//! Lints, aka compiler warnings. //! //! A 'lint' check is a kind of miscellaneous constraint that a user _might_ //! want to enforce, but might reasonably want to permit as well, on a //! module-by-module basis. They contrast with static constraints enforced by //! other phases of the compiler, which are generally required to hold in order //! to compile the program at all. //! //! Most lints can be written as `LintPass` instances. These run after //! all other analyses. The `LintPass`es built into rustc are defined //! within `builtin.rs`, which has further comments on how to add such a lint. //! rustc can also load user-defined lint plugins via the plugin mechanism. //! //! Some of rustc's lints are defined elsewhere in the compiler and work by //! calling `add_lint()` on the overall `Session` object. This works when //! it happens before the main lint pass, which emits the lints stored by //! `add_lint()`. To emit lints after the main lint pass (from codegen, for //! example) requires more effort. See `emit_lint` and `GatherNodeLevels` //! in `context.rs`. pub use self::Level::*; pub use self::LintSource::*; use rustc_data_structures::sync; use crate::hir::def_id::{CrateNum, LOCAL_CRATE}; use crate::hir::intravisit; use crate::hir; use crate::lint::builtin::BuiltinLintDiagnostics; use crate::lint::builtin::parser::{ILL_FORMED_ATTRIBUTE_INPUT, META_VARIABLE_MISUSE}; use crate::lint::builtin::parser::INCOMPLETE_INCLUDE; use crate::session::{Session, DiagnosticMessageId}; use crate::ty::TyCtxt; use crate::ty::query::Providers; use crate::util::nodemap::NodeMap; use errors::{DiagnosticBuilder, DiagnosticId}; use std::{hash, ptr}; use syntax::ast; use syntax::source_map::{MultiSpan, ExpnKind, DesugaringKind}; use syntax::early_buffered_lints::BufferedEarlyLintId; use syntax::edition::Edition; use syntax::symbol::{Symbol, sym}; use syntax_pos::hygiene::MacroKind; use syntax_pos::Span; pub use crate::lint::context::{LateContext, EarlyContext, LintContext, LintStore, check_crate, check_ast_crate, late_lint_mod, CheckLintNameResult, BufferedEarlyLint,}; /// Specification of a single lint. #[derive(Copy, Clone, Debug)] pub struct Lint { /// A string identifier for the lint. /// /// This identifies the lint in attributes and in command-line arguments. /// In those contexts it is always lowercase, but this field is compared /// in a way which is case-insensitive for ASCII characters. This allows /// `declare_lint!()` invocations to follow the convention of upper-case /// statics without repeating the name. /// /// The name is written with underscores, e.g., "unused_imports". /// On the command line, underscores become dashes. pub name: &'static str, /// Default level for the lint. pub default_level: Level, /// Description of the lint or the issue it detects. /// /// e.g., "imports that are never used" pub desc: &'static str, /// Starting at the given edition, default to the given lint level. If this is `None`, then use /// `default_level`. pub edition_lint_opts: Option<(Edition, Level)>, /// `true` if this lint is reported even inside expansions of external macros. pub report_in_external_macro: bool, pub future_incompatible: Option, pub is_plugin: bool, } /// Extra information for a future incompatibility lint. #[derive(Copy, Clone, Debug)] pub struct FutureIncompatibleInfo { /// e.g., a URL for an issue/PR/RFC or error code pub reference: &'static str, /// If this is an edition fixing lint, the edition in which /// this lint becomes obsolete pub edition: Option, } impl Lint { pub const fn default_fields_for_macro() -> Self { Lint { name: "", default_level: Level::Forbid, desc: "", edition_lint_opts: None, is_plugin: false, report_in_external_macro: false, future_incompatible: None, } } /// Returns the `rust::lint::Lint` for a `syntax::early_buffered_lints::BufferedEarlyLintId`. pub fn from_parser_lint_id(lint_id: BufferedEarlyLintId) -> &'static Self { match lint_id { BufferedEarlyLintId::IllFormedAttributeInput => ILL_FORMED_ATTRIBUTE_INPUT, BufferedEarlyLintId::MetaVariableMisuse => META_VARIABLE_MISUSE, BufferedEarlyLintId::IncompleteInclude => INCOMPLETE_INCLUDE, } } /// Gets the lint's name, with ASCII letters converted to lowercase. pub fn name_lower(&self) -> String { self.name.to_ascii_lowercase() } pub fn default_level(&self, session: &Session) -> Level { self.edition_lint_opts .filter(|(e, _)| *e <= session.edition()) .map(|(_, l)| l) .unwrap_or(self.default_level) } } /// Declares a static item of type `&'static Lint`. #[macro_export] macro_rules! declare_lint { ($vis: vis $NAME: ident, $Level: ident, $desc: expr) => ( declare_lint!( $vis $NAME, $Level, $desc, ); ); ($vis: vis $NAME: ident, $Level: ident, $desc: expr, $(@future_incompatible = $fi:expr;)? $($v:ident),*) => ( $vis static $NAME: &$crate::lint::Lint = &$crate::lint::Lint { name: stringify!($NAME), default_level: $crate::lint::$Level, desc: $desc, edition_lint_opts: None, is_plugin: false, $($v: true,)* $(future_incompatible: Some($fi),)* ..$crate::lint::Lint::default_fields_for_macro() }; ); ($vis: vis $NAME: ident, $Level: ident, $desc: expr, $lint_edition: expr => $edition_level: ident ) => ( $vis static $NAME: &$crate::lint::Lint = &$crate::lint::Lint { name: stringify!($NAME), default_level: $crate::lint::$Level, desc: $desc, edition_lint_opts: Some(($lint_edition, $crate::lint::Level::$edition_level)), report_in_external_macro: false, is_plugin: false, }; ); } #[macro_export] macro_rules! declare_tool_lint { ( $(#[$attr:meta])* $vis:vis $tool:ident ::$NAME:ident, $Level: ident, $desc: expr ) => ( declare_tool_lint!{$(#[$attr])* $vis $tool::$NAME, $Level, $desc, false} ); ( $(#[$attr:meta])* $vis:vis $tool:ident ::$NAME:ident, $Level:ident, $desc:expr, report_in_external_macro: $rep:expr ) => ( declare_tool_lint!{$(#[$attr])* $vis $tool::$NAME, $Level, $desc, $rep} ); ( $(#[$attr:meta])* $vis:vis $tool:ident ::$NAME:ident, $Level:ident, $desc:expr, $external:expr ) => ( $(#[$attr])* $vis static $NAME: &$crate::lint::Lint = &$crate::lint::Lint { name: &concat!(stringify!($tool), "::", stringify!($NAME)), default_level: $crate::lint::$Level, desc: $desc, edition_lint_opts: None, report_in_external_macro: $external, future_incompatible: None, is_plugin: true, }; ); } /// Declares a static `LintArray` and return it as an expression. #[macro_export] macro_rules! lint_array { ($( $lint:expr ),* ,) => { lint_array!( $($lint),* ) }; ($( $lint:expr ),*) => {{ vec![$($lint),*] }} } pub type LintArray = Vec<&'static Lint>; pub trait LintPass { fn name(&self) -> &'static str; } /// Implements `LintPass for $name` with the given list of `Lint` statics. #[macro_export] macro_rules! impl_lint_pass { ($name:ident => [$($lint:expr),* $(,)?]) => { impl LintPass for $name { fn name(&self) -> &'static str { stringify!($name) } } impl $name { pub fn get_lints() -> LintArray { $crate::lint_array!($($lint),*) } } }; } /// Declares a type named `$name` which implements `LintPass`. /// To the right of `=>` a comma separated list of `Lint` statics is given. #[macro_export] macro_rules! declare_lint_pass { ($(#[$m:meta])* $name:ident => [$($lint:expr),* $(,)?]) => { $(#[$m])* #[derive(Copy, Clone)] pub struct $name; $crate::impl_lint_pass!($name => [$($lint),*]); }; } #[macro_export] macro_rules! late_lint_methods { ($macro:path, $args:tt, [$hir:tt]) => ( $macro!($args, [$hir], [ fn check_param(a: &$hir hir::Param); fn check_body(a: &$hir hir::Body); fn check_body_post(a: &$hir hir::Body); fn check_name(a: Span, b: ast::Name); fn check_crate(a: &$hir hir::Crate); fn check_crate_post(a: &$hir hir::Crate); fn check_mod(a: &$hir hir::Mod, b: Span, c: hir::HirId); fn check_mod_post(a: &$hir hir::Mod, b: Span, c: hir::HirId); fn check_foreign_item(a: &$hir hir::ForeignItem); fn check_foreign_item_post(a: &$hir hir::ForeignItem); fn check_item(a: &$hir hir::Item); fn check_item_post(a: &$hir hir::Item); fn check_local(a: &$hir hir::Local); fn check_block(a: &$hir hir::Block); fn check_block_post(a: &$hir hir::Block); fn check_stmt(a: &$hir hir::Stmt); fn check_arm(a: &$hir hir::Arm); fn check_pat(a: &$hir hir::Pat); fn check_expr(a: &$hir hir::Expr); fn check_expr_post(a: &$hir hir::Expr); fn check_ty(a: &$hir hir::Ty); fn check_generic_param(a: &$hir hir::GenericParam); fn check_generics(a: &$hir hir::Generics); fn check_where_predicate(a: &$hir hir::WherePredicate); fn check_poly_trait_ref(a: &$hir hir::PolyTraitRef, b: hir::TraitBoundModifier); fn check_fn( a: hir::intravisit::FnKind<$hir>, b: &$hir hir::FnDecl, c: &$hir hir::Body, d: Span, e: hir::HirId); fn check_fn_post( a: hir::intravisit::FnKind<$hir>, b: &$hir hir::FnDecl, c: &$hir hir::Body, d: Span, e: hir::HirId ); fn check_trait_item(a: &$hir hir::TraitItem); fn check_trait_item_post(a: &$hir hir::TraitItem); fn check_impl_item(a: &$hir hir::ImplItem); fn check_impl_item_post(a: &$hir hir::ImplItem); fn check_struct_def(a: &$hir hir::VariantData); fn check_struct_def_post(a: &$hir hir::VariantData); fn check_struct_field(a: &$hir hir::StructField); fn check_variant(a: &$hir hir::Variant); fn check_variant_post(a: &$hir hir::Variant); fn check_lifetime(a: &$hir hir::Lifetime); fn check_path(a: &$hir hir::Path, b: hir::HirId); fn check_attribute(a: &$hir ast::Attribute); /// Called when entering a syntax node that can have lint attributes such /// as `#[allow(...)]`. Called with *all* the attributes of that node. fn enter_lint_attrs(a: &$hir [ast::Attribute]); /// Counterpart to `enter_lint_attrs`. fn exit_lint_attrs(a: &$hir [ast::Attribute]); ]); ) } /// Trait for types providing lint checks. /// /// Each `check` method checks a single syntax node, and should not /// invoke methods recursively (unlike `Visitor`). By default they /// do nothing. // // FIXME: eliminate the duplication with `Visitor`. But this also // contains a few lint-specific methods with no equivalent in `Visitor`. macro_rules! expand_lint_pass_methods { ($context:ty, [$($(#[$attr:meta])* fn $name:ident($($param:ident: $arg:ty),*);)*]) => ( $(#[inline(always)] fn $name(&mut self, _: $context, $(_: $arg),*) {})* ) } macro_rules! declare_late_lint_pass { ([], [$hir:tt], [$($methods:tt)*]) => ( pub trait LateLintPass<'a, $hir>: LintPass { expand_lint_pass_methods!(&LateContext<'a, $hir>, [$($methods)*]); } ) } late_lint_methods!(declare_late_lint_pass, [], ['tcx]); #[macro_export] macro_rules! expand_combined_late_lint_pass_method { ([$($passes:ident),*], $self: ident, $name: ident, $params:tt) => ({ $($self.$passes.$name $params;)* }) } #[macro_export] macro_rules! expand_combined_late_lint_pass_methods { ($passes:tt, [$($(#[$attr:meta])* fn $name:ident($($param:ident: $arg:ty),*);)*]) => ( $(fn $name(&mut self, context: &LateContext<'a, 'tcx>, $($param: $arg),*) { expand_combined_late_lint_pass_method!($passes, self, $name, (context, $($param),*)); })* ) } #[macro_export] macro_rules! declare_combined_late_lint_pass { ([$v:vis $name:ident, [$($passes:ident: $constructor:expr,)*]], [$hir:tt], $methods:tt) => ( #[allow(non_snake_case)] $v struct $name { $($passes: $passes,)* } impl $name { $v fn new() -> Self { Self { $($passes: $constructor,)* } } $v fn get_lints() -> LintArray { let mut lints = Vec::new(); $(lints.extend_from_slice(&$passes::get_lints());)* lints } } impl<'a, 'tcx> LateLintPass<'a, 'tcx> for $name { expand_combined_late_lint_pass_methods!([$($passes),*], $methods); } impl LintPass for $name { fn name(&self) -> &'static str { panic!() } } ) } #[macro_export] macro_rules! early_lint_methods { ($macro:path, $args:tt) => ( $macro!($args, [ fn check_param(a: &ast::Param); fn check_ident(a: ast::Ident); fn check_crate(a: &ast::Crate); fn check_crate_post(a: &ast::Crate); fn check_mod(a: &ast::Mod, b: Span, c: ast::NodeId); fn check_mod_post(a: &ast::Mod, b: Span, c: ast::NodeId); fn check_foreign_item(a: &ast::ForeignItem); fn check_foreign_item_post(a: &ast::ForeignItem); fn check_item(a: &ast::Item); fn check_item_post(a: &ast::Item); fn check_local(a: &ast::Local); fn check_block(a: &ast::Block); fn check_block_post(a: &ast::Block); fn check_stmt(a: &ast::Stmt); fn check_arm(a: &ast::Arm); fn check_pat(a: &ast::Pat); fn check_pat_post(a: &ast::Pat); fn check_expr(a: &ast::Expr); fn check_expr_post(a: &ast::Expr); fn check_ty(a: &ast::Ty); fn check_generic_param(a: &ast::GenericParam); fn check_generics(a: &ast::Generics); fn check_where_predicate(a: &ast::WherePredicate); fn check_poly_trait_ref(a: &ast::PolyTraitRef, b: &ast::TraitBoundModifier); fn check_fn(a: syntax::visit::FnKind<'_>, b: &ast::FnDecl, c: Span, d_: ast::NodeId); fn check_fn_post( a: syntax::visit::FnKind<'_>, b: &ast::FnDecl, c: Span, d: ast::NodeId ); fn check_trait_item(a: &ast::TraitItem); fn check_trait_item_post(a: &ast::TraitItem); fn check_impl_item(a: &ast::ImplItem); fn check_impl_item_post(a: &ast::ImplItem); fn check_struct_def(a: &ast::VariantData); fn check_struct_def_post(a: &ast::VariantData); fn check_struct_field(a: &ast::StructField); fn check_variant(a: &ast::Variant); fn check_variant_post(a: &ast::Variant); fn check_lifetime(a: &ast::Lifetime); fn check_path(a: &ast::Path, b: ast::NodeId); fn check_attribute(a: &ast::Attribute); fn check_mac_def(a: &ast::MacroDef, b: ast::NodeId); fn check_mac(a: &ast::Mac); /// Called when entering a syntax node that can have lint attributes such /// as `#[allow(...)]`. Called with *all* the attributes of that node. fn enter_lint_attrs(a: &[ast::Attribute]); /// Counterpart to `enter_lint_attrs`. fn exit_lint_attrs(a: &[ast::Attribute]); ]); ) } macro_rules! expand_early_lint_pass_methods { ($context:ty, [$($(#[$attr:meta])* fn $name:ident($($param:ident: $arg:ty),*);)*]) => ( $(#[inline(always)] fn $name(&mut self, _: $context, $(_: $arg),*) {})* ) } macro_rules! declare_early_lint_pass { ([], [$($methods:tt)*]) => ( pub trait EarlyLintPass: LintPass { expand_early_lint_pass_methods!(&EarlyContext<'_>, [$($methods)*]); } ) } early_lint_methods!(declare_early_lint_pass, []); #[macro_export] macro_rules! expand_combined_early_lint_pass_method { ([$($passes:ident),*], $self: ident, $name: ident, $params:tt) => ({ $($self.$passes.$name $params;)* }) } #[macro_export] macro_rules! expand_combined_early_lint_pass_methods { ($passes:tt, [$($(#[$attr:meta])* fn $name:ident($($param:ident: $arg:ty),*);)*]) => ( $(fn $name(&mut self, context: &EarlyContext<'_>, $($param: $arg),*) { expand_combined_early_lint_pass_method!($passes, self, $name, (context, $($param),*)); })* ) } #[macro_export] macro_rules! declare_combined_early_lint_pass { ([$v:vis $name:ident, [$($passes:ident: $constructor:expr,)*]], $methods:tt) => ( #[allow(non_snake_case)] $v struct $name { $($passes: $passes,)* } impl $name { $v fn new() -> Self { Self { $($passes: $constructor,)* } } $v fn get_lints() -> LintArray { let mut lints = Vec::new(); $(lints.extend_from_slice(&$passes::get_lints());)* lints } } impl EarlyLintPass for $name { expand_combined_early_lint_pass_methods!([$($passes),*], $methods); } impl LintPass for $name { fn name(&self) -> &'static str { panic!() } } ) } /// A lint pass boxed up as a trait object. pub type EarlyLintPassObject = Box; pub type LateLintPassObject = Box LateLintPass<'a, 'tcx> + sync::Send + sync::Sync + 'static>; /// Identifies a lint known to the compiler. #[derive(Clone, Copy, Debug)] pub struct LintId { // Identity is based on pointer equality of this field. lint: &'static Lint, } impl PartialEq for LintId { fn eq(&self, other: &LintId) -> bool { ptr::eq(self.lint, other.lint) } } impl Eq for LintId { } impl hash::Hash for LintId { fn hash(&self, state: &mut H) { let ptr = self.lint as *const Lint; ptr.hash(state); } } impl LintId { /// Gets the `LintId` for a `Lint`. pub fn of(lint: &'static Lint) -> LintId { LintId { lint, } } pub fn lint_name_raw(&self) -> &'static str { self.lint.name } /// Gets the name of the lint. pub fn to_string(&self) -> String { self.lint.name_lower() } } /// Setting for how to handle a lint. #[derive(Clone, Copy, PartialEq, PartialOrd, Eq, Ord, Debug, Hash)] pub enum Level { Allow, Warn, Deny, Forbid, } impl_stable_hash_for!(enum self::Level { Allow, Warn, Deny, Forbid }); impl Level { /// Converts a level to a lower-case string. pub fn as_str(self) -> &'static str { match self { Allow => "allow", Warn => "warn", Deny => "deny", Forbid => "forbid", } } /// Converts a lower-case string to a level. pub fn from_str(x: &str) -> Option { match x { "allow" => Some(Allow), "warn" => Some(Warn), "deny" => Some(Deny), "forbid" => Some(Forbid), _ => None, } } /// Converts a symbol to a level. pub fn from_symbol(x: Symbol) -> Option { match x { sym::allow => Some(Allow), sym::warn => Some(Warn), sym::deny => Some(Deny), sym::forbid => Some(Forbid), _ => None, } } } /// How a lint level was set. #[derive(Clone, Copy, PartialEq, Eq)] pub enum LintSource { /// Lint is at the default level as declared /// in rustc or a plugin. Default, /// Lint level was set by an attribute. Node(ast::Name, Span, Option /* RFC 2383 reason */), /// Lint level was set by a command-line flag. CommandLine(Symbol), } impl_stable_hash_for!(enum self::LintSource { Default, Node(name, span, reason), CommandLine(text) }); pub type LevelSource = (Level, LintSource); pub mod builtin; pub mod internal; mod context; mod levels; pub use self::levels::{LintLevelSets, LintLevelMap}; #[derive(Default)] pub struct LintBuffer { map: NodeMap>, } impl LintBuffer { pub fn add_lint(&mut self, lint: &'static Lint, id: ast::NodeId, sp: MultiSpan, msg: &str, diagnostic: BuiltinLintDiagnostics) { let early_lint = BufferedEarlyLint { lint_id: LintId::of(lint), ast_id: id, span: sp, msg: msg.to_string(), diagnostic }; let arr = self.map.entry(id).or_default(); if !arr.contains(&early_lint) { arr.push(early_lint); } } fn take(&mut self, id: ast::NodeId) -> Vec { self.map.remove(&id).unwrap_or_default() } pub fn buffer_lint>( &mut self, lint: &'static Lint, id: ast::NodeId, sp: S, msg: &str, ) { self.add_lint(lint, id, sp.into(), msg, BuiltinLintDiagnostics::Normal) } pub fn buffer_lint_with_diagnostic>( &mut self, lint: &'static Lint, id: ast::NodeId, sp: S, msg: &str, diagnostic: BuiltinLintDiagnostics, ) { self.add_lint(lint, id, sp.into(), msg, diagnostic) } } pub fn struct_lint_level<'a>(sess: &'a Session, lint: &'static Lint, level: Level, src: LintSource, span: Option, msg: &str) -> DiagnosticBuilder<'a> { let mut err = match (level, span) { (Level::Allow, _) => return sess.diagnostic().struct_dummy(), (Level::Warn, Some(span)) => sess.struct_span_warn(span, msg), (Level::Warn, None) => sess.struct_warn(msg), (Level::Deny, Some(span)) | (Level::Forbid, Some(span)) => sess.struct_span_err(span, msg), (Level::Deny, None) | (Level::Forbid, None) => sess.struct_err(msg), }; // Check for future incompatibility lints and issue a stronger warning. let lint_id = LintId::of(lint); let future_incompatible = lint.future_incompatible; // If this code originates in a foreign macro, aka something that this crate // did not itself author, then it's likely that there's nothing this crate // can do about it. We probably want to skip the lint entirely. if err.span.primary_spans().iter().any(|s| in_external_macro(sess, *s)) { // Any suggestions made here are likely to be incorrect, so anything we // emit shouldn't be automatically fixed by rustfix. err.allow_suggestions(false); // If this is a future incompatible lint it'll become a hard error, so // we have to emit *something*. Also allow lints to whitelist themselves // on a case-by-case basis for emission in a foreign macro. if future_incompatible.is_none() && !lint.report_in_external_macro { err.cancel(); // Don't continue further, since we don't want to have // `diag_span_note_once` called for a diagnostic that isn't emitted. return err; } } let name = lint.name_lower(); match src { LintSource::Default => { sess.diag_note_once( &mut err, DiagnosticMessageId::from(lint), &format!("`#[{}({})]` on by default", level.as_str(), name)); } LintSource::CommandLine(lint_flag_val) => { let flag = match level { Level::Warn => "-W", Level::Deny => "-D", Level::Forbid => "-F", Level::Allow => panic!(), }; let hyphen_case_lint_name = name.replace("_", "-"); if lint_flag_val.as_str() == name { sess.diag_note_once( &mut err, DiagnosticMessageId::from(lint), &format!("requested on the command line with `{} {}`", flag, hyphen_case_lint_name)); } else { let hyphen_case_flag_val = lint_flag_val.as_str().replace("_", "-"); sess.diag_note_once( &mut err, DiagnosticMessageId::from(lint), &format!("`{} {}` implied by `{} {}`", flag, hyphen_case_lint_name, flag, hyphen_case_flag_val)); } } LintSource::Node(lint_attr_name, src, reason) => { if let Some(rationale) = reason { err.note(&rationale.as_str()); } sess.diag_span_note_once(&mut err, DiagnosticMessageId::from(lint), src, "lint level defined here"); if lint_attr_name.as_str() != name { let level_str = level.as_str(); sess.diag_note_once(&mut err, DiagnosticMessageId::from(lint), &format!("`#[{}({})]` implied by `#[{}({})]`", level_str, name, level_str, lint_attr_name)); } } } err.code(DiagnosticId::Lint(name)); if let Some(future_incompatible) = future_incompatible { const STANDARD_MESSAGE: &str = "this was previously accepted by the compiler but is being phased out; \ it will become a hard error"; let explanation = if lint_id == LintId::of(builtin::UNSTABLE_NAME_COLLISIONS) { "once this method is added to the standard library, \ the ambiguity may cause an error or change in behavior!" .to_owned() } else if lint_id == LintId::of(builtin::MUTABLE_BORROW_RESERVATION_CONFLICT) { "this borrowing pattern was not meant to be accepted, \ and may become a hard error in the future" .to_owned() } else if let Some(edition) = future_incompatible.edition { format!("{} in the {} edition!", STANDARD_MESSAGE, edition) } else { format!("{} in a future release!", STANDARD_MESSAGE) }; let citation = format!("for more information, see {}", future_incompatible.reference); err.warn(&explanation); err.note(&citation); } return err } pub fn maybe_lint_level_root(tcx: TyCtxt<'_>, id: hir::HirId) -> bool { let attrs = tcx.hir().attrs(id); attrs.iter().any(|attr| Level::from_symbol(attr.name_or_empty()).is_some()) } fn lint_levels(tcx: TyCtxt<'_>, cnum: CrateNum) -> &LintLevelMap { assert_eq!(cnum, LOCAL_CRATE); let store = &tcx.lint_store; let mut builder = LintLevelMapBuilder { levels: LintLevelSets::builder(tcx.sess, false, &store), tcx: tcx, store: store, }; let krate = tcx.hir().krate(); let push = builder.levels.push(&krate.attrs, &store); builder.levels.register_id(hir::CRATE_HIR_ID); for macro_def in &krate.exported_macros { builder.levels.register_id(macro_def.hir_id); } intravisit::walk_crate(&mut builder, krate); builder.levels.pop(push); tcx.arena.alloc(builder.levels.build_map()) } struct LintLevelMapBuilder<'a, 'tcx> { levels: levels::LintLevelsBuilder<'tcx>, tcx: TyCtxt<'tcx>, store: &'a LintStore, } impl LintLevelMapBuilder<'_, '_> { fn with_lint_attrs(&mut self, id: hir::HirId, attrs: &[ast::Attribute], f: F) where F: FnOnce(&mut Self) { let push = self.levels.push(attrs, self.store); if push.changed { self.levels.register_id(id); } f(self); self.levels.pop(push); } } impl intravisit::Visitor<'tcx> for LintLevelMapBuilder<'_, 'tcx> { fn nested_visit_map<'this>(&'this mut self) -> intravisit::NestedVisitorMap<'this, 'tcx> { intravisit::NestedVisitorMap::All(&self.tcx.hir()) } fn visit_param(&mut self, param: &'tcx hir::Param) { self.with_lint_attrs(param.hir_id, ¶m.attrs, |builder| { intravisit::walk_param(builder, param); }); } fn visit_item(&mut self, it: &'tcx hir::Item) { self.with_lint_attrs(it.hir_id, &it.attrs, |builder| { intravisit::walk_item(builder, it); }); } fn visit_foreign_item(&mut self, it: &'tcx hir::ForeignItem) { self.with_lint_attrs(it.hir_id, &it.attrs, |builder| { intravisit::walk_foreign_item(builder, it); }) } fn visit_expr(&mut self, e: &'tcx hir::Expr) { self.with_lint_attrs(e.hir_id, &e.attrs, |builder| { intravisit::walk_expr(builder, e); }) } fn visit_struct_field(&mut self, s: &'tcx hir::StructField) { self.with_lint_attrs(s.hir_id, &s.attrs, |builder| { intravisit::walk_struct_field(builder, s); }) } fn visit_variant(&mut self, v: &'tcx hir::Variant, g: &'tcx hir::Generics, item_id: hir::HirId) { self.with_lint_attrs(v.id, &v.attrs, |builder| { intravisit::walk_variant(builder, v, g, item_id); }) } fn visit_local(&mut self, l: &'tcx hir::Local) { self.with_lint_attrs(l.hir_id, &l.attrs, |builder| { intravisit::walk_local(builder, l); }) } fn visit_arm(&mut self, a: &'tcx hir::Arm) { self.with_lint_attrs(a.hir_id, &a.attrs, |builder| { intravisit::walk_arm(builder, a); }) } fn visit_trait_item(&mut self, trait_item: &'tcx hir::TraitItem) { self.with_lint_attrs(trait_item.hir_id, &trait_item.attrs, |builder| { intravisit::walk_trait_item(builder, trait_item); }); } fn visit_impl_item(&mut self, impl_item: &'tcx hir::ImplItem) { self.with_lint_attrs(impl_item.hir_id, &impl_item.attrs, |builder| { intravisit::walk_impl_item(builder, impl_item); }); } } pub fn provide(providers: &mut Providers<'_>) { providers.lint_levels = lint_levels; } /// Returns whether `span` originates in a foreign crate's external macro. /// /// This is used to test whether a lint should not even begin to figure out whether it should /// be reported on the current node. pub fn in_external_macro(sess: &Session, span: Span) -> bool { let expn_data = span.ctxt().outer_expn_data(); match expn_data.kind { ExpnKind::Root | ExpnKind::Desugaring(DesugaringKind::ForLoop) => false, ExpnKind::AstPass(_) | ExpnKind::Desugaring(_) => true, // well, it's "external" ExpnKind::Macro(MacroKind::Bang, _) => { if expn_data.def_site.is_dummy() { // Dummy span for the `def_site` means it's an external macro. return true; } match sess.source_map().span_to_snippet(expn_data.def_site) { Ok(code) => !code.starts_with("macro_rules"), // No snippet means external macro or compiler-builtin expansion. Err(_) => true, } } ExpnKind::Macro(..) => true, // definitely a plugin } } /// Returns `true` if `span` originates in a derive-macro's expansion. pub fn in_derive_expansion(span: Span) -> bool { if let ExpnKind::Macro(MacroKind::Derive, _) = span.ctxt().outer_expn_data().kind { return true; } false }