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|
// This implements the dead-code warning pass. It follows middle::reachable
// closely. The idea is that all reachable symbols are live, codes called
// from live codes are live, and everything else is dead.
use hir::def_id::{LocalDefIdMap, LocalDefIdSet};
use itertools::Itertools;
use rustc_data_structures::unord::UnordSet;
use rustc_errors::MultiSpan;
use rustc_hir as hir;
use rustc_hir::def::{CtorOf, DefKind, Res};
use rustc_hir::def_id::{DefId, LocalDefId, LocalModDefId};
use rustc_hir::intravisit::{self, Visitor};
use rustc_hir::{Node, PatKind, TyKind};
use rustc_middle::middle::codegen_fn_attrs::CodegenFnAttrFlags;
use rustc_middle::middle::privacy::Level;
use rustc_middle::query::Providers;
use rustc_middle::ty::{self, TyCtxt};
use rustc_session::lint;
use rustc_span::symbol::{sym, Symbol};
use rustc_target::abi::FieldIdx;
use std::mem;
use crate::errors::{
ChangeFieldsToBeOfUnitType, IgnoredDerivedImpls, MultipleDeadCodes, ParentInfo,
UselessAssignment,
};
// Any local node that may call something in its body block should be
// explored. For example, if it's a live Node::Item that is a
// function, then we should explore its block to check for codes that
// may need to be marked as live.
fn should_explore(tcx: TyCtxt<'_>, def_id: LocalDefId) -> bool {
matches!(
tcx.hir().find_by_def_id(def_id),
Some(
Node::Item(..)
| Node::ImplItem(..)
| Node::ForeignItem(..)
| Node::TraitItem(..)
| Node::Variant(..)
| Node::AnonConst(..)
)
)
}
/// Determine if a work from the worklist is coming from the a `#[allow]`
/// or a `#[expect]` of `dead_code`
#[derive(Debug, Copy, Clone, Eq, PartialEq, Hash)]
enum ComesFromAllowExpect {
Yes,
No,
}
struct MarkSymbolVisitor<'tcx> {
worklist: Vec<(LocalDefId, ComesFromAllowExpect)>,
tcx: TyCtxt<'tcx>,
maybe_typeck_results: Option<&'tcx ty::TypeckResults<'tcx>>,
live_symbols: LocalDefIdSet,
repr_has_repr_c: bool,
repr_has_repr_simd: bool,
in_pat: bool,
ignore_variant_stack: Vec<DefId>,
// maps from tuple struct constructors to tuple struct items
struct_constructors: LocalDefIdMap<LocalDefId>,
// maps from ADTs to ignored derived traits (e.g. Debug and Clone)
// and the span of their respective impl (i.e., part of the derive
// macro)
ignored_derived_traits: LocalDefIdMap<Vec<(DefId, DefId)>>,
}
impl<'tcx> MarkSymbolVisitor<'tcx> {
/// Gets the type-checking results for the current body.
/// As this will ICE if called outside bodies, only call when working with
/// `Expr` or `Pat` nodes (they are guaranteed to be found only in bodies).
#[track_caller]
fn typeck_results(&self) -> &'tcx ty::TypeckResults<'tcx> {
self.maybe_typeck_results
.expect("`MarkSymbolVisitor::typeck_results` called outside of body")
}
fn check_def_id(&mut self, def_id: DefId) {
if let Some(def_id) = def_id.as_local() {
if should_explore(self.tcx, def_id) || self.struct_constructors.contains_key(&def_id) {
self.worklist.push((def_id, ComesFromAllowExpect::No));
}
self.live_symbols.insert(def_id);
}
}
fn insert_def_id(&mut self, def_id: DefId) {
if let Some(def_id) = def_id.as_local() {
debug_assert!(!should_explore(self.tcx, def_id));
self.live_symbols.insert(def_id);
}
}
fn handle_res(&mut self, res: Res) {
match res {
Res::Def(DefKind::Const | DefKind::AssocConst | DefKind::TyAlias, def_id) => {
self.check_def_id(def_id);
}
_ if self.in_pat => {}
Res::PrimTy(..) | Res::SelfCtor(..) | Res::Local(..) => {}
Res::Def(DefKind::Ctor(CtorOf::Variant, ..), ctor_def_id) => {
let variant_id = self.tcx.parent(ctor_def_id);
let enum_id = self.tcx.parent(variant_id);
self.check_def_id(enum_id);
if !self.ignore_variant_stack.contains(&ctor_def_id) {
self.check_def_id(variant_id);
}
}
Res::Def(DefKind::Variant, variant_id) => {
let enum_id = self.tcx.parent(variant_id);
self.check_def_id(enum_id);
if !self.ignore_variant_stack.contains(&variant_id) {
self.check_def_id(variant_id);
}
}
Res::Def(_, def_id) => self.check_def_id(def_id),
Res::SelfTyParam { trait_: t } => self.check_def_id(t),
Res::SelfTyAlias { alias_to: i, .. } => self.check_def_id(i),
Res::ToolMod | Res::NonMacroAttr(..) | Res::Err => {}
}
}
fn lookup_and_handle_method(&mut self, id: hir::HirId) {
if let Some(def_id) = self.typeck_results().type_dependent_def_id(id) {
self.check_def_id(def_id);
} else {
bug!("no type-dependent def for method");
}
}
fn handle_field_access(&mut self, lhs: &hir::Expr<'_>, hir_id: hir::HirId) {
match self.typeck_results().expr_ty_adjusted(lhs).kind() {
ty::Adt(def, _) => {
let index = self.typeck_results().field_index(hir_id);
self.insert_def_id(def.non_enum_variant().fields[index].did);
}
ty::Tuple(..) => {}
_ => span_bug!(lhs.span, "named field access on non-ADT"),
}
}
#[allow(dead_code)] // FIXME(81658): should be used + lint reinstated after #83171 relands.
fn handle_assign(&mut self, expr: &'tcx hir::Expr<'tcx>) {
if self
.typeck_results()
.expr_adjustments(expr)
.iter()
.any(|adj| matches!(adj.kind, ty::adjustment::Adjust::Deref(_)))
{
self.visit_expr(expr);
} else if let hir::ExprKind::Field(base, ..) = expr.kind {
// Ignore write to field
self.handle_assign(base);
} else {
self.visit_expr(expr);
}
}
#[allow(dead_code)] // FIXME(81658): should be used + lint reinstated after #83171 relands.
fn check_for_self_assign(&mut self, assign: &'tcx hir::Expr<'tcx>) {
fn check_for_self_assign_helper<'tcx>(
typeck_results: &'tcx ty::TypeckResults<'tcx>,
lhs: &'tcx hir::Expr<'tcx>,
rhs: &'tcx hir::Expr<'tcx>,
) -> bool {
match (&lhs.kind, &rhs.kind) {
(hir::ExprKind::Path(ref qpath_l), hir::ExprKind::Path(ref qpath_r)) => {
if let (Res::Local(id_l), Res::Local(id_r)) = (
typeck_results.qpath_res(qpath_l, lhs.hir_id),
typeck_results.qpath_res(qpath_r, rhs.hir_id),
) {
if id_l == id_r {
return true;
}
}
return false;
}
(hir::ExprKind::Field(lhs_l, ident_l), hir::ExprKind::Field(lhs_r, ident_r)) => {
if ident_l == ident_r {
return check_for_self_assign_helper(typeck_results, lhs_l, lhs_r);
}
return false;
}
_ => {
return false;
}
}
}
if let hir::ExprKind::Assign(lhs, rhs, _) = assign.kind
&& check_for_self_assign_helper(self.typeck_results(), lhs, rhs)
&& !assign.span.from_expansion()
{
let is_field_assign = matches!(lhs.kind, hir::ExprKind::Field(..));
self.tcx.emit_spanned_lint(
lint::builtin::DEAD_CODE,
assign.hir_id,
assign.span,
UselessAssignment { is_field_assign, ty: self.typeck_results().expr_ty(lhs) }
)
}
}
fn handle_field_pattern_match(
&mut self,
lhs: &hir::Pat<'_>,
res: Res,
pats: &[hir::PatField<'_>],
) {
let variant = match self.typeck_results().node_type(lhs.hir_id).kind() {
ty::Adt(adt, _) => adt.variant_of_res(res),
_ => span_bug!(lhs.span, "non-ADT in struct pattern"),
};
for pat in pats {
if let PatKind::Wild = pat.pat.kind {
continue;
}
let index = self.typeck_results().field_index(pat.hir_id);
self.insert_def_id(variant.fields[index].did);
}
}
fn handle_tuple_field_pattern_match(
&mut self,
lhs: &hir::Pat<'_>,
res: Res,
pats: &[hir::Pat<'_>],
dotdot: hir::DotDotPos,
) {
let variant = match self.typeck_results().node_type(lhs.hir_id).kind() {
ty::Adt(adt, _) => adt.variant_of_res(res),
_ => span_bug!(lhs.span, "non-ADT in tuple struct pattern"),
};
let dotdot = dotdot.as_opt_usize().unwrap_or(pats.len());
let first_n = pats.iter().enumerate().take(dotdot);
let missing = variant.fields.len() - pats.len();
let last_n = pats.iter().enumerate().skip(dotdot).map(|(idx, pat)| (idx + missing, pat));
for (idx, pat) in first_n.chain(last_n) {
if let PatKind::Wild = pat.kind {
continue;
}
self.insert_def_id(variant.fields[FieldIdx::from_usize(idx)].did);
}
}
fn handle_offset_of(&mut self, expr: &'tcx hir::Expr<'tcx>) {
let data = self.typeck_results().offset_of_data();
let &(container, ref indices) =
data.get(expr.hir_id).expect("no offset_of_data for offset_of");
let body_did = self.typeck_results().hir_owner.to_def_id();
let param_env = self.tcx.param_env(body_did);
let mut current_ty = container;
for &index in indices {
match current_ty.kind() {
ty::Adt(def, subst) => {
let field = &def.non_enum_variant().fields[index];
self.insert_def_id(field.did);
let field_ty = field.ty(self.tcx, subst);
current_ty = self.tcx.normalize_erasing_regions(param_env, field_ty);
}
// we don't need to mark tuple fields as live,
// but we may need to mark subfields
ty::Tuple(tys) => {
current_ty =
self.tcx.normalize_erasing_regions(param_env, tys[index.as_usize()]);
}
_ => span_bug!(expr.span, "named field access on non-ADT"),
}
}
}
fn mark_live_symbols(&mut self) {
let mut scanned = UnordSet::default();
while let Some(work) = self.worklist.pop() {
if !scanned.insert(work) {
continue;
}
let (id, comes_from_allow_expect) = work;
// Avoid accessing the HIR for the synthesized associated type generated for RPITITs.
if self.tcx.is_impl_trait_in_trait(id.to_def_id()) {
self.live_symbols.insert(id);
continue;
}
// in the case of tuple struct constructors we want to check the item, not the generated
// tuple struct constructor function
let id = self.struct_constructors.get(&id).copied().unwrap_or(id);
if let Some(node) = self.tcx.hir().find_by_def_id(id) {
// When using `#[allow]` or `#[expect]` of `dead_code`, we do a QOL improvement
// by declaring fn calls, statics, ... within said items as live, as well as
// the item itself, although technically this is not the case.
//
// This means that the lint for said items will never be fired.
//
// This doesn't make any difference for the item declared with `#[allow]`, as
// the lint firing will be a nop, as it will be silenced by the `#[allow]` of
// the item.
//
// However, for `#[expect]`, the presence or absence of the lint is relevant,
// so we don't add it to the list of live symbols when it comes from a
// `#[expect]`. This means that we will correctly report an item as live or not
// for the `#[expect]` case.
//
// Note that an item can and will be duplicated on the worklist with different
// `ComesFromAllowExpect`, particulary if it was added from the
// `effective_visibilities` query or from the `#[allow]`/`#[expect]` checks,
// this "duplication" is essential as otherwise a function with `#[expect]`
// called from a `pub fn` may be falsely reported as not live, falsely
// triggering the `unfulfilled_lint_expectations` lint.
if comes_from_allow_expect != ComesFromAllowExpect::Yes {
self.live_symbols.insert(id);
}
self.visit_node(node);
}
}
}
/// Automatically generated items marked with `rustc_trivial_field_reads`
/// will be ignored for the purposes of dead code analysis (see PR #85200
/// for discussion).
fn should_ignore_item(&mut self, def_id: DefId) -> bool {
if let Some(impl_of) = self.tcx.impl_of_method(def_id) {
if !self.tcx.is_automatically_derived(impl_of) {
return false;
}
if let Some(trait_of) = self.tcx.trait_id_of_impl(impl_of)
&& self.tcx.has_attr(trait_of, sym::rustc_trivial_field_reads)
{
let trait_ref = self.tcx.impl_trait_ref(impl_of).unwrap().instantiate_identity();
if let ty::Adt(adt_def, _) = trait_ref.self_ty().kind()
&& let Some(adt_def_id) = adt_def.did().as_local()
{
self.ignored_derived_traits
.entry(adt_def_id)
.or_default()
.push((trait_of, impl_of));
}
return true;
}
}
return false;
}
fn visit_node(&mut self, node: Node<'tcx>) {
if let Node::ImplItem(hir::ImplItem { owner_id, .. }) = node
&& self.should_ignore_item(owner_id.to_def_id())
{
return;
}
let had_repr_c = self.repr_has_repr_c;
let had_repr_simd = self.repr_has_repr_simd;
self.repr_has_repr_c = false;
self.repr_has_repr_simd = false;
match node {
Node::Item(item) => match item.kind {
hir::ItemKind::Struct(..) | hir::ItemKind::Union(..) => {
let def = self.tcx.adt_def(item.owner_id);
self.repr_has_repr_c = def.repr().c();
self.repr_has_repr_simd = def.repr().simd();
intravisit::walk_item(self, &item)
}
hir::ItemKind::ForeignMod { .. } => {}
_ => intravisit::walk_item(self, &item),
},
Node::TraitItem(trait_item) => {
intravisit::walk_trait_item(self, trait_item);
}
Node::ImplItem(impl_item) => {
let item = self.tcx.local_parent(impl_item.owner_id.def_id);
if self.tcx.impl_trait_ref(item).is_none() {
//// If it's a type whose items are live, then it's live, too.
//// This is done to handle the case where, for example, the static
//// method of a private type is used, but the type itself is never
//// called directly.
let self_ty = self.tcx.type_of(item).instantiate_identity();
match *self_ty.kind() {
ty::Adt(def, _) => self.check_def_id(def.did()),
ty::Foreign(did) => self.check_def_id(did),
ty::Dynamic(data, ..) => {
if let Some(def_id) = data.principal_def_id() {
self.check_def_id(def_id)
}
}
_ => {}
}
}
intravisit::walk_impl_item(self, impl_item);
}
Node::ForeignItem(foreign_item) => {
intravisit::walk_foreign_item(self, &foreign_item);
}
_ => {}
}
self.repr_has_repr_simd = had_repr_simd;
self.repr_has_repr_c = had_repr_c;
}
fn mark_as_used_if_union(&mut self, adt: ty::AdtDef<'tcx>, fields: &[hir::ExprField<'_>]) {
if adt.is_union() && adt.non_enum_variant().fields.len() > 1 && adt.did().is_local() {
for field in fields {
let index = self.typeck_results().field_index(field.hir_id);
self.insert_def_id(adt.non_enum_variant().fields[index].did);
}
}
}
}
impl<'tcx> Visitor<'tcx> for MarkSymbolVisitor<'tcx> {
fn visit_nested_body(&mut self, body: hir::BodyId) {
let old_maybe_typeck_results =
self.maybe_typeck_results.replace(self.tcx.typeck_body(body));
let body = self.tcx.hir().body(body);
self.visit_body(body);
self.maybe_typeck_results = old_maybe_typeck_results;
}
fn visit_variant_data(&mut self, def: &'tcx hir::VariantData<'tcx>) {
let tcx = self.tcx;
let has_repr_c = self.repr_has_repr_c;
let has_repr_simd = self.repr_has_repr_simd;
let live_fields = def.fields().iter().filter_map(|f| {
let def_id = f.def_id;
if has_repr_c || (f.is_positional() && has_repr_simd) {
return Some(def_id);
}
if !tcx.visibility(f.hir_id.owner.def_id).is_public() {
return None;
}
if tcx.visibility(def_id).is_public() { Some(def_id) } else { None }
});
self.live_symbols.extend(live_fields);
intravisit::walk_struct_def(self, def);
}
fn visit_expr(&mut self, expr: &'tcx hir::Expr<'tcx>) {
match expr.kind {
hir::ExprKind::Path(ref qpath @ hir::QPath::TypeRelative(..)) => {
let res = self.typeck_results().qpath_res(qpath, expr.hir_id);
self.handle_res(res);
}
hir::ExprKind::MethodCall(..) => {
self.lookup_and_handle_method(expr.hir_id);
}
hir::ExprKind::Field(ref lhs, ..) => {
self.handle_field_access(&lhs, expr.hir_id);
}
hir::ExprKind::Struct(ref qpath, ref fields, _) => {
let res = self.typeck_results().qpath_res(qpath, expr.hir_id);
self.handle_res(res);
if let ty::Adt(adt, _) = self.typeck_results().expr_ty(expr).kind() {
self.mark_as_used_if_union(*adt, fields);
}
}
hir::ExprKind::Closure(cls) => {
self.insert_def_id(cls.def_id.to_def_id());
}
hir::ExprKind::OffsetOf(..) => {
self.handle_offset_of(expr);
}
_ => (),
}
intravisit::walk_expr(self, expr);
}
fn visit_arm(&mut self, arm: &'tcx hir::Arm<'tcx>) {
// Inside the body, ignore constructions of variants
// necessary for the pattern to match. Those construction sites
// can't be reached unless the variant is constructed elsewhere.
let len = self.ignore_variant_stack.len();
self.ignore_variant_stack.extend(arm.pat.necessary_variants());
intravisit::walk_arm(self, arm);
self.ignore_variant_stack.truncate(len);
}
fn visit_pat(&mut self, pat: &'tcx hir::Pat<'tcx>) {
self.in_pat = true;
match pat.kind {
PatKind::Struct(ref path, ref fields, _) => {
let res = self.typeck_results().qpath_res(path, pat.hir_id);
self.handle_field_pattern_match(pat, res, fields);
}
PatKind::Path(ref qpath) => {
let res = self.typeck_results().qpath_res(qpath, pat.hir_id);
self.handle_res(res);
}
PatKind::TupleStruct(ref qpath, ref fields, dotdot) => {
let res = self.typeck_results().qpath_res(qpath, pat.hir_id);
self.handle_tuple_field_pattern_match(pat, res, fields, dotdot);
}
_ => (),
}
intravisit::walk_pat(self, pat);
self.in_pat = false;
}
fn visit_path(&mut self, path: &hir::Path<'tcx>, _: hir::HirId) {
self.handle_res(path.res);
intravisit::walk_path(self, path);
}
fn visit_ty(&mut self, ty: &'tcx hir::Ty<'tcx>) {
if let TyKind::OpaqueDef(item_id, _, _) = ty.kind {
let item = self.tcx.hir().item(item_id);
intravisit::walk_item(self, item);
}
intravisit::walk_ty(self, ty);
}
fn visit_anon_const(&mut self, c: &'tcx hir::AnonConst) {
// When inline const blocks are used in pattern position, paths
// referenced by it should be considered as used.
let in_pat = mem::replace(&mut self.in_pat, false);
self.live_symbols.insert(c.def_id);
intravisit::walk_anon_const(self, c);
self.in_pat = in_pat;
}
fn visit_inline_const(&mut self, c: &'tcx hir::ConstBlock) {
// When inline const blocks are used in pattern position, paths
// referenced by it should be considered as used.
let in_pat = mem::replace(&mut self.in_pat, false);
self.live_symbols.insert(c.def_id);
intravisit::walk_inline_const(self, c);
self.in_pat = in_pat;
}
}
fn has_allow_dead_code_or_lang_attr(
tcx: TyCtxt<'_>,
def_id: LocalDefId,
) -> Option<ComesFromAllowExpect> {
fn has_lang_attr(tcx: TyCtxt<'_>, def_id: LocalDefId) -> bool {
tcx.has_attr(def_id, sym::lang)
// Stable attribute for #[lang = "panic_impl"]
|| tcx.has_attr(def_id, sym::panic_handler)
}
fn has_allow_expect_dead_code(tcx: TyCtxt<'_>, def_id: LocalDefId) -> bool {
let hir_id = tcx.hir().local_def_id_to_hir_id(def_id);
let lint_level = tcx.lint_level_at_node(lint::builtin::DEAD_CODE, hir_id).0;
matches!(lint_level, lint::Allow | lint::Expect(_))
}
fn has_used_like_attr(tcx: TyCtxt<'_>, def_id: LocalDefId) -> bool {
tcx.def_kind(def_id).has_codegen_attrs() && {
let cg_attrs = tcx.codegen_fn_attrs(def_id);
// #[used], #[no_mangle], #[export_name], etc also keeps the item alive
// forcefully, e.g., for placing it in a specific section.
cg_attrs.contains_extern_indicator()
|| cg_attrs.flags.contains(CodegenFnAttrFlags::USED)
|| cg_attrs.flags.contains(CodegenFnAttrFlags::USED_LINKER)
}
}
if has_allow_expect_dead_code(tcx, def_id) {
Some(ComesFromAllowExpect::Yes)
} else if has_used_like_attr(tcx, def_id) || has_lang_attr(tcx, def_id) {
Some(ComesFromAllowExpect::No)
} else {
None
}
}
// These check_* functions seeds items that
// 1) We want to explicitly consider as live:
// * Item annotated with #[allow(dead_code)]
// - This is done so that if we want to suppress warnings for a
// group of dead functions, we only have to annotate the "root".
// For example, if both `f` and `g` are dead and `f` calls `g`,
// then annotating `f` with `#[allow(dead_code)]` will suppress
// warning for both `f` and `g`.
// * Item annotated with #[lang=".."]
// - This is because lang items are always callable from elsewhere.
// or
// 2) We are not sure to be live or not
// * Implementations of traits and trait methods
fn check_item<'tcx>(
tcx: TyCtxt<'tcx>,
worklist: &mut Vec<(LocalDefId, ComesFromAllowExpect)>,
struct_constructors: &mut LocalDefIdMap<LocalDefId>,
id: hir::ItemId,
) {
let allow_dead_code = has_allow_dead_code_or_lang_attr(tcx, id.owner_id.def_id);
if let Some(comes_from_allow) = allow_dead_code {
worklist.push((id.owner_id.def_id, comes_from_allow));
}
match tcx.def_kind(id.owner_id) {
DefKind::Enum => {
let item = tcx.hir().item(id);
if let hir::ItemKind::Enum(ref enum_def, _) = item.kind {
if let Some(comes_from_allow) = allow_dead_code {
worklist.extend(
enum_def.variants.iter().map(|variant| (variant.def_id, comes_from_allow)),
);
}
for variant in enum_def.variants {
if let Some(ctor_def_id) = variant.data.ctor_def_id() {
struct_constructors.insert(ctor_def_id, variant.def_id);
}
}
}
}
DefKind::Impl { of_trait } => {
if of_trait {
worklist.push((id.owner_id.def_id, ComesFromAllowExpect::No));
}
// get DefIds from another query
let local_def_ids = tcx
.associated_item_def_ids(id.owner_id)
.iter()
.filter_map(|def_id| def_id.as_local());
// And we access the Map here to get HirId from LocalDefId
for id in local_def_ids {
if of_trait {
worklist.push((id, ComesFromAllowExpect::No));
} else if let Some(comes_from_allow) = has_allow_dead_code_or_lang_attr(tcx, id) {
worklist.push((id, comes_from_allow));
}
}
}
DefKind::Struct => {
let item = tcx.hir().item(id);
if let hir::ItemKind::Struct(ref variant_data, _) = item.kind
&& let Some(ctor_def_id) = variant_data.ctor_def_id()
{
struct_constructors.insert(ctor_def_id, item.owner_id.def_id);
}
}
DefKind::GlobalAsm => {
// global_asm! is always live.
worklist.push((id.owner_id.def_id, ComesFromAllowExpect::No));
}
_ => {}
}
}
fn check_trait_item(
tcx: TyCtxt<'_>,
worklist: &mut Vec<(LocalDefId, ComesFromAllowExpect)>,
id: hir::TraitItemId,
) {
use hir::TraitItemKind::{Const, Fn};
if matches!(tcx.def_kind(id.owner_id), DefKind::AssocConst | DefKind::AssocFn) {
let trait_item = tcx.hir().trait_item(id);
if matches!(trait_item.kind, Const(_, Some(_)) | Fn(_, hir::TraitFn::Provided(_)))
&& let Some(comes_from_allow) = has_allow_dead_code_or_lang_attr(tcx, trait_item.owner_id.def_id)
{
worklist.push((trait_item.owner_id.def_id, comes_from_allow));
}
}
}
fn check_foreign_item(
tcx: TyCtxt<'_>,
worklist: &mut Vec<(LocalDefId, ComesFromAllowExpect)>,
id: hir::ForeignItemId,
) {
if matches!(tcx.def_kind(id.owner_id), DefKind::Static(_) | DefKind::Fn)
&& let Some(comes_from_allow) = has_allow_dead_code_or_lang_attr(tcx, id.owner_id.def_id)
{
worklist.push((id.owner_id.def_id, comes_from_allow));
}
}
fn create_and_seed_worklist(
tcx: TyCtxt<'_>,
) -> (Vec<(LocalDefId, ComesFromAllowExpect)>, LocalDefIdMap<LocalDefId>) {
let effective_visibilities = &tcx.effective_visibilities(());
// see `MarkSymbolVisitor::struct_constructors`
let mut struct_constructors = Default::default();
let mut worklist = effective_visibilities
.iter()
.filter_map(|(&id, effective_vis)| {
effective_vis
.is_public_at_level(Level::Reachable)
.then_some(id)
.map(|id| (id, ComesFromAllowExpect::No))
})
// Seed entry point
.chain(
tcx.entry_fn(())
.and_then(|(def_id, _)| def_id.as_local().map(|id| (id, ComesFromAllowExpect::No))),
)
.collect::<Vec<_>>();
let crate_items = tcx.hir_crate_items(());
for id in crate_items.items() {
check_item(tcx, &mut worklist, &mut struct_constructors, id);
}
for id in crate_items.trait_items() {
check_trait_item(tcx, &mut worklist, id);
}
for id in crate_items.foreign_items() {
check_foreign_item(tcx, &mut worklist, id);
}
(worklist, struct_constructors)
}
fn live_symbols_and_ignored_derived_traits(
tcx: TyCtxt<'_>,
(): (),
) -> (LocalDefIdSet, LocalDefIdMap<Vec<(DefId, DefId)>>) {
let (worklist, struct_constructors) = create_and_seed_worklist(tcx);
let mut symbol_visitor = MarkSymbolVisitor {
worklist,
tcx,
maybe_typeck_results: None,
live_symbols: Default::default(),
repr_has_repr_c: false,
repr_has_repr_simd: false,
in_pat: false,
ignore_variant_stack: vec![],
struct_constructors,
ignored_derived_traits: Default::default(),
};
symbol_visitor.mark_live_symbols();
(symbol_visitor.live_symbols, symbol_visitor.ignored_derived_traits)
}
struct DeadVariant {
def_id: LocalDefId,
name: Symbol,
level: lint::Level,
}
struct DeadVisitor<'tcx> {
tcx: TyCtxt<'tcx>,
live_symbols: &'tcx LocalDefIdSet,
ignored_derived_traits: &'tcx LocalDefIdMap<Vec<(DefId, DefId)>>,
}
enum ShouldWarnAboutField {
Yes(bool), // positional?
No,
}
impl<'tcx> DeadVisitor<'tcx> {
fn should_warn_about_field(&mut self, field: &ty::FieldDef) -> ShouldWarnAboutField {
if self.live_symbols.contains(&field.did.expect_local()) {
return ShouldWarnAboutField::No;
}
let field_type = self.tcx.type_of(field.did).instantiate_identity();
if field_type.is_phantom_data() {
return ShouldWarnAboutField::No;
}
let is_positional = field.name.as_str().starts_with(|c: char| c.is_ascii_digit());
if is_positional
&& self
.tcx
.layout_of(self.tcx.param_env(field.did).and(field_type))
.map_or(true, |layout| layout.is_zst())
{
return ShouldWarnAboutField::No;
}
ShouldWarnAboutField::Yes(is_positional)
}
fn warn_multiple_dead_codes(
&self,
dead_codes: &[LocalDefId],
participle: &str,
parent_item: Option<LocalDefId>,
is_positional: bool,
) {
let Some(&first_id) = dead_codes.first() else {
return;
};
let tcx = self.tcx;
let names: Vec<_> =
dead_codes.iter().map(|&def_id| tcx.item_name(def_id.to_def_id())).collect();
let spans: Vec<_> = dead_codes
.iter()
.map(|&def_id| match tcx.def_ident_span(def_id) {
Some(s) => s.with_ctxt(tcx.def_span(def_id).ctxt()),
None => tcx.def_span(def_id),
})
.collect();
let descr = tcx.def_descr(first_id.to_def_id());
// `impl` blocks are "batched" and (unlike other batching) might
// contain different kinds of associated items.
let descr = if dead_codes.iter().any(|did| tcx.def_descr(did.to_def_id()) != descr) {
"associated item"
} else {
descr
};
let num = dead_codes.len();
let multiple = num > 6;
let name_list = names.into();
let lint = if is_positional {
lint::builtin::UNUSED_TUPLE_STRUCT_FIELDS
} else {
lint::builtin::DEAD_CODE
};
let parent_info = if let Some(parent_item) = parent_item {
let parent_descr = tcx.def_descr(parent_item.to_def_id());
let span = if let DefKind::Impl { .. } = tcx.def_kind(parent_item) {
tcx.def_span(parent_item)
} else {
tcx.def_ident_span(parent_item).unwrap()
};
Some(ParentInfo { num, descr, parent_descr, span })
} else {
None
};
let encl_def_id = parent_item.unwrap_or(first_id);
let ignored_derived_impls =
if let Some(ign_traits) = self.ignored_derived_traits.get(&encl_def_id) {
let trait_list = ign_traits
.iter()
.map(|(trait_id, _)| self.tcx.item_name(*trait_id))
.collect::<Vec<_>>();
let trait_list_len = trait_list.len();
Some(IgnoredDerivedImpls {
name: self.tcx.item_name(encl_def_id.to_def_id()),
trait_list: trait_list.into(),
trait_list_len,
})
} else {
None
};
let diag = if is_positional {
MultipleDeadCodes::UnusedTupleStructFields {
multiple,
num,
descr,
participle,
name_list,
change_fields_suggestion: ChangeFieldsToBeOfUnitType { num, spans: spans.clone() },
parent_info,
ignored_derived_impls,
}
} else {
MultipleDeadCodes::DeadCodes {
multiple,
num,
descr,
participle,
name_list,
parent_info,
ignored_derived_impls,
}
};
self.tcx.emit_spanned_lint(
lint,
tcx.hir().local_def_id_to_hir_id(first_id),
MultiSpan::from_spans(spans),
diag,
);
}
fn warn_dead_fields_and_variants(
&self,
def_id: LocalDefId,
participle: &str,
dead_codes: Vec<DeadVariant>,
is_positional: bool,
) {
let mut dead_codes = dead_codes
.iter()
.filter(|v| !v.name.as_str().starts_with('_'))
.collect::<Vec<&DeadVariant>>();
if dead_codes.is_empty() {
return;
}
dead_codes.sort_by_key(|v| v.level);
for (_, group) in &dead_codes.into_iter().group_by(|v| v.level) {
self.warn_multiple_dead_codes(
&group.map(|v| v.def_id).collect::<Vec<_>>(),
participle,
Some(def_id),
is_positional,
);
}
}
fn warn_dead_code(&mut self, id: LocalDefId, participle: &str) {
self.warn_multiple_dead_codes(&[id], participle, None, false);
}
fn check_definition(&mut self, def_id: LocalDefId) {
if self.is_live_code(def_id) {
return;
}
match self.tcx.def_kind(def_id) {
DefKind::AssocConst
| DefKind::AssocFn
| DefKind::Fn
| DefKind::Static(_)
| DefKind::Const
| DefKind::TyAlias
| DefKind::Enum
| DefKind::Union
| DefKind::ForeignTy => self.warn_dead_code(def_id, "used"),
DefKind::Struct => self.warn_dead_code(def_id, "constructed"),
DefKind::Variant | DefKind::Field => bug!("should be handled specially"),
_ => {}
}
}
fn is_live_code(&self, def_id: LocalDefId) -> bool {
// if we cannot get a name for the item, then we just assume that it is
// live. I mean, we can't really emit a lint.
let Some(name) = self.tcx.opt_item_name(def_id.to_def_id()) else {
return true;
};
self.live_symbols.contains(&def_id) || name.as_str().starts_with('_')
}
}
fn check_mod_deathness(tcx: TyCtxt<'_>, module: LocalModDefId) {
let (live_symbols, ignored_derived_traits) = tcx.live_symbols_and_ignored_derived_traits(());
let mut visitor = DeadVisitor { tcx, live_symbols, ignored_derived_traits };
let module_items = tcx.hir_module_items(module);
for item in module_items.items() {
if let hir::ItemKind::Impl(impl_item) = tcx.hir().item(item).kind {
let mut dead_items = Vec::new();
for item in impl_item.items {
let did = item.id.owner_id.def_id;
if !visitor.is_live_code(did) {
dead_items.push(did)
}
}
visitor.warn_multiple_dead_codes(
&dead_items,
"used",
Some(item.owner_id.def_id),
false,
);
}
if !live_symbols.contains(&item.owner_id.def_id) {
let parent = tcx.local_parent(item.owner_id.def_id);
if parent != module.to_local_def_id() && !live_symbols.contains(&parent) {
// We already have diagnosed something.
continue;
}
visitor.check_definition(item.owner_id.def_id);
continue;
}
let def_kind = tcx.def_kind(item.owner_id);
if let DefKind::Struct | DefKind::Union | DefKind::Enum = def_kind {
let adt = tcx.adt_def(item.owner_id);
let mut dead_variants = Vec::new();
for variant in adt.variants() {
let def_id = variant.def_id.expect_local();
if !live_symbols.contains(&def_id) {
// Record to group diagnostics.
let hir_id = tcx.hir().local_def_id_to_hir_id(def_id);
let level = tcx.lint_level_at_node(lint::builtin::DEAD_CODE, hir_id).0;
dead_variants.push(DeadVariant { def_id, name: variant.name, level });
continue;
}
let mut is_positional = false;
let dead_fields = variant
.fields
.iter()
.filter_map(|field| {
let def_id = field.did.expect_local();
let hir_id = tcx.hir().local_def_id_to_hir_id(def_id);
if let ShouldWarnAboutField::Yes(is_pos) =
visitor.should_warn_about_field(&field)
{
let level = tcx
.lint_level_at_node(
if is_pos {
is_positional = true;
lint::builtin::UNUSED_TUPLE_STRUCT_FIELDS
} else {
lint::builtin::DEAD_CODE
},
hir_id,
)
.0;
Some(DeadVariant { def_id, name: field.name, level })
} else {
None
}
})
.collect();
visitor.warn_dead_fields_and_variants(def_id, "read", dead_fields, is_positional)
}
visitor.warn_dead_fields_and_variants(
item.owner_id.def_id,
"constructed",
dead_variants,
false,
);
}
}
for foreign_item in module_items.foreign_items() {
visitor.check_definition(foreign_item.owner_id.def_id);
}
// We do not warn trait items.
}
pub(crate) fn provide(providers: &mut Providers) {
*providers =
Providers { live_symbols_and_ignored_derived_traits, check_mod_deathness, ..*providers };
}
|