compiler/rustc_lint/src/late.rs - rust - Git at Google

 //! Implementation of the late lint pass.
 //!
 //! The late lint pass Works on HIR nodes, towards the end of analysis (after
 //! borrow checking, etc.). These lints have full type information available.

 use std::any::Any;
 use std::cell::Cell;

 use rustc_data_structures::stack::ensure_sufficient_stack;
 use rustc_data_structures::sync::join;
 use rustc_hir::def_id::{LocalDefId, LocalModDefId};
 use rustc_hir::{self as hir, AmbigArg, HirId, intravisit as hir_visit};
 use rustc_middle::hir::nested_filter;
 use rustc_middle::ty::{self, TyCtxt};
 use rustc_session::Session;
 use rustc_session::lint::LintPass;
 use rustc_session::lint::builtin::HardwiredLints;
 use rustc_span::Span;
 use tracing::debug;

 use crate::passes::LateLintPassObject;
 use crate::{LateContext, LateLintPass, LintId, LintStore};

 /// Extract the [`LintStore`] from [`Session`].
 ///
 /// This function exists because [`Session::lint_store`] is type-erased.
 pub fn unerased_lint_store(sess: &Session) -> &LintStore {
     let store: &dyn Any = sess.lint_store.as_deref().unwrap();
     store.downcast_ref().unwrap()
 }

 macro_rules! lint_callback { ($cx:expr, $f:ident, $($args:expr),*) => ({
     $cx.pass.$f(&$cx.context, $($args),*);
 }) }

 /// Implements the AST traversal for late lint passes. `T` provides the
 /// `check_*` methods.
 struct LateContextAndPass<'tcx, T: LateLintPass<'tcx>> {
     context: LateContext<'tcx>,
     pass: T,
 }

 impl<'tcx, T: LateLintPass<'tcx>> LateContextAndPass<'tcx, T> {
     /// Merge the lints specified by any lint attributes into the
     /// current lint context, call the provided function, then reset the
     /// lints in effect to their previous state.
     fn with_lint_attrs<F>(&mut self, id: HirId, f: F)
     where
         F: FnOnce(&mut Self),
     {
         let attrs = self.context.tcx.hir_attrs(id);
         let prev = self.context.last_node_with_lint_attrs;
         self.context.last_node_with_lint_attrs = id;
         debug!("late context: enter_attrs({:?})", attrs);
         lint_callback!(self, check_attributes, attrs);
         for attr in attrs {
             lint_callback!(self, check_attribute, attr);
         }
         f(self);
         debug!("late context: exit_attrs({:?})", attrs);
         lint_callback!(self, check_attributes_post, attrs);
         self.context.last_node_with_lint_attrs = prev;
     }

     fn with_param_env<F>(&mut self, id: hir::OwnerId, f: F)
     where
         F: FnOnce(&mut Self),
     {
         let old_param_env = self.context.param_env;
         self.context.param_env = self.context.tcx.param_env(id);
         f(self);
         self.context.param_env = old_param_env;
     }

     fn process_mod(&mut self, m: &'tcx hir::Mod<'tcx>, n: HirId) {
         lint_callback!(self, check_mod, m, n);
         hir_visit::walk_mod(self, m);
     }
 }

 impl<'tcx, T: LateLintPass<'tcx>> hir_visit::Visitor<'tcx> for LateContextAndPass<'tcx, T> {
     type NestedFilter = nested_filter::All;

     /// Because lints are scoped lexically, we want to walk nested
     /// items in the context of the outer item, so enable
     /// deep-walking.
     fn maybe_tcx(&mut self) -> Self::MaybeTyCtxt {
         self.context.tcx
     }

     fn visit_nested_body(&mut self, body_id: hir::BodyId) {
         let old_enclosing_body = self.context.enclosing_body.replace(body_id);
         let old_cached_typeck_results = self.context.cached_typeck_results.get();

         // HACK(eddyb) avoid trashing `cached_typeck_results` when we're
         // nested in `visit_fn`, which may have already resulted in them
         // being queried.
         if old_enclosing_body != Some(body_id) {
             self.context.cached_typeck_results.set(None);
         }

         let body = self.context.tcx.hir_body(body_id);
         self.visit_body(body);
         self.context.enclosing_body = old_enclosing_body;

         // See HACK comment above.
         if old_enclosing_body != Some(body_id) {
             self.context.cached_typeck_results.set(old_cached_typeck_results);
         }
     }

     fn visit_param(&mut self, param: &'tcx hir::Param<'tcx>) {
         self.with_lint_attrs(param.hir_id, |cx| {
             hir_visit::walk_param(cx, param);
         });
     }

     fn visit_body(&mut self, body: &hir::Body<'tcx>) {
         lint_callback!(self, check_body, body);
         hir_visit::walk_body(self, body);
         lint_callback!(self, check_body_post, body);
     }

     fn visit_item(&mut self, it: &'tcx hir::Item<'tcx>) {
         let generics = self.context.generics.take();
         self.context.generics = it.kind.generics();
         let old_cached_typeck_results = self.context.cached_typeck_results.take();
         let old_enclosing_body = self.context.enclosing_body.take();
         self.with_lint_attrs(it.hir_id(), |cx| {
             cx.with_param_env(it.owner_id, |cx| {
                 lint_callback!(cx, check_item, it);
                 hir_visit::walk_item(cx, it);
                 lint_callback!(cx, check_item_post, it);
             });
         });
         self.context.enclosing_body = old_enclosing_body;
         self.context.cached_typeck_results.set(old_cached_typeck_results);
         self.context.generics = generics;
     }

     fn visit_foreign_item(&mut self, it: &'tcx hir::ForeignItem<'tcx>) {
         self.with_lint_attrs(it.hir_id(), |cx| {
             cx.with_param_env(it.owner_id, |cx| {
                 lint_callback!(cx, check_foreign_item, it);
                 hir_visit::walk_foreign_item(cx, it);
             });
         })
     }

     fn visit_pat(&mut self, p: &'tcx hir::Pat<'tcx>) {
         lint_callback!(self, check_pat, p);
         hir_visit::walk_pat(self, p);
     }

     fn visit_lit(&mut self, hir_id: HirId, lit: hir::Lit, negated: bool) {
         lint_callback!(self, check_lit, hir_id, lit, negated);
     }

     fn visit_expr_field(&mut self, field: &'tcx hir::ExprField<'tcx>) {
         self.with_lint_attrs(field.hir_id, |cx| hir_visit::walk_expr_field(cx, field))
     }

     fn visit_expr(&mut self, e: &'tcx hir::Expr<'tcx>) {
         ensure_sufficient_stack(|| {
             self.with_lint_attrs(e.hir_id, |cx| {
                 lint_callback!(cx, check_expr, e);
                 hir_visit::walk_expr(cx, e);
                 lint_callback!(cx, check_expr_post, e);
             })
         })
     }

     fn visit_stmt(&mut self, s: &'tcx hir::Stmt<'tcx>) {
         // See `EarlyContextAndPass::visit_stmt` for an explanation
         // of why we call `walk_stmt` outside of `with_lint_attrs`
         self.with_lint_attrs(s.hir_id, |cx| {
             lint_callback!(cx, check_stmt, s);
         });
         hir_visit::walk_stmt(self, s);
     }

     fn visit_fn(
         &mut self,
         fk: hir_visit::FnKind<'tcx>,
         decl: &'tcx hir::FnDecl<'tcx>,
         body_id: hir::BodyId,
         span: Span,
         id: LocalDefId,
     ) {
         // Wrap in typeck results here, not just in visit_nested_body,
         // in order for `check_fn` to be able to use them.
         let old_enclosing_body = self.context.enclosing_body.replace(body_id);
         let old_cached_typeck_results = self.context.cached_typeck_results.take();
         let body = self.context.tcx.hir_body(body_id);
         lint_callback!(self, check_fn, fk, decl, body, span, id);
         hir_visit::walk_fn(self, fk, decl, body_id, id);
         self.context.enclosing_body = old_enclosing_body;
         self.context.cached_typeck_results.set(old_cached_typeck_results);
     }

     fn visit_variant_data(&mut self, s: &'tcx hir::VariantData<'tcx>) {
         lint_callback!(self, check_struct_def, s);
         hir_visit::walk_struct_def(self, s);
     }

     fn visit_field_def(&mut self, s: &'tcx hir::FieldDef<'tcx>) {
         self.with_lint_attrs(s.hir_id, |cx| {
             lint_callback!(cx, check_field_def, s);
             hir_visit::walk_field_def(cx, s);
         })
     }

     fn visit_variant(&mut self, v: &'tcx hir::Variant<'tcx>) {
         self.with_lint_attrs(v.hir_id, |cx| {
             lint_callback!(cx, check_variant, v);
             hir_visit::walk_variant(cx, v);
         })
     }

     fn visit_ty(&mut self, t: &'tcx hir::Ty<'tcx, AmbigArg>) {
         lint_callback!(self, check_ty, t);
         hir_visit::walk_ty(self, t);
     }

     fn visit_mod(&mut self, m: &'tcx hir::Mod<'tcx>, _: Span, n: HirId) {
         if !self.context.only_module {
             self.process_mod(m, n);
         }
     }

     fn visit_local(&mut self, l: &'tcx hir::LetStmt<'tcx>) {
         self.with_lint_attrs(l.hir_id, |cx| {
             lint_callback!(cx, check_local, l);
             hir_visit::walk_local(cx, l);
         })
     }

     fn visit_block(&mut self, b: &'tcx hir::Block<'tcx>) {
         lint_callback!(self, check_block, b);
         hir_visit::walk_block(self, b);
         lint_callback!(self, check_block_post, b);
     }

     fn visit_arm(&mut self, a: &'tcx hir::Arm<'tcx>) {
         self.with_lint_attrs(a.hir_id, |cx| {
             lint_callback!(cx, check_arm, a);
             hir_visit::walk_arm(cx, a);
         })
     }

     fn visit_generic_param(&mut self, p: &'tcx hir::GenericParam<'tcx>) {
         lint_callback!(self, check_generic_param, p);
         hir_visit::walk_generic_param(self, p);
     }

     fn visit_generics(&mut self, g: &'tcx hir::Generics<'tcx>) {
         lint_callback!(self, check_generics, g);
         hir_visit::walk_generics(self, g);
     }

     fn visit_where_predicate(&mut self, p: &'tcx hir::WherePredicate<'tcx>) {
         hir_visit::walk_where_predicate(self, p);
     }

     fn visit_poly_trait_ref(&mut self, t: &'tcx hir::PolyTraitRef<'tcx>) {
         lint_callback!(self, check_poly_trait_ref, t);
         hir_visit::walk_poly_trait_ref(self, t);
     }

     fn visit_trait_item(&mut self, trait_item: &'tcx hir::TraitItem<'tcx>) {
         let generics = self.context.generics.take();
         self.context.generics = Some(trait_item.generics);
         self.with_lint_attrs(trait_item.hir_id(), |cx| {
             cx.with_param_env(trait_item.owner_id, |cx| {
                 lint_callback!(cx, check_trait_item, trait_item);
                 hir_visit::walk_trait_item(cx, trait_item);
             });
         });
         self.context.generics = generics;
     }

     fn visit_impl_item(&mut self, impl_item: &'tcx hir::ImplItem<'tcx>) {
         let generics = self.context.generics.take();
         self.context.generics = Some(impl_item.generics);
         self.with_lint_attrs(impl_item.hir_id(), |cx| {
             cx.with_param_env(impl_item.owner_id, |cx| {
                 lint_callback!(cx, check_impl_item, impl_item);
                 hir_visit::walk_impl_item(cx, impl_item);
                 lint_callback!(cx, check_impl_item_post, impl_item);
             });
         });
         self.context.generics = generics;
     }

     fn visit_lifetime(&mut self, lt: &'tcx hir::Lifetime) {
         hir_visit::walk_lifetime(self, lt);
     }

     fn visit_path(&mut self, p: &hir::Path<'tcx>, id: HirId) {
         lint_callback!(self, check_path, p, id);
         hir_visit::walk_path(self, p);
     }
 }

 // Combines multiple lint passes into a single pass, at runtime. Each
 // `check_foo` method in `$methods` within this pass simply calls `check_foo`
 // once per `$pass`. Compare with `declare_combined_late_lint_pass`, which is
 // similar, but combines lint passes at compile time.
 struct RuntimeCombinedLateLintPass<'a, 'tcx> {
     passes: &'a mut [LateLintPassObject<'tcx>],
 }

 #[allow(rustc::lint_pass_impl_without_macro)]
 impl LintPass for RuntimeCombinedLateLintPass<'_, '_> {
     fn name(&self) -> &'static str {
         panic!()
     }
     fn get_lints(&self) -> crate::LintVec {
         panic!()
     }
 }

 macro_rules! impl_late_lint_pass {
     ([], [$($(#[$attr:meta])* fn $f:ident($($param:ident: $arg:ty),*);)*]) => {
         impl<'tcx> LateLintPass<'tcx> for RuntimeCombinedLateLintPass<'_, 'tcx> {
             $(fn $f(&mut self, context: &LateContext<'tcx>, $($param: $arg),*) {
                 for pass in self.passes.iter_mut() {
                     pass.$f(context, $($param),*);
                 }
             })*
         }
     };
 }

 crate::late_lint_methods!(impl_late_lint_pass, []);

 pub fn late_lint_mod<'tcx, T: LateLintPass<'tcx> + 'tcx>(
     tcx: TyCtxt<'tcx>,
     module_def_id: LocalModDefId,
     builtin_lints: T,
 ) {
     let context = LateContext {
         tcx,
         enclosing_body: None,
         cached_typeck_results: Cell::new(None),
         param_env: ty::ParamEnv::empty(),
         effective_visibilities: tcx.effective_visibilities(()),
         last_node_with_lint_attrs: tcx.local_def_id_to_hir_id(module_def_id),
         generics: None,
         only_module: true,
     };

     // Note: `passes` is often empty. In that case, it's faster to run
     // `builtin_lints` directly rather than bundling it up into the
     // `RuntimeCombinedLateLintPass`.
     let store = unerased_lint_store(tcx.sess);

     if store.late_module_passes.is_empty() {
         // If all builtin lints can be skipped, there is no point in running `late_lint_mod_inner`
         // at all. This happens often for dependencies built with `--cap-lints=allow`.
         let dont_need_to_run = tcx.lints_that_dont_need_to_run(());
         let can_skip_lints = builtin_lints
             .get_lints()
             .iter()
             .all(|lint| dont_need_to_run.contains(&LintId::of(lint)));
         if !can_skip_lints {
             late_lint_mod_inner(tcx, module_def_id, context, builtin_lints);
         }
     } else {
         let builtin_lints = Box::new(builtin_lints) as Box<dyn LateLintPass<'tcx>>;
         let mut binding = store
             .late_module_passes
             .iter()
             .map(|mk_pass| (mk_pass)(tcx))
             .chain(std::iter::once(builtin_lints))
             .collect::<Vec<_>>();

         let pass = RuntimeCombinedLateLintPass { passes: binding.as_mut_slice() };
         late_lint_mod_inner(tcx, module_def_id, context, pass);
     }
 }

 fn late_lint_mod_inner<'tcx, T: LateLintPass<'tcx>>(
     tcx: TyCtxt<'tcx>,
     module_def_id: LocalModDefId,
     context: LateContext<'tcx>,
     pass: T,
 ) {
     let mut cx = LateContextAndPass { context, pass };

     let (module, _span, hir_id) = tcx.hir_get_module(module_def_id);

     cx.with_lint_attrs(hir_id, |cx| {
         // There is no module lint that will have the crate itself as an item, so check it here.
         if hir_id == hir::CRATE_HIR_ID {
             lint_callback!(cx, check_crate,);
         }

         cx.process_mod(module, hir_id);

         if hir_id == hir::CRATE_HIR_ID {
             lint_callback!(cx, check_crate_post,);
         }
     });
 }

 fn late_lint_crate<'tcx>(tcx: TyCtxt<'tcx>) {
     // Note: `passes` is often empty.
     let passes: Vec<_> =
         unerased_lint_store(tcx.sess).late_passes.iter().map(|mk_pass| (mk_pass)(tcx)).collect();

     if passes.is_empty() {
         return;
     }

     let context = LateContext {
         tcx,
         enclosing_body: None,
         cached_typeck_results: Cell::new(None),
         param_env: ty::ParamEnv::empty(),
         effective_visibilities: tcx.effective_visibilities(()),
         last_node_with_lint_attrs: hir::CRATE_HIR_ID,
         generics: None,
         only_module: false,
     };

     let lints_that_dont_need_to_run = tcx.lints_that_dont_need_to_run(());

     let mut filtered_passes: Vec<Box<dyn LateLintPass<'tcx>>> = passes
         .into_iter()
         .filter(|pass| {
             let lints = (**pass).get_lints();
             // Lintless passes are always in
             lints.is_empty() ||
             // If the pass doesn't have a single needed lint, omit it
             !lints.iter().all(|lint| lints_that_dont_need_to_run.contains(&LintId::of(lint)))
         })
         .collect();

     filtered_passes.push(Box::new(HardwiredLints));
     let pass = RuntimeCombinedLateLintPass { passes: &mut filtered_passes[..] };
     late_lint_crate_inner(tcx, context, pass);
 }

 fn late_lint_crate_inner<'tcx, T: LateLintPass<'tcx>>(
     tcx: TyCtxt<'tcx>,
     context: LateContext<'tcx>,
     pass: T,
 ) {
     let mut cx = LateContextAndPass { context, pass };

     // Visit the whole crate.
     cx.with_lint_attrs(hir::CRATE_HIR_ID, |cx| {
         // Since the root module isn't visited as an item (because it isn't an
         // item), warn for it here.
         lint_callback!(cx, check_crate,);
         tcx.hir_walk_toplevel_module(cx);
         lint_callback!(cx, check_crate_post,);
     })
 }

 /// Performs lint checking on a crate.
 pub fn check_crate<'tcx>(tcx: TyCtxt<'tcx>) {
     join(
         || {
             tcx.sess.time("crate_lints", || {
                 // Run whole crate non-incremental lints
                 late_lint_crate(tcx);
             });
         },
         || {
             tcx.sess.time("module_lints", || {
                 // Run per-module lints
                 tcx.par_hir_for_each_module(|module| tcx.ensure_ok().lint_mod(module));
             });
         },
     );
 }
	//! Implementation of the late lint pass.
	//!
	//! The late lint pass Works on HIR nodes, towards the end of analysis (after
	//! borrow checking, etc.). These lints have full type information available.

	use std::any::Any;
	use std::cell::Cell;

	use rustc_data_structures::stack::ensure_sufficient_stack;
	use rustc_data_structures::sync::join;
	use rustc_hir::def_id::{LocalDefId, LocalModDefId};
	use rustc_hir::{self as hir, AmbigArg, HirId, intravisit as hir_visit};
	use rustc_middle::hir::nested_filter;
	use rustc_middle::ty::{self, TyCtxt};
	use rustc_session::Session;
	use rustc_session::lint::LintPass;
	use rustc_session::lint::builtin::HardwiredLints;
	use rustc_span::Span;
	use tracing::debug;

	use crate::passes::LateLintPassObject;
	use crate::{LateContext, LateLintPass, LintId, LintStore};

	/// Extract the [`LintStore`] from [`Session`].
	///
	/// This function exists because [`Session::lint_store`] is type-erased.
	pub fn unerased_lint_store(sess: &Session) -> &LintStore {
	let store: &dyn Any = sess.lint_store.as_deref().unwrap();
	store.downcast_ref().unwrap()
	}

	macro_rules! lint_callback { ($cx:expr, $f:ident, $($args:expr),*) => ({
	$cx.pass.$f(&$cx.context, $($args),*);
	}) }

	/// Implements the AST traversal for late lint passes. `T` provides the
	/// `check_*` methods.
	struct LateContextAndPass<'tcx, T: LateLintPass<'tcx>> {
	context: LateContext<'tcx>,
	pass: T,
	}

	impl<'tcx, T: LateLintPass<'tcx>> LateContextAndPass<'tcx, T> {
	/// Merge the lints specified by any lint attributes into the
	/// current lint context, call the provided function, then reset the
	/// lints in effect to their previous state.
	fn with_lint_attrs<F>(&mut self, id: HirId, f: F)
	where
	F: FnOnce(&mut Self),
	{
	let attrs = self.context.tcx.hir_attrs(id);
	let prev = self.context.last_node_with_lint_attrs;
	self.context.last_node_with_lint_attrs = id;
	debug!("late context: enter_attrs({:?})", attrs);
	lint_callback!(self, check_attributes, attrs);
	for attr in attrs {
	lint_callback!(self, check_attribute, attr);
	}
	f(self);
	debug!("late context: exit_attrs({:?})", attrs);
	lint_callback!(self, check_attributes_post, attrs);
	self.context.last_node_with_lint_attrs = prev;
	}

	fn with_param_env<F>(&mut self, id: hir::OwnerId, f: F)
	where
	F: FnOnce(&mut Self),
	{
	let old_param_env = self.context.param_env;
	self.context.param_env = self.context.tcx.param_env(id);
	f(self);
	self.context.param_env = old_param_env;
	}

	fn process_mod(&mut self, m: &'tcx hir::Mod<'tcx>, n: HirId) {
	lint_callback!(self, check_mod, m, n);
	hir_visit::walk_mod(self, m);
	}
	}

	impl<'tcx, T: LateLintPass<'tcx>> hir_visit::Visitor<'tcx> for LateContextAndPass<'tcx, T> {
	type NestedFilter = nested_filter::All;

	/// Because lints are scoped lexically, we want to walk nested
	/// items in the context of the outer item, so enable
	/// deep-walking.
	fn maybe_tcx(&mut self) -> Self::MaybeTyCtxt {
	self.context.tcx
	}

	fn visit_nested_body(&mut self, body_id: hir::BodyId) {
	let old_enclosing_body = self.context.enclosing_body.replace(body_id);
	let old_cached_typeck_results = self.context.cached_typeck_results.get();

	// HACK(eddyb) avoid trashing `cached_typeck_results` when we're
	// nested in `visit_fn`, which may have already resulted in them
	// being queried.
	if old_enclosing_body != Some(body_id) {
	self.context.cached_typeck_results.set(None);
	}

	let body = self.context.tcx.hir_body(body_id);
	self.visit_body(body);
	self.context.enclosing_body = old_enclosing_body;

	// See HACK comment above.
	if old_enclosing_body != Some(body_id) {
	self.context.cached_typeck_results.set(old_cached_typeck_results);
	}
	}

	fn visit_param(&mut self, param: &'tcx hir::Param<'tcx>) {
	self.with_lint_attrs(param.hir_id, \|cx\| {
	hir_visit::walk_param(cx, param);
	});
	}

	fn visit_body(&mut self, body: &hir::Body<'tcx>) {
	lint_callback!(self, check_body, body);
	hir_visit::walk_body(self, body);
	lint_callback!(self, check_body_post, body);
	}

	fn visit_item(&mut self, it: &'tcx hir::Item<'tcx>) {
	let generics = self.context.generics.take();
	self.context.generics = it.kind.generics();
	let old_cached_typeck_results = self.context.cached_typeck_results.take();
	let old_enclosing_body = self.context.enclosing_body.take();
	self.with_lint_attrs(it.hir_id(), \|cx\| {
	cx.with_param_env(it.owner_id, \|cx\| {
	lint_callback!(cx, check_item, it);
	hir_visit::walk_item(cx, it);
	lint_callback!(cx, check_item_post, it);
	});
	});
	self.context.enclosing_body = old_enclosing_body;
	self.context.cached_typeck_results.set(old_cached_typeck_results);
	self.context.generics = generics;
	}

	fn visit_foreign_item(&mut self, it: &'tcx hir::ForeignItem<'tcx>) {
	self.with_lint_attrs(it.hir_id(), \|cx\| {
	cx.with_param_env(it.owner_id, \|cx\| {
	lint_callback!(cx, check_foreign_item, it);
	hir_visit::walk_foreign_item(cx, it);
	});
	})
	}

	fn visit_pat(&mut self, p: &'tcx hir::Pat<'tcx>) {
	lint_callback!(self, check_pat, p);
	hir_visit::walk_pat(self, p);
	}

	fn visit_lit(&mut self, hir_id: HirId, lit: hir::Lit, negated: bool) {
	lint_callback!(self, check_lit, hir_id, lit, negated);
	}

	fn visit_expr_field(&mut self, field: &'tcx hir::ExprField<'tcx>) {
	self.with_lint_attrs(field.hir_id, \|cx\| hir_visit::walk_expr_field(cx, field))
	}

	fn visit_expr(&mut self, e: &'tcx hir::Expr<'tcx>) {
	ensure_sufficient_stack(\|\| {
	self.with_lint_attrs(e.hir_id, \|cx\| {
	lint_callback!(cx, check_expr, e);
	hir_visit::walk_expr(cx, e);
	lint_callback!(cx, check_expr_post, e);
	})
	})
	}

	fn visit_stmt(&mut self, s: &'tcx hir::Stmt<'tcx>) {
	// See `EarlyContextAndPass::visit_stmt` for an explanation
	// of why we call `walk_stmt` outside of `with_lint_attrs`
	self.with_lint_attrs(s.hir_id, \|cx\| {
	lint_callback!(cx, check_stmt, s);
	});
	hir_visit::walk_stmt(self, s);
	}

	fn visit_fn(
	&mut self,
	fk: hir_visit::FnKind<'tcx>,
	decl: &'tcx hir::FnDecl<'tcx>,
	body_id: hir::BodyId,
	span: Span,
	id: LocalDefId,
	) {
	// Wrap in typeck results here, not just in visit_nested_body,
	// in order for `check_fn` to be able to use them.
	let old_enclosing_body = self.context.enclosing_body.replace(body_id);
	let old_cached_typeck_results = self.context.cached_typeck_results.take();
	let body = self.context.tcx.hir_body(body_id);
	lint_callback!(self, check_fn, fk, decl, body, span, id);
	hir_visit::walk_fn(self, fk, decl, body_id, id);
	self.context.enclosing_body = old_enclosing_body;
	self.context.cached_typeck_results.set(old_cached_typeck_results);
	}

	fn visit_variant_data(&mut self, s: &'tcx hir::VariantData<'tcx>) {
	lint_callback!(self, check_struct_def, s);
	hir_visit::walk_struct_def(self, s);
	}

	fn visit_field_def(&mut self, s: &'tcx hir::FieldDef<'tcx>) {
	self.with_lint_attrs(s.hir_id, \|cx\| {
	lint_callback!(cx, check_field_def, s);
	hir_visit::walk_field_def(cx, s);
	})
	}

	fn visit_variant(&mut self, v: &'tcx hir::Variant<'tcx>) {
	self.with_lint_attrs(v.hir_id, \|cx\| {
	lint_callback!(cx, check_variant, v);
	hir_visit::walk_variant(cx, v);
	})
	}

	fn visit_ty(&mut self, t: &'tcx hir::Ty<'tcx, AmbigArg>) {
	lint_callback!(self, check_ty, t);
	hir_visit::walk_ty(self, t);
	}

	fn visit_mod(&mut self, m: &'tcx hir::Mod<'tcx>, _: Span, n: HirId) {
	if !self.context.only_module {
	self.process_mod(m, n);
	}
	}

	fn visit_local(&mut self, l: &'tcx hir::LetStmt<'tcx>) {
	self.with_lint_attrs(l.hir_id, \|cx\| {
	lint_callback!(cx, check_local, l);
	hir_visit::walk_local(cx, l);
	})
	}

	fn visit_block(&mut self, b: &'tcx hir::Block<'tcx>) {
	lint_callback!(self, check_block, b);
	hir_visit::walk_block(self, b);
	lint_callback!(self, check_block_post, b);
	}

	fn visit_arm(&mut self, a: &'tcx hir::Arm<'tcx>) {
	self.with_lint_attrs(a.hir_id, \|cx\| {
	lint_callback!(cx, check_arm, a);
	hir_visit::walk_arm(cx, a);
	})
	}

	fn visit_generic_param(&mut self, p: &'tcx hir::GenericParam<'tcx>) {
	lint_callback!(self, check_generic_param, p);
	hir_visit::walk_generic_param(self, p);
	}

	fn visit_generics(&mut self, g: &'tcx hir::Generics<'tcx>) {
	lint_callback!(self, check_generics, g);
	hir_visit::walk_generics(self, g);
	}

	fn visit_where_predicate(&mut self, p: &'tcx hir::WherePredicate<'tcx>) {
	hir_visit::walk_where_predicate(self, p);
	}

	fn visit_poly_trait_ref(&mut self, t: &'tcx hir::PolyTraitRef<'tcx>) {
	lint_callback!(self, check_poly_trait_ref, t);
	hir_visit::walk_poly_trait_ref(self, t);
	}

	fn visit_trait_item(&mut self, trait_item: &'tcx hir::TraitItem<'tcx>) {
	let generics = self.context.generics.take();
	self.context.generics = Some(trait_item.generics);
	self.with_lint_attrs(trait_item.hir_id(), \|cx\| {
	cx.with_param_env(trait_item.owner_id, \|cx\| {
	lint_callback!(cx, check_trait_item, trait_item);
	hir_visit::walk_trait_item(cx, trait_item);
	});
	});
	self.context.generics = generics;
	}

	fn visit_impl_item(&mut self, impl_item: &'tcx hir::ImplItem<'tcx>) {
	let generics = self.context.generics.take();
	self.context.generics = Some(impl_item.generics);
	self.with_lint_attrs(impl_item.hir_id(), \|cx\| {
	cx.with_param_env(impl_item.owner_id, \|cx\| {
	lint_callback!(cx, check_impl_item, impl_item);
	hir_visit::walk_impl_item(cx, impl_item);
	lint_callback!(cx, check_impl_item_post, impl_item);
	});
	});
	self.context.generics = generics;
	}

	fn visit_lifetime(&mut self, lt: &'tcx hir::Lifetime) {
	hir_visit::walk_lifetime(self, lt);
	}

	fn visit_path(&mut self, p: &hir::Path<'tcx>, id: HirId) {
	lint_callback!(self, check_path, p, id);
	hir_visit::walk_path(self, p);
	}
	}

	// Combines multiple lint passes into a single pass, at runtime. Each
	// `check_foo` method in `$methods` within this pass simply calls `check_foo`
	// once per `$pass`. Compare with `declare_combined_late_lint_pass`, which is
	// similar, but combines lint passes at compile time.
	struct RuntimeCombinedLateLintPass<'a, 'tcx> {
	passes: &'a mut [LateLintPassObject<'tcx>],
	}

	#[allow(rustc::lint_pass_impl_without_macro)]
	impl LintPass for RuntimeCombinedLateLintPass<'_, '_> {
	fn name(&self) -> &'static str {
	panic!()
	}
	fn get_lints(&self) -> crate::LintVec {
	panic!()
	}
	}

	macro_rules! impl_late_lint_pass {
	([], [$($(#[$attr:meta])* fn $f:ident($($param:ident: $arg:ty),);)]) => {
	impl<'tcx> LateLintPass<'tcx> for RuntimeCombinedLateLintPass<'_, 'tcx> {
	$(fn $f(&mut self, context: &LateContext<'tcx>, $($param: $arg),*) {
	for pass in self.passes.iter_mut() {
	pass.$f(context, $($param),*);
	}
	})*
	}
	};
	}

	crate::late_lint_methods!(impl_late_lint_pass, []);

	pub fn late_lint_mod<'tcx, T: LateLintPass<'tcx> + 'tcx>(
	tcx: TyCtxt<'tcx>,
	module_def_id: LocalModDefId,
	builtin_lints: T,
	) {
	let context = LateContext {
	tcx,
	enclosing_body: None,
	cached_typeck_results: Cell::new(None),
	param_env: ty::ParamEnv::empty(),
	effective_visibilities: tcx.effective_visibilities(()),
	last_node_with_lint_attrs: tcx.local_def_id_to_hir_id(module_def_id),
	generics: None,
	only_module: true,
	};

	// Note: `passes` is often empty. In that case, it's faster to run
	// `builtin_lints` directly rather than bundling it up into the
	// `RuntimeCombinedLateLintPass`.
	let store = unerased_lint_store(tcx.sess);

	if store.late_module_passes.is_empty() {
	// If all builtin lints can be skipped, there is no point in running `late_lint_mod_inner`
	// at all. This happens often for dependencies built with `--cap-lints=allow`.
	let dont_need_to_run = tcx.lints_that_dont_need_to_run(());
	let can_skip_lints = builtin_lints
	.get_lints()
	.iter()
	.all(\|lint\| dont_need_to_run.contains(&LintId::of(lint)));
	if !can_skip_lints {
	late_lint_mod_inner(tcx, module_def_id, context, builtin_lints);
	}
	} else {
	let builtin_lints = Box::new(builtin_lints) as Box<dyn LateLintPass<'tcx>>;
	let mut binding = store
	.late_module_passes
	.iter()
	.map(\|mk_pass\| (mk_pass)(tcx))
	.chain(std::iter::once(builtin_lints))
	.collect::<Vec<_>>();

	let pass = RuntimeCombinedLateLintPass { passes: binding.as_mut_slice() };
	late_lint_mod_inner(tcx, module_def_id, context, pass);
	}
	}

	fn late_lint_mod_inner<'tcx, T: LateLintPass<'tcx>>(
	tcx: TyCtxt<'tcx>,
	module_def_id: LocalModDefId,
	context: LateContext<'tcx>,
	pass: T,
	) {
	let mut cx = LateContextAndPass { context, pass };

	let (module, _span, hir_id) = tcx.hir_get_module(module_def_id);

	cx.with_lint_attrs(hir_id, \|cx\| {
	// There is no module lint that will have the crate itself as an item, so check it here.
	if hir_id == hir::CRATE_HIR_ID {
	lint_callback!(cx, check_crate,);
	}

	cx.process_mod(module, hir_id);

	if hir_id == hir::CRATE_HIR_ID {
	lint_callback!(cx, check_crate_post,);
	}
	});
	}

	fn late_lint_crate<'tcx>(tcx: TyCtxt<'tcx>) {
	// Note: `passes` is often empty.
	let passes: Vec<_> =
	unerased_lint_store(tcx.sess).late_passes.iter().map(\|mk_pass\| (mk_pass)(tcx)).collect();

	if passes.is_empty() {
	return;
	}

	let context = LateContext {
	tcx,
	enclosing_body: None,
	cached_typeck_results: Cell::new(None),
	param_env: ty::ParamEnv::empty(),
	effective_visibilities: tcx.effective_visibilities(()),
	last_node_with_lint_attrs: hir::CRATE_HIR_ID,
	generics: None,
	only_module: false,
	};

	let lints_that_dont_need_to_run = tcx.lints_that_dont_need_to_run(());

	let mut filtered_passes: Vec<Box<dyn LateLintPass<'tcx>>> = passes
	.into_iter()
	.filter(\|pass\| {
	let lints = (**pass).get_lints();
	// Lintless passes are always in
	lints.is_empty() \|\|
	// If the pass doesn't have a single needed lint, omit it
	!lints.iter().all(\|lint\| lints_that_dont_need_to_run.contains(&LintId::of(lint)))
	})
	.collect();

	filtered_passes.push(Box::new(HardwiredLints));
	let pass = RuntimeCombinedLateLintPass { passes: &mut filtered_passes[..] };
	late_lint_crate_inner(tcx, context, pass);
	}

	fn late_lint_crate_inner<'tcx, T: LateLintPass<'tcx>>(
	tcx: TyCtxt<'tcx>,
	context: LateContext<'tcx>,
	pass: T,
	) {
	let mut cx = LateContextAndPass { context, pass };

	// Visit the whole crate.
	cx.with_lint_attrs(hir::CRATE_HIR_ID, \|cx\| {
	// Since the root module isn't visited as an item (because it isn't an
	// item), warn for it here.
	lint_callback!(cx, check_crate,);
	tcx.hir_walk_toplevel_module(cx);
	lint_callback!(cx, check_crate_post,);
	})
	}

	/// Performs lint checking on a crate.
	pub fn check_crate<'tcx>(tcx: TyCtxt<'tcx>) {
	join(
	\|\| {
	tcx.sess.time("crate_lints", \|\| {
	// Run whole crate non-incremental lints
	late_lint_crate(tcx);
	});
	},
	\|\| {
	tcx.sess.time("module_lints", \|\| {
	// Run per-module lints
	tcx.par_hir_for_each_module(\|module\| tcx.ensure_ok().lint_mod(module));
	});
	},
	);
	}