased_lint_store(tcx);
29 LintLevelsBuilder::new(tcx.sess, false, &store, &tcx.resolutions(()).registered_tools);
30 let mut builder = LintLevelMapBuilder { levels, tcx };
31 let krate = tcx.hir().krate();
33 builder.levels.id_to_set.reserve(krate.owners.len() + 1);
36 builder.levels.push(tcx.hir().attrs(hir::CRATE_HIR_ID), true, Some(hir::CRATE_HIR_ID));
38 builder.levels.register_id(hir::CRATE_HIR_ID);
39 tcx.hir().walk_toplevel_module(&mut builder);
40 builder.levels.pop(push);
42 builder.levels.update_unstable_expectation_ids();
43 builder.levels.build_map()
46 pub struct LintLevelsBuilder<'s> {
48 lint_expectations: Vec<(LintExpectationId, LintExpectation)>,
49 /// Each expectation has a stable and an unstable identifier. This map
50 /// is used to map from unstable to stable [`LintExpectationId`]s.
51 expectation_id_map: FxHashMap<LintExpectationId, LintExpectationId>,
53 id_to_set: FxHashMap<HirId, LintStackIndex>,
55 warn_about_weird_lints: bool,
57 registered_tools: &'s RegisteredTools,
60 pub struct BuilderPush {
65 impl<'s> LintLevelsBuilder<'s> {
68 warn_about_weird_lints: bool,
70 registered_tools: &'s RegisteredTools,
72 let mut builder = LintLevelsBuilder {
74 lint_expectations: Default::default(),
75 expectation_id_map: Default::default(),
76 sets: LintLevelSets::new(),
78 id_to_set: Default::default(),
79 warn_about_weird_lints,
83 builder.process_command_line(sess, store);
84 assert_eq!(builder.sets.list.len(), 1);
88 pub(crate) fn sess(&self) -> &Session {
92 pub(crate) fn lint_store(&self) -> &LintStore {
96 fn current_specs(&self) -> &FxHashMap<LintId, LevelAndSource> {
97 &self.sets.list[self.cur].specs
100 fn current_specs_mut(&mut self) -> &mut FxHashMap<LintId, LevelAndSource> {
101 &mut self.sets.list[self.cur].specs
104 fn process_command_line(&mut self, sess: &Session, store: &LintStore) {
105 self.sets.lint_cap = sess.opts.lint_cap.unwrap_or(Level::Forbid);
108 self.sets.list.push(LintSet { specs: FxHashMap::default(), parent: COMMAND_LINE });
109 for &(ref lint_name, level) in &sess.opts.lint_opts {
110 store.check_lint_name_cmdline(sess, &lint_name, level, self.registered_tools);
111 let orig_level = level;
112 let lint_flag_val = Symbol::intern(lint_name);
114 let Ok(ids) = store.find_lints(&lint_name) else {
115 // errors handled in check_lint_name_cmdline above
119 // ForceWarn and Forbid cannot be overridden
120 if let Some((Level::ForceWarn | Level::Forbid, _)) = self.current_specs().get(&id) {
124 if self.check_gated_lint(id, DUMMY_SP) {
125 let src = LintLevelSource::CommandLine(lint_flag_val, orig_level);
126 self.current_specs_mut().insert(id, (level, src));
132 /// Attempts to insert the `id` to `level_src` map entry. If unsuccessful
133 /// (e.g. if a forbid was already inserted on the same scope), then emits a
134 /// diagnostic with no change to `specs`.
135 fn insert_spec(&mut self, id: LintId, (level, src): LevelAndSource) {
136 let (old_level, old_src) =
137 self.sets.get_lint_level(id.lint, self.cur, Some(self.current_specs()), &self.sess);
138 // Setting to a non-forbid level is an error if the lint previously had
139 // a forbid level. Note that this is not necessarily true even with a
140 // `#[forbid(..)]` attribute present, as that is overridden by `--cap-lints`.
142 // This means that this only errors if we're truly lowering the lint
143 // level from forbid.
144 if level != Level::Forbid {
145 if let Level::Forbid = old_level {
146 // Backwards compatibility check:
148 // We used to not consider `forbid(lint_group)`
149 // as preventing `allow(lint)` for some lint `lint` in
150 // `lint_group`. For now, issue a future-compatibility
151 // warning for this case.
152 let id_name = id.lint.name_lower();
153 let fcw_warning = match old_src {
154 LintLevelSource::Default => false,
155 LintLevelSource::Node(symbol, _, _) => self.store.is_lint_group(symbol),
156 LintLevelSource::CommandLine(symbol, _) => self.store.is_lint_group(symbol),
159 "fcw_warning={:?}, specs.get(&id) = {:?}, old_src={:?}, id_name={:?}",
161 self.current_specs(),
166 let decorate_diag = |diag: &mut Diagnostic| {
167 diag.span_label(src.span(), "overruled by previous forbid");
169 LintLevelSource::Default => {
171 "`forbid` lint level is the default for {}",
175 LintLevelSource::Node(_, forbid_source_span, reason) => {
176 diag.span_label(forbid_source_span, "`forbid` level set here");
177 if let Some(rationale) = reason {
178 diag.note(rationale.as_str());
181 LintLevelSource::CommandLine(_, _) => {
182 diag.note("`forbid` lint level was set on command line");
187 let mut diag_builder = struct_span_err!(
191 "{}({}) incompatible with previous forbid",
195 decorate_diag(&mut diag_builder);
199 FORBIDDEN_LINT_GROUPS,
200 Some(src.span().into()),
202 let mut diag_builder = diag_builder.build(&format!(
203 "{}({}) incompatible with previous forbid",
207 decorate_diag(&mut diag_builder);
213 // Retain the forbid lint level, unless we are
214 // issuing a FCW. In the FCW case, we want to
215 // respect the new setting.
222 // The lint `unfulfilled_lint_expectations` can't be expected, as it would suppress itself.
223 // Handling expectations of this lint would add additional complexity with little to no
224 // benefit. The expect level for this lint will therefore be ignored.
225 if let Level::Expect(_) = level && id == LintId::of(UNFULFILLED_LINT_EXPECTATIONS) {
229 if let Level::ForceWarn = old_level {
230 self.current_specs_mut().insert(id, (old_level, old_src));
232 self.current_specs_mut().insert(id, (level, src));
236 /// Pushes a list of AST lint attributes onto this context.
238 /// This function will return a `BuilderPush` object which should be passed
239 /// to `pop` when this scope for the attributes provided is exited.
241 /// This function will perform a number of tasks:
243 /// * It'll validate all lint-related attributes in `attrs`
244 /// * It'll mark all lint-related attributes as used
245 /// * Lint levels will be updated based on the attributes provided
246 /// * Lint attributes are validated, e.g., a `#[forbid]` can't be switched to
249 /// Don't forget to call `pop`!
252 attrs: &[ast::Attribute],
254 source_hir_id: Option<HirId>,
257 self.cur = self.sets.list.push(LintSet { specs: FxHashMap::default(), parent: prev });
259 let sess = self.sess;
260 let bad_attr = |span| struct_span_err!(sess, span, E0452, "malformed lint attribute input");
261 for (attr_index, attr) in attrs.iter().enumerate() {
262 if attr.has_name(sym::automatically_derived) {
263 self.current_specs_mut().insert(
264 LintId::of(SINGLE_USE_LIFETIMES),
265 (Level::Allow, LintLevelSource::Default),
270 let level = match Level::from_attr(attr) {
272 Some(Level::Expect(unstable_id)) if let Some(hir_id) = source_hir_id => {
273 let stable_id = self.create_stable_id(unstable_id, hir_id, attr_index);
275 Level::Expect(stable_id)
280 let Some(mut metas) = attr.meta_item_list() else {
284 if metas.is_empty() {
285 // This emits the unused_attributes lint for `#[level()]`
289 // Before processing the lint names, look for a reason (RFC 2383)
291 let mut reason = None;
292 let tail_li = &metas[metas.len() - 1];
293 if let Some(item) = tail_li.meta_item() {
295 ast::MetaItemKind::Word => {} // actual lint names handled later
296 ast::MetaItemKind::NameValue(ref name_value) => {
297 if item.path == sym::reason {
298 if let ast::LitKind::Str(rationale, _) = name_value.kind {
299 if !self.sess.features_untracked().lint_reasons {
301 &self.sess.parse_sess,
304 "lint reasons are experimental",
308 reason = Some(rationale);
310 bad_attr(name_value.span)
311 .span_label(name_value.span, "reason must be a string literal")
314 // found reason, reslice meta list to exclude it
315 metas.pop().unwrap();
318 .span_label(item.span, "bad attribute argument")
322 ast::MetaItemKind::List(_) => {
323 bad_attr(item.span).span_label(item.span, "bad attribute argument").emit();
328 for (lint_index, li) in metas.iter_mut().enumerate() {
329 let level = match level {
330 Level::Expect(mut id) => {
331 id.set_lint_index(Some(lint_index as u16));
338 let meta_item = match li {
339 ast::NestedMetaItem::MetaItem(meta_item) if meta_item.is_word() => meta_item,
341 let mut err = bad_attr(sp);
342 let mut add_label = true;
343 if let Some(item) = li.meta_item() {
344 if let ast::MetaItemKind::NameValue(_) = item.kind {
345 if item.path == sym::reason {
346 err.span_label(sp, "reason in lint attribute must come last");
352 err.span_label(sp, "bad attribute argument");
358 let tool_ident = if meta_item.path.segments.len() > 1 {
359 Some(meta_item.path.segments.remove(0).ident)
363 let tool_name = tool_ident.map(|ident| ident.name);
364 let name = pprust::path_to_string(&meta_item.path);
366 self.store.check_lint_name(&name, tool_name, self.registered_tools);
368 CheckLintNameResult::Ok(ids) => {
369 // This checks for instances where the user writes `#[expect(unfulfilled_lint_expectations)]`
370 // in that case we want to avoid overriding the lint level but instead add an expectation that
371 // can't be fulfilled. The lint message will include an explanation, that the
372 // `unfulfilled_lint_expectations` lint can't be expected.
373 if let Level::Expect(expect_id) = level {
374 // The `unfulfilled_lint_expectations` lint is not part of any lint groups. Therefore. we
375 // only need to check the slice if it contains a single lint.
376 let is_unfulfilled_lint_expectations = match ids {
377 [lint] => *lint == LintId::of(UNFULFILLED_LINT_EXPECTATIONS),
380 self.lint_expectations.push((
382 LintExpectation::new(
385 is_unfulfilled_lint_expectations,
390 let src = LintLevelSource::Node(
391 meta_item.path.segments.last().expect("empty lint name").ident.name,
396 if self.check_gated_lint(id, attr.span) {
397 self.insert_spec(id, (level, src));
402 CheckLintNameResult::Tool(result) => {
406 &format!("{}::{}", tool_ident.unwrap().name, name);
407 let src = LintLevelSource::Node(
408 Symbol::intern(complete_name),
413 self.insert_spec(*id, (level, src));
415 if let Level::Expect(expect_id) = level {
416 self.lint_expectations.push((
418 LintExpectation::new(reason, sp, false, tool_name),
422 Err((Some(ids), ref new_lint_name)) => {
423 let lint = builtin::RENAMED_AND_REMOVED_LINTS;
424 let (lvl, src) = self.sets.get_lint_level(
427 Some(self.current_specs()),
438 "lint name `{}` is deprecated \
439 and may not have an effect in the future.",
447 Applicability::MachineApplicable,
453 let src = LintLevelSource::Node(
454 Symbol::intern(&new_lint_name),
459 self.insert_spec(*id, (level, src));
461 if let Level::Expect(expect_id) = level {
462 self.lint_expectations.push((
464 LintExpectation::new(reason, sp, false, tool_name),
469 // If Tool(Err(None, _)) is returned, then either the lint does not
470 // exist in the tool or the code was not compiled with the tool and
471 // therefore the lint was never added to the `LintStore`. To detect
472 // this is the responsibility of the lint tool.
477 &CheckLintNameResult::NoTool => {
478 let mut err = struct_span_err!(
480 tool_ident.map_or(DUMMY_SP, |ident| ident.span),
482 "unknown tool name `{}` found in scoped lint: `{}::{}`",
485 pprust::path_to_string(&meta_item.path),
487 if sess.is_nightly_build() {
489 "add `#![register_tool({})]` to the crate root",
497 _ if !self.warn_about_weird_lints => {}
499 CheckLintNameResult::Warning(msg, renamed) => {
500 let lint = builtin::RENAMED_AND_REMOVED_LINTS;
501 let (renamed_lint_level, src) = self.sets.get_lint_level(
504 Some(self.current_specs()),
514 let mut err = lint.build(&msg);
515 if let Some(new_name) = &renamed {
520 Applicability::MachineApplicable,
527 CheckLintNameResult::NoLint(suggestion) => {
528 let lint = builtin::UNKNOWN_LINTS;
529 let (level, src) = self.sets.get_lint_level(
532 Some(self.current_specs()),
535 struct_lint_level(self.sess, lint, level, src, Some(sp.into()), |lint| {
536 let name = if let Some(tool_ident) = tool_ident {
537 format!("{}::{}", tool_ident.name, name)
541 let mut db = lint.build(&format!("unknown lint: `{}`", name));
542 if let Some(suggestion) = suggestion {
547 Applicability::MachineApplicable,
554 // If this lint was renamed, apply the new lint instead of ignoring the attribute.
555 // This happens outside of the match because the new lint should be applied even if
556 // we don't warn about the name change.
557 if let CheckLintNameResult::Warning(_, Some(new_name)) = lint_result {
558 // Ignore any errors or warnings that happen because the new name is inaccurate
559 // NOTE: `new_name` already includes the tool name, so we don't have to add it again.
560 if let CheckLintNameResult::Ok(ids) =
561 self.store.check_lint_name(&new_name, None, self.registered_tools)
563 let src = LintLevelSource::Node(Symbol::intern(&new_name), sp, reason);
565 if self.check_gated_lint(id, attr.span) {
566 self.insert_spec(id, (level, src));
569 if let Level::Expect(expect_id) = level {
570 self.lint_expectations.push((
572 LintExpectation::new(reason, sp, false, tool_name),
576 panic!("renamed lint does not exist: {}", new_name);
583 for (id, &(level, ref src)) in self.current_specs().iter() {
584 if !id.lint.crate_level_only {
588 let LintLevelSource::Node(lint_attr_name, lint_attr_span, _) = *src else {
592 let lint = builtin::UNUSED_ATTRIBUTES;
593 let (lint_level, lint_src) =
594 self.sets.get_lint_level(lint, self.cur, Some(self.current_specs()), self.sess);
600 Some(lint_attr_span.into()),
602 let mut db = lint.build(&format!(
603 "{}({}) is ignored unless specified at crate level",
610 // don't set a separate error for every lint in the group
615 if self.current_specs().is_empty() {
616 self.sets.list.pop();
620 BuilderPush { prev, changed: prev != self.cur }
625 unstable_id: LintExpectationId,
628 ) -> LintExpectationId {
630 LintExpectationId::Stable { hir_id, attr_index: attr_index as u16, lint_index: None };
632 self.expectation_id_map.insert(unstable_id, stable_id);
637 /// Checks if the lint is gated on a feature that is not enabled.
639 /// Returns `true` if the lint's feature is enabled.
640 fn check_gated_lint(&self, lint_id: LintId, span: Span) -> bool {
641 if let Some(feature) = lint_id.lint.feature_gate {
642 if !self.sess.features_untracked().enabled(feature) {
643 let lint = builtin::UNKNOWN_LINTS;
644 let (level, src) = self.lint_level(builtin::UNKNOWN_LINTS);
645 struct_lint_level(self.sess, lint, level, src, Some(span.into()), |lint_db| {
647 lint_db.build(&format!("unknown lint: `{}`", lint_id.lint.name_lower()));
648 db.note(&format!("the `{}` lint is unstable", lint_id.lint.name_lower(),));
649 add_feature_diagnostics(&mut db, &self.sess.parse_sess, feature);
658 /// Called after `push` when the scope of a set of attributes are exited.
659 pub fn pop(&mut self, push: BuilderPush) {
660 self.cur = push.prev;
663 /// Find the lint level for a lint.
664 pub fn lint_level(&self, lint: &'static Lint) -> (Level, LintLevelSource) {
665 self.sets.get_lint_level(lint, self.cur, None, self.sess)
668 /// Used to emit a lint-related diagnostic based on the current state of
669 /// this lint context.
673 span: Option<MultiSpan>,
674 decorate: impl for<'a> FnOnce(LintDiagnosticBuilder<'a, ()>),
676 let (level, src) = self.lint_level(lint);
677 struct_lint_level(self.sess, lint, level, src, span, decorate)
680 /// Registers the ID provided with the current set of lints stored in
682 pub fn register_id(&mut self, id: HirId) {
683 self.id_to_set.insert(id, self.cur);
686 fn update_unstable_expectation_ids(&self) {
687 self.sess.diagnostic().update_unstable_expectation_id(&self.expectation_id_map);
690 pub fn build_map(self) -> LintLevelMap {
693 id_to_set: self.id_to_set,
694 lint_expectations: self.lint_expectations,
699 struct LintLevelMapBuilder<'tcx> {
700 levels: LintLevelsBuilder<'tcx>,
704 impl LintLevelMapBuilder<'_> {
705 fn with_lint_attrs<F>(&mut self, id: hir::HirId, f: F)
707 F: FnOnce(&mut Self),
709 let is_crate_hir = id == hir::CRATE_HIR_ID;
710 let attrs = self.tcx.hir().attrs(id);
711 let push = self.levels.push(attrs, is_crate_hir, Some(id));
714 self.levels.register_id(id);
717 self.levels.pop(push);
721 impl<'tcx> intravisit::Visitor<'tcx> for LintLevelMapBuilder<'tcx> {
722 type NestedFilter = nested_filter::All;
724 fn nested_visit_map(&mut self) -> Self::Map {
728 fn visit_param(&mut self, param: &'tcx hir::Param<'tcx>) {
729 self.with_lint_attrs(param.hir_id, |builder| {
730 intravisit::walk_param(builder, param);
734 fn visit_item(&mut self, it: &'tcx hir::Item<'tcx>) {
735 self.with_lint_attrs(it.hir_id(), |builder| {
736 intravisit::walk_item(builder, it);
740 fn visit_foreign_item(&mut self, it: &'tcx hir::ForeignItem<'tcx>) {
741 self.with_lint_attrs(it.hir_id(), |builder| {
742 intravisit::walk_foreign_item(builder, it);
746 fn visit_stmt(&mut self, e: &'tcx hir::Stmt<'tcx>) {
747 // We will call `with_lint_attrs` when we walk
748 // the `StmtKind`. The outer statement itself doesn't
749 // define the lint levels.
750 intravisit::walk_stmt(self, e);
753 fn visit_expr(&mut self, e: &'tcx hir::Expr<'tcx>) {
754 self.with_lint_attrs(e.hir_id, |builder| {
755 intravisit::walk_expr(builder, e);
759 fn visit_field_def(&mut self, s: &'tcx hir::FieldDef<'tcx>) {
760 self.with_lint_attrs(s.hir_id, |builder| {
761 intravisit::walk_field_def(builder, s);
767 v: &'tcx hir::Variant<'tcx>,
768 g: &'tcx hir::Generics<'tcx>,
771 self.with_lint_attrs(v.id, |builder| {
772 intravisit::walk_variant(builder, v, g, item_id);
776 fn visit_local(&mut self, l: &'tcx hir::Local<'tcx>) {
777 self.with_lint_attrs(l.hir_id, |builder| {
778 intravisit::walk_local(builder, l);
782 fn visit_arm(&mut self, a: &'tcx hir::Arm<'tcx>) {
783 self.with_lint_attrs(a.hir_id, |builder| {
784 intravisit::walk_arm(builder, a);
788 fn visit_trait_item(&mut self, trait_item: &'tcx hir::TraitItem<'tcx>) {
789 self.with_lint_attrs(trait_item.hir_id(), |builder| {
790 intravisit::walk_trait_item(builder, trait_item);
794 fn visit_impl_item(&mut self, impl_item: &'tcx hir::ImplItem<'tcx>) {
795 self.with_lint_attrs(impl_item.hir_id(), |builder| {
796 intravisit::walk_impl_item(builder, impl_item);
801 pub fn provide(providers: &mut Providers) {
802 providers.lint_levels = lint_levels;