Auto merge of #17078 - Veykril:diags-perf, r=Veykril

internal: Improve diagnostics performance
This commit is contained in:
bors 2024-04-15 20:17:26 +00:00
commit 90cfa8035f
18 changed files with 176 additions and 158 deletions

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@ -45,7 +45,7 @@ pub trait Upcast<T: ?Sized> {
pub const DEFAULT_FILE_TEXT_LRU_CAP: usize = 16; pub const DEFAULT_FILE_TEXT_LRU_CAP: usize = 16;
pub const DEFAULT_PARSE_LRU_CAP: usize = 128; pub const DEFAULT_PARSE_LRU_CAP: usize = 128;
pub const DEFAULT_BORROWCK_LRU_CAP: usize = 1024; pub const DEFAULT_BORROWCK_LRU_CAP: usize = 2024;
pub trait FileLoader { pub trait FileLoader {
/// Text of the file. /// Text of the file.

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@ -510,6 +510,7 @@ pub struct ConstData {
pub type_ref: Interned<TypeRef>, pub type_ref: Interned<TypeRef>,
pub visibility: RawVisibility, pub visibility: RawVisibility,
pub rustc_allow_incoherent_impl: bool, pub rustc_allow_incoherent_impl: bool,
pub has_body: bool,
} }
impl ConstData { impl ConstData {
@ -533,6 +534,7 @@ pub(crate) fn const_data_query(db: &dyn DefDatabase, konst: ConstId) -> Arc<Cons
type_ref: konst.type_ref.clone(), type_ref: konst.type_ref.clone(),
visibility, visibility,
rustc_allow_incoherent_impl, rustc_allow_incoherent_impl,
has_body: konst.has_body,
}) })
} }
} }

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@ -26,7 +26,7 @@
tt::{Delimiter, DelimiterKind, Leaf, Subtree, TokenTree}, tt::{Delimiter, DelimiterKind, Leaf, Subtree, TokenTree},
type_ref::TypeRef, type_ref::TypeRef,
visibility::RawVisibility, visibility::RawVisibility,
EnumId, EnumVariantId, LocalFieldId, LocalModuleId, Lookup, StructId, UnionId, EnumId, EnumVariantId, LocalFieldId, LocalModuleId, Lookup, StructId, UnionId, VariantId,
}; };
/// Note that we use `StructData` for unions as well! /// Note that we use `StructData` for unions as well!
@ -378,6 +378,15 @@ pub fn kind(&self) -> StructKind {
VariantData::Unit => StructKind::Unit, VariantData::Unit => StructKind::Unit,
} }
} }
#[allow(clippy::self_named_constructors)]
pub(crate) fn variant_data(db: &dyn DefDatabase, id: VariantId) -> Arc<VariantData> {
match id {
VariantId::StructId(it) => db.struct_data(it).variant_data.clone(),
VariantId::EnumVariantId(it) => db.enum_variant_data(it).variant_data.clone(),
VariantId::UnionId(it) => db.union_data(it).variant_data.clone(),
}
}
} }
#[derive(Debug, Copy, Clone, PartialEq, Eq)] #[derive(Debug, Copy, Clone, PartialEq, Eq)]

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@ -12,7 +12,7 @@
attr::{Attrs, AttrsWithOwner}, attr::{Attrs, AttrsWithOwner},
body::{scope::ExprScopes, Body, BodySourceMap}, body::{scope::ExprScopes, Body, BodySourceMap},
data::{ data::{
adt::{EnumData, EnumVariantData, StructData}, adt::{EnumData, EnumVariantData, StructData, VariantData},
ConstData, ExternCrateDeclData, FunctionData, ImplData, Macro2Data, MacroRulesData, ConstData, ExternCrateDeclData, FunctionData, ImplData, Macro2Data, MacroRulesData,
ProcMacroData, StaticData, TraitAliasData, TraitData, TypeAliasData, ProcMacroData, StaticData, TraitAliasData, TraitData, TypeAliasData,
}, },
@ -127,6 +127,9 @@ fn enum_variant_data_with_diagnostics(
id: EnumVariantId, id: EnumVariantId,
) -> (Arc<EnumVariantData>, DefDiagnostics); ) -> (Arc<EnumVariantData>, DefDiagnostics);
#[salsa::transparent]
#[salsa::invoke(VariantData::variant_data)]
fn variant_data(&self, id: VariantId) -> Arc<VariantData>;
#[salsa::transparent] #[salsa::transparent]
#[salsa::invoke(ImplData::impl_data_query)] #[salsa::invoke(ImplData::impl_data_query)]
fn impl_data(&self, e: ImplId) -> Arc<ImplData>; fn impl_data(&self, e: ImplId) -> Arc<ImplData>;

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@ -716,6 +716,7 @@ pub struct Const {
pub visibility: RawVisibilityId, pub visibility: RawVisibilityId,
pub type_ref: Interned<TypeRef>, pub type_ref: Interned<TypeRef>,
pub ast_id: FileAstId<ast::Const>, pub ast_id: FileAstId<ast::Const>,
pub has_body: bool,
} }
#[derive(Debug, Clone, Eq, PartialEq)] #[derive(Debug, Clone, Eq, PartialEq)]

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@ -446,7 +446,7 @@ fn lower_const(&mut self, konst: &ast::Const) -> FileItemTreeId<Const> {
let type_ref = self.lower_type_ref_opt(konst.ty()); let type_ref = self.lower_type_ref_opt(konst.ty());
let visibility = self.lower_visibility(konst); let visibility = self.lower_visibility(konst);
let ast_id = self.source_ast_id_map.ast_id(konst); let ast_id = self.source_ast_id_map.ast_id(konst);
let res = Const { name, visibility, type_ref, ast_id }; let res = Const { name, visibility, type_ref, ast_id, has_body: konst.body().is_some() };
id(self.data().consts.alloc(res)) id(self.data().consts.alloc(res))
} }

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@ -357,7 +357,7 @@ fn print_mod_item(&mut self, item: ModItem) {
wln!(self, "}}"); wln!(self, "}}");
} }
ModItem::Const(it) => { ModItem::Const(it) => {
let Const { name, visibility, type_ref, ast_id } = &self.tree[it]; let Const { name, visibility, type_ref, ast_id, has_body: _ } = &self.tree[it];
self.print_ast_id(ast_id.erase()); self.print_ast_id(ast_id.erase());
self.print_visibility(*visibility); self.print_visibility(*visibility);
w!(self, "const "); w!(self, "const ");

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@ -43,7 +43,7 @@ mod allow {
} }
pub fn incorrect_case(db: &dyn HirDatabase, owner: ModuleDefId) -> Vec<IncorrectCase> { pub fn incorrect_case(db: &dyn HirDatabase, owner: ModuleDefId) -> Vec<IncorrectCase> {
let _p = tracing::span!(tracing::Level::INFO, "validate_module_item").entered(); let _p = tracing::span!(tracing::Level::INFO, "incorrect_case").entered();
let mut validator = DeclValidator::new(db); let mut validator = DeclValidator::new(db);
validator.validate_item(owner); validator.validate_item(owner);
validator.sink validator.sink

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@ -11,6 +11,7 @@
use hir_expand::name; use hir_expand::name;
use itertools::Itertools; use itertools::Itertools;
use rustc_hash::FxHashSet; use rustc_hash::FxHashSet;
use rustc_pattern_analysis::constructor::Constructor;
use syntax::{ast, AstNode}; use syntax::{ast, AstNode};
use tracing::debug; use tracing::debug;
use triomphe::Arc; use triomphe::Arc;
@ -190,8 +191,13 @@ fn validate_match(
let pattern_arena = Arena::new(); let pattern_arena = Arena::new();
let mut m_arms = Vec::with_capacity(arms.len()); let mut m_arms = Vec::with_capacity(arms.len());
let mut has_lowering_errors = false; let mut has_lowering_errors = false;
// Note: Skipping the entire diagnostic rather than just not including a faulty match arm is
// preferred to avoid the chance of false positives.
for arm in arms { for arm in arms {
if let Some(pat_ty) = self.infer.type_of_pat.get(arm.pat) { let Some(pat_ty) = self.infer.type_of_pat.get(arm.pat) else {
return;
};
// We only include patterns whose type matches the type // We only include patterns whose type matches the type
// of the scrutinee expression. If we had an InvalidMatchArmPattern // of the scrutinee expression. If we had an InvalidMatchArmPattern
// diagnostic or similar we could raise that in an else // diagnostic or similar we could raise that in an else
@ -223,12 +229,7 @@ fn validate_match(
continue; continue;
} }
} }
} // If the pattern type doesn't fit the match expression, we skip this diagnostic.
// If we can't resolve the type of a pattern, or the pattern type doesn't
// fit the match expression, we skip this diagnostic. Skipping the entire
// diagnostic rather than just not including this match arm is preferred
// to avoid the chance of false positives.
cov_mark::hit!(validate_match_bailed_out); cov_mark::hit!(validate_match_bailed_out);
return; return;
} }
@ -266,15 +267,17 @@ fn validate_block(&mut self, db: &dyn HirDatabase, expr: &Expr) {
let mut have_errors = false; let mut have_errors = false;
let deconstructed_pat = self.lower_pattern(&cx, pat, db, &mut have_errors); let deconstructed_pat = self.lower_pattern(&cx, pat, db, &mut have_errors);
// optimization, wildcard trivially hold
if have_errors || matches!(deconstructed_pat.ctor(), Constructor::Wildcard) {
continue;
}
let match_arm = rustc_pattern_analysis::MatchArm { let match_arm = rustc_pattern_analysis::MatchArm {
pat: pattern_arena.alloc(deconstructed_pat), pat: pattern_arena.alloc(deconstructed_pat),
has_guard: false, has_guard: false,
arm_data: (), arm_data: (),
}; };
if have_errors {
continue;
}
let report = match cx.compute_match_usefulness(&[match_arm], ty.clone()) { let report = match cx.compute_match_usefulness(&[match_arm], ty.clone()) {
Ok(v) => v, Ok(v) => v,
Err(e) => { Err(e) => {
@ -531,8 +534,16 @@ fn types_of_subpatterns_do_match(pat: PatId, body: &Body, infer: &InferenceResul
fn walk(pat: PatId, body: &Body, infer: &InferenceResult, has_type_mismatches: &mut bool) { fn walk(pat: PatId, body: &Body, infer: &InferenceResult, has_type_mismatches: &mut bool) {
match infer.type_mismatch_for_pat(pat) { match infer.type_mismatch_for_pat(pat) {
Some(_) => *has_type_mismatches = true, Some(_) => *has_type_mismatches = true,
None if *has_type_mismatches => (),
None => { None => {
body[pat].walk_child_pats(|subpat| walk(subpat, body, infer, has_type_mismatches)) let pat = &body[pat];
if let Pat::ConstBlock(expr) | Pat::Lit(expr) = *pat {
*has_type_mismatches |= infer.type_mismatch_for_expr(expr).is_some();
if *has_type_mismatches {
return;
}
}
pat.walk_child_pats(|subpat| walk(subpat, body, infer, has_type_mismatches))
} }
} }
} }

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@ -1,9 +1,9 @@
//! Interface with `rustc_pattern_analysis`. //! Interface with `rustc_pattern_analysis`.
use std::fmt; use std::fmt;
use tracing::debug;
use hir_def::{DefWithBodyId, EnumId, EnumVariantId, HasModule, LocalFieldId, ModuleId, VariantId}; use hir_def::{DefWithBodyId, EnumId, EnumVariantId, HasModule, LocalFieldId, ModuleId, VariantId};
use once_cell::unsync::Lazy;
use rustc_hash::FxHashMap; use rustc_hash::FxHashMap;
use rustc_pattern_analysis::{ use rustc_pattern_analysis::{
constructor::{Constructor, ConstructorSet, VariantVisibility}, constructor::{Constructor, ConstructorSet, VariantVisibility},
@ -91,20 +91,13 @@ pub(crate) fn compute_match_usefulness(
} }
fn is_uninhabited(&self, ty: &Ty) -> bool { fn is_uninhabited(&self, ty: &Ty) -> bool {
is_ty_uninhabited_from(ty, self.module, self.db) is_ty_uninhabited_from(self.db, ty, self.module)
} }
/// Returns whether the given type is an enum from another crate declared `#[non_exhaustive]`. /// Returns whether the given ADT is from another crate declared `#[non_exhaustive]`.
fn is_foreign_non_exhaustive_enum(&self, ty: &Ty) -> bool { fn is_foreign_non_exhaustive(&self, adt: hir_def::AdtId) -> bool {
match ty.as_adt() { let is_local = adt.krate(self.db.upcast()) == self.module.krate();
Some((adt @ hir_def::AdtId::EnumId(_), _)) => { !is_local && self.db.attrs(adt.into()).by_key("non_exhaustive").exists()
let has_non_exhaustive_attr =
self.db.attrs(adt.into()).by_key("non_exhaustive").exists();
let is_local = adt.module(self.db.upcast()).krate() == self.module.krate();
has_non_exhaustive_attr && !is_local
}
_ => false,
}
} }
fn variant_id_for_adt( fn variant_id_for_adt(
@ -376,24 +369,21 @@ fn ctor_sub_tys<'a>(
single(subst_ty) single(subst_ty)
} else { } else {
let variant = Self::variant_id_for_adt(self.db, ctor, adt).unwrap(); let variant = Self::variant_id_for_adt(self.db, ctor, adt).unwrap();
let (adt, _) = ty.as_adt().unwrap();
let adt_is_local =
variant.module(self.db.upcast()).krate() == self.module.krate();
// Whether we must not match the fields of this variant exhaustively. // Whether we must not match the fields of this variant exhaustively.
let is_non_exhaustive = let is_non_exhaustive = Lazy::new(|| self.is_foreign_non_exhaustive(adt));
self.db.attrs(variant.into()).by_key("non_exhaustive").exists() let visibilities = Lazy::new(|| self.db.field_visibilities(variant));
&& !adt_is_local;
let visibilities = self.db.field_visibilities(variant);
self.list_variant_fields(ty, variant) self.list_variant_fields(ty, variant)
.map(move |(fid, ty)| { .map(move |(fid, ty)| {
let is_visible = matches!(adt, hir_def::AdtId::EnumId(..)) let is_visible = || {
matches!(adt, hir_def::AdtId::EnumId(..))
|| visibilities[fid] || visibilities[fid]
.is_visible_from(self.db.upcast(), self.module); .is_visible_from(self.db.upcast(), self.module)
};
let is_uninhabited = self.is_uninhabited(&ty); let is_uninhabited = self.is_uninhabited(&ty);
let private_uninhabited = let private_uninhabited =
is_uninhabited && (!is_visible || is_non_exhaustive); is_uninhabited && (!is_visible() || *is_non_exhaustive);
(ty, PrivateUninhabitedField(private_uninhabited)) (ty, PrivateUninhabitedField(private_uninhabited))
}) })
.collect() .collect()
@ -445,17 +435,20 @@ fn ctors_for_ty(
TyKind::Scalar(Scalar::Char) => unhandled(), TyKind::Scalar(Scalar::Char) => unhandled(),
TyKind::Scalar(Scalar::Int(..) | Scalar::Uint(..)) => unhandled(), TyKind::Scalar(Scalar::Int(..) | Scalar::Uint(..)) => unhandled(),
TyKind::Array(..) | TyKind::Slice(..) => unhandled(), TyKind::Array(..) | TyKind::Slice(..) => unhandled(),
TyKind::Adt(AdtId(hir_def::AdtId::EnumId(enum_id)), subst) => { &TyKind::Adt(AdtId(adt @ hir_def::AdtId::EnumId(enum_id)), ref subst) => {
let enum_data = cx.db.enum_data(*enum_id); let enum_data = cx.db.enum_data(enum_id);
let is_declared_nonexhaustive = cx.is_foreign_non_exhaustive_enum(ty); let is_declared_nonexhaustive = cx.is_foreign_non_exhaustive(adt);
if enum_data.variants.is_empty() && !is_declared_nonexhaustive { if enum_data.variants.is_empty() && !is_declared_nonexhaustive {
ConstructorSet::NoConstructors ConstructorSet::NoConstructors
} else { } else {
let mut variants = FxHashMap::default(); let mut variants = FxHashMap::with_capacity_and_hasher(
enum_data.variants.len(),
Default::default(),
);
for (i, &(variant, _)) in enum_data.variants.iter().enumerate() { for (i, &(variant, _)) in enum_data.variants.iter().enumerate() {
let is_uninhabited = let is_uninhabited =
is_enum_variant_uninhabited_from(variant, subst, cx.module, cx.db); is_enum_variant_uninhabited_from(cx.db, variant, subst, cx.module);
let visibility = if is_uninhabited { let visibility = if is_uninhabited {
VariantVisibility::Empty VariantVisibility::Empty
} else { } else {
@ -506,7 +499,7 @@ fn write_variant_name(
} }
fn bug(&self, fmt: fmt::Arguments<'_>) { fn bug(&self, fmt: fmt::Arguments<'_>) {
debug!("{}", fmt) never!("{}", fmt)
} }
fn complexity_exceeded(&self) -> Result<(), Self::Error> { fn complexity_exceeded(&self) -> Result<(), Self::Error> {

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@ -4,7 +4,7 @@
use hir_def::{ use hir_def::{
body::Body, body::Body,
hir::{Expr, ExprId, UnaryOp}, hir::{Expr, ExprId, UnaryOp},
resolver::{resolver_for_expr, ResolveValueResult, ValueNs}, resolver::{resolver_for_expr, ResolveValueResult, Resolver, ValueNs},
DefWithBodyId, DefWithBodyId,
}; };
@ -13,9 +13,9 @@
}; };
pub fn missing_unsafe(db: &dyn HirDatabase, def: DefWithBodyId) -> Vec<ExprId> { pub fn missing_unsafe(db: &dyn HirDatabase, def: DefWithBodyId) -> Vec<ExprId> {
let infer = db.infer(def); let _p = tracing::span!(tracing::Level::INFO, "missing_unsafe",);
let mut res = Vec::new();
let mut res = Vec::new();
let is_unsafe = match def { let is_unsafe = match def {
DefWithBodyId::FunctionId(it) => db.function_data(it).has_unsafe_kw(), DefWithBodyId::FunctionId(it) => db.function_data(it).has_unsafe_kw(),
DefWithBodyId::StaticId(_) DefWithBodyId::StaticId(_)
@ -28,6 +28,7 @@ pub fn missing_unsafe(db: &dyn HirDatabase, def: DefWithBodyId) -> Vec<ExprId> {
} }
let body = db.body(def); let body = db.body(def);
let infer = db.infer(def);
unsafe_expressions(db, &infer, def, &body, body.body_expr, &mut |expr| { unsafe_expressions(db, &infer, def, &body, body.body_expr, &mut |expr| {
if !expr.inside_unsafe_block { if !expr.inside_unsafe_block {
res.push(expr.expr); res.push(expr.expr);
@ -51,14 +52,24 @@ pub fn unsafe_expressions(
current: ExprId, current: ExprId,
unsafe_expr_cb: &mut dyn FnMut(UnsafeExpr), unsafe_expr_cb: &mut dyn FnMut(UnsafeExpr),
) { ) {
walk_unsafe(db, infer, def, body, current, false, unsafe_expr_cb) walk_unsafe(
db,
infer,
body,
&mut resolver_for_expr(db.upcast(), def, current),
def,
current,
false,
unsafe_expr_cb,
)
} }
fn walk_unsafe( fn walk_unsafe(
db: &dyn HirDatabase, db: &dyn HirDatabase,
infer: &InferenceResult, infer: &InferenceResult,
def: DefWithBodyId,
body: &Body, body: &Body,
resolver: &mut Resolver,
def: DefWithBodyId,
current: ExprId, current: ExprId,
inside_unsafe_block: bool, inside_unsafe_block: bool,
unsafe_expr_cb: &mut dyn FnMut(UnsafeExpr), unsafe_expr_cb: &mut dyn FnMut(UnsafeExpr),
@ -73,13 +84,14 @@ fn walk_unsafe(
} }
} }
Expr::Path(path) => { Expr::Path(path) => {
let resolver = resolver_for_expr(db.upcast(), def, current); let g = resolver.update_to_inner_scope(db.upcast(), def, current);
let value_or_partial = resolver.resolve_path_in_value_ns(db.upcast(), path); let value_or_partial = resolver.resolve_path_in_value_ns(db.upcast(), path);
if let Some(ResolveValueResult::ValueNs(ValueNs::StaticId(id), _)) = value_or_partial { if let Some(ResolveValueResult::ValueNs(ValueNs::StaticId(id), _)) = value_or_partial {
if db.static_data(id).mutable { if db.static_data(id).mutable {
unsafe_expr_cb(UnsafeExpr { expr: current, inside_unsafe_block }); unsafe_expr_cb(UnsafeExpr { expr: current, inside_unsafe_block });
} }
} }
resolver.reset_to_guard(g);
} }
Expr::MethodCall { .. } => { Expr::MethodCall { .. } => {
if infer if infer
@ -97,13 +109,13 @@ fn walk_unsafe(
} }
Expr::Unsafe { .. } => { Expr::Unsafe { .. } => {
return expr.walk_child_exprs(|child| { return expr.walk_child_exprs(|child| {
walk_unsafe(db, infer, def, body, child, true, unsafe_expr_cb); walk_unsafe(db, infer, body, resolver, def, child, true, unsafe_expr_cb);
}); });
} }
_ => {} _ => {}
} }
expr.walk_child_exprs(|child| { expr.walk_child_exprs(|child| {
walk_unsafe(db, infer, def, body, child, inside_unsafe_block, unsafe_expr_cb); walk_unsafe(db, infer, body, resolver, def, child, inside_unsafe_block, unsafe_expr_cb);
}); });
} }

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@ -432,6 +432,7 @@ pub struct InferenceResult {
/// Whether there are any type-mismatching errors in the result. /// Whether there are any type-mismatching errors in the result.
pub(crate) has_errors: bool, pub(crate) has_errors: bool,
/// Interned common types to return references to. /// Interned common types to return references to.
// FIXME: Move this into `InferenceContext`
standard_types: InternedStandardTypes, standard_types: InternedStandardTypes,
/// Stores the types which were implicitly dereferenced in pattern binding modes. /// Stores the types which were implicitly dereferenced in pattern binding modes.
pub pat_adjustments: FxHashMap<PatId, Vec<Ty>>, pub pat_adjustments: FxHashMap<PatId, Vec<Ty>>,

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@ -5,42 +5,36 @@
visit::{TypeSuperVisitable, TypeVisitable, TypeVisitor}, visit::{TypeSuperVisitable, TypeVisitable, TypeVisitor},
DebruijnIndex, DebruijnIndex,
}; };
use hir_def::{ use hir_def::{visibility::Visibility, AdtId, EnumVariantId, HasModule, ModuleId, VariantId};
attr::Attrs, data::adt::VariantData, visibility::Visibility, AdtId, EnumVariantId, HasModule,
ModuleId, VariantId,
};
use rustc_hash::FxHashSet; use rustc_hash::FxHashSet;
use crate::{ use crate::{
consteval::try_const_usize, db::HirDatabase, Binders, Interner, Substitution, Ty, TyKind, consteval::try_const_usize, db::HirDatabase, Binders, Interner, Substitution, Ty, TyKind,
}; };
// FIXME: Turn this into a query, it can be quite slow
/// Checks whether a type is visibly uninhabited from a particular module. /// Checks whether a type is visibly uninhabited from a particular module.
pub(crate) fn is_ty_uninhabited_from(ty: &Ty, target_mod: ModuleId, db: &dyn HirDatabase) -> bool { pub(crate) fn is_ty_uninhabited_from(db: &dyn HirDatabase, ty: &Ty, target_mod: ModuleId) -> bool {
let _p = tracing::span!(tracing::Level::INFO, "is_ty_uninhabited_from", ?ty);
let mut uninhabited_from = let mut uninhabited_from =
UninhabitedFrom { target_mod, db, max_depth: 500, recursive_ty: FxHashSet::default() }; UninhabitedFrom { target_mod, db, max_depth: 500, recursive_ty: FxHashSet::default() };
let inhabitedness = ty.visit_with(&mut uninhabited_from, DebruijnIndex::INNERMOST); let inhabitedness = ty.visit_with(&mut uninhabited_from, DebruijnIndex::INNERMOST);
inhabitedness == BREAK_VISIBLY_UNINHABITED inhabitedness == BREAK_VISIBLY_UNINHABITED
} }
// FIXME: Turn this into a query, it can be quite slow
/// Checks whether a variant is visibly uninhabited from a particular module. /// Checks whether a variant is visibly uninhabited from a particular module.
pub(crate) fn is_enum_variant_uninhabited_from( pub(crate) fn is_enum_variant_uninhabited_from(
db: &dyn HirDatabase,
variant: EnumVariantId, variant: EnumVariantId,
subst: &Substitution, subst: &Substitution,
target_mod: ModuleId, target_mod: ModuleId,
db: &dyn HirDatabase,
) -> bool { ) -> bool {
let is_local = variant.module(db.upcast()).krate() == target_mod.krate(); let _p = tracing::span!(tracing::Level::INFO, "is_enum_variant_uninhabited_from",);
let mut uninhabited_from = let mut uninhabited_from =
UninhabitedFrom { target_mod, db, max_depth: 500, recursive_ty: FxHashSet::default() }; UninhabitedFrom { target_mod, db, max_depth: 500, recursive_ty: FxHashSet::default() };
let inhabitedness = uninhabited_from.visit_variant( let inhabitedness = uninhabited_from.visit_variant(variant.into(), subst);
variant.into(),
&db.enum_variant_data(variant).variant_data,
subst,
&db.attrs(variant.into()),
is_local,
);
inhabitedness == BREAK_VISIBLY_UNINHABITED inhabitedness == BREAK_VISIBLY_UNINHABITED
} }
@ -98,34 +92,18 @@ fn interner(&self) -> Interner {
impl UninhabitedFrom<'_> { impl UninhabitedFrom<'_> {
fn visit_adt(&mut self, adt: AdtId, subst: &Substitution) -> ControlFlow<VisiblyUninhabited> { fn visit_adt(&mut self, adt: AdtId, subst: &Substitution) -> ControlFlow<VisiblyUninhabited> {
let attrs = self.db.attrs(adt.into());
let adt_non_exhaustive = attrs.by_key("non_exhaustive").exists();
let is_local = adt.module(self.db.upcast()).krate() == self.target_mod.krate();
if adt_non_exhaustive && !is_local {
return CONTINUE_OPAQUELY_INHABITED;
}
// An ADT is uninhabited iff all its variants uninhabited. // An ADT is uninhabited iff all its variants uninhabited.
match adt { match adt {
// rustc: For now, `union`s are never considered uninhabited. // rustc: For now, `union`s are never considered uninhabited.
AdtId::UnionId(_) => CONTINUE_OPAQUELY_INHABITED, AdtId::UnionId(_) => CONTINUE_OPAQUELY_INHABITED,
AdtId::StructId(s) => { AdtId::StructId(s) => self.visit_variant(s.into(), subst),
let struct_data = self.db.struct_data(s);
self.visit_variant(s.into(), &struct_data.variant_data, subst, &attrs, is_local)
}
AdtId::EnumId(e) => { AdtId::EnumId(e) => {
let enum_data = self.db.enum_data(e); let enum_data = self.db.enum_data(e);
for &(variant, _) in enum_data.variants.iter() { for &(variant, _) in enum_data.variants.iter() {
let variant_inhabitedness = self.visit_variant( let variant_inhabitedness = self.visit_variant(variant.into(), subst);
variant.into(),
&self.db.enum_variant_data(variant).variant_data,
subst,
&self.db.attrs(variant.into()),
is_local,
);
match variant_inhabitedness { match variant_inhabitedness {
Break(VisiblyUninhabited) => continue, Break(VisiblyUninhabited) => (),
Continue(()) => return CONTINUE_OPAQUELY_INHABITED, Continue(()) => return CONTINUE_OPAQUELY_INHABITED,
} }
} }
@ -137,34 +115,36 @@ fn visit_adt(&mut self, adt: AdtId, subst: &Substitution) -> ControlFlow<Visibly
fn visit_variant( fn visit_variant(
&mut self, &mut self,
variant: VariantId, variant: VariantId,
variant_data: &VariantData,
subst: &Substitution, subst: &Substitution,
attrs: &Attrs,
is_local: bool,
) -> ControlFlow<VisiblyUninhabited> { ) -> ControlFlow<VisiblyUninhabited> {
let non_exhaustive_field_list = attrs.by_key("non_exhaustive").exists(); let is_local = variant.krate(self.db.upcast()) == self.target_mod.krate();
if non_exhaustive_field_list && !is_local { if !is_local && self.db.attrs(variant.into()).by_key("non_exhaustive").exists() {
return CONTINUE_OPAQUELY_INHABITED;
}
let variant_data = self.db.variant_data(variant);
let fields = variant_data.fields();
if fields.is_empty() {
return CONTINUE_OPAQUELY_INHABITED; return CONTINUE_OPAQUELY_INHABITED;
} }
let is_enum = matches!(variant, VariantId::EnumVariantId(..)); let is_enum = matches!(variant, VariantId::EnumVariantId(..));
let field_tys = self.db.field_types(variant); let field_tys = self.db.field_types(variant);
let field_vis = self.db.field_visibilities(variant); let field_vis = if is_enum { None } else { Some(self.db.field_visibilities(variant)) };
for (fid, _) in variant_data.fields().iter() { for (fid, _) in fields.iter() {
self.visit_field(field_vis[fid], &field_tys[fid], subst, is_enum)?; self.visit_field(field_vis.as_ref().map(|it| it[fid]), &field_tys[fid], subst)?;
} }
CONTINUE_OPAQUELY_INHABITED CONTINUE_OPAQUELY_INHABITED
} }
fn visit_field( fn visit_field(
&mut self, &mut self,
vis: Visibility, vis: Option<Visibility>,
ty: &Binders<Ty>, ty: &Binders<Ty>,
subst: &Substitution, subst: &Substitution,
is_enum: bool,
) -> ControlFlow<VisiblyUninhabited> { ) -> ControlFlow<VisiblyUninhabited> {
if is_enum || vis.is_visible_from(self.db.upcast(), self.target_mod) { if vis.map_or(true, |it| it.is_visible_from(self.db.upcast(), self.target_mod)) {
let ty = ty.clone().substitute(Interner, subst); let ty = ty.clone().substitute(Interner, subst);
ty.visit_with(self, DebruijnIndex::INNERMOST) ty.visit_with(self, DebruijnIndex::INNERMOST)
} else { } else {

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@ -1706,7 +1706,7 @@ fn current_loop_end(&mut self) -> Result<BasicBlockId> {
} }
fn is_uninhabited(&self, expr_id: ExprId) -> bool { fn is_uninhabited(&self, expr_id: ExprId) -> bool {
is_ty_uninhabited_from(&self.infer[expr_id], self.owner.module(self.db.upcast()), self.db) is_ty_uninhabited_from(self.db, &self.infer[expr_id], self.owner.module(self.db.upcast()))
} }
/// This function push `StorageLive` statement for the binding, and applies changes to add `StorageDead` and /// This function push `StorageLive` statement for the binding, and applies changes to add `StorageDead` and

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@ -548,8 +548,7 @@ pub fn diagnostics(
acc: &mut Vec<AnyDiagnostic>, acc: &mut Vec<AnyDiagnostic>,
style_lints: bool, style_lints: bool,
) { ) {
let name = self.name(db); let _p = tracing::span!(tracing::Level::INFO, "Module::diagnostics", name = ?self.name(db));
let _p = tracing::span!(tracing::Level::INFO, "Module::diagnostics", ?name);
let def_map = self.id.def_map(db.upcast()); let def_map = self.id.def_map(db.upcast());
for diag in def_map.diagnostics() { for diag in def_map.diagnostics() {
if diag.in_module != self.id.local_id { if diag.in_module != self.id.local_id {
@ -684,7 +683,7 @@ pub fn diagnostics(
let items = &db.trait_data(trait_.into()).items; let items = &db.trait_data(trait_.into()).items;
let required_items = items.iter().filter(|&(_, assoc)| match *assoc { let required_items = items.iter().filter(|&(_, assoc)| match *assoc {
AssocItemId::FunctionId(it) => !db.function_data(it).has_body(), AssocItemId::FunctionId(it) => !db.function_data(it).has_body(),
AssocItemId::ConstId(id) => Const::from(id).value(db).is_none(), AssocItemId::ConstId(id) => !db.const_data(id).has_body,
AssocItemId::TypeAliasId(it) => db.type_alias_data(it).type_ref.is_none(), AssocItemId::TypeAliasId(it) => db.type_alias_data(it).type_ref.is_none(),
}); });
impl_assoc_items_scratch.extend(db.impl_data(impl_def.id).items.iter().filter_map( impl_assoc_items_scratch.extend(db.impl_data(impl_def.id).items.iter().filter_map(
@ -1628,7 +1627,6 @@ pub fn diagnostics(
acc: &mut Vec<AnyDiagnostic>, acc: &mut Vec<AnyDiagnostic>,
style_lints: bool, style_lints: bool,
) { ) {
db.unwind_if_cancelled();
let krate = self.module(db).id.krate(); let krate = self.module(db).id.krate();
let (body, source_map) = db.body_with_source_map(self.into()); let (body, source_map) = db.body_with_source_map(self.into());
@ -1762,7 +1760,9 @@ pub fn diagnostics(
need_mut = &mir::MutabilityReason::Not; need_mut = &mir::MutabilityReason::Not;
} }
let local = Local { parent: self.into(), binding_id }; let local = Local { parent: self.into(), binding_id };
match (need_mut, local.is_mut(db)) { let is_mut = body[binding_id].mode == BindingAnnotation::Mutable;
match (need_mut, is_mut) {
(mir::MutabilityReason::Unused, _) => { (mir::MutabilityReason::Unused, _) => {
let should_ignore = matches!(body[binding_id].name.as_str(), Some(it) if it.starts_with('_')); let should_ignore = matches!(body[binding_id].name.as_str(), Some(it) if it.starts_with('_'));
if !should_ignore { if !should_ignore {

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@ -317,7 +317,8 @@ fn main() {
#[test] #[test]
fn mismatched_types_issue_15883() { fn mismatched_types_issue_15883() {
// Check we don't panic. // Check we don't panic.
check_diagnostics_no_bails( cov_mark::check!(validate_match_bailed_out);
check_diagnostics(
r#" r#"
//- minicore: option //- minicore: option
fn main() { fn main() {

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@ -320,13 +320,11 @@ pub fn diagnostics(
let module = sema.file_to_module_def(file_id); let module = sema.file_to_module_def(file_id);
let ctx = DiagnosticsContext { config, sema, resolve }; let ctx = DiagnosticsContext { config, sema, resolve };
if module.is_none() {
handlers::unlinked_file::unlinked_file(&ctx, &mut res, file_id);
}
let mut diags = Vec::new(); let mut diags = Vec::new();
if let Some(m) = module { match module {
m.diagnostics(db, &mut diags, config.style_lints); Some(m) => m.diagnostics(db, &mut diags, config.style_lints),
None => handlers::unlinked_file::unlinked_file(&ctx, &mut res, file_id),
} }
for diag in diags { for diag in diags {
@ -409,6 +407,11 @@ pub fn diagnostics(
res.push(d) res.push(d)
} }
res.retain(|d| {
!(ctx.config.disabled.contains(d.code.as_str())
|| ctx.config.disable_experimental && d.experimental)
});
let mut diagnostics_of_range = res let mut diagnostics_of_range = res
.iter_mut() .iter_mut()
.filter_map(|it| { .filter_map(|it| {
@ -421,9 +424,14 @@ pub fn diagnostics(
}) })
.collect::<FxHashMap<_, _>>(); .collect::<FxHashMap<_, _>>();
if diagnostics_of_range.is_empty() {
return res;
}
let mut rustc_stack: FxHashMap<String, Vec<Severity>> = FxHashMap::default(); let mut rustc_stack: FxHashMap<String, Vec<Severity>> = FxHashMap::default();
let mut clippy_stack: FxHashMap<String, Vec<Severity>> = FxHashMap::default(); let mut clippy_stack: FxHashMap<String, Vec<Severity>> = FxHashMap::default();
// FIXME: This becomes quite expensive for big files
handle_lint_attributes( handle_lint_attributes(
&ctx.sema, &ctx.sema,
parse.syntax(), parse.syntax(),
@ -432,11 +440,7 @@ pub fn diagnostics(
&mut diagnostics_of_range, &mut diagnostics_of_range,
); );
res.retain(|d| { res.retain(|d| d.severity != Severity::Allow);
d.severity != Severity::Allow
&& !ctx.config.disabled.contains(d.code.as_str())
&& !(ctx.config.disable_experimental && d.experimental)
});
res res
} }
@ -476,6 +480,7 @@ fn handle_lint_attributes(
clippy_stack: &mut FxHashMap<String, Vec<Severity>>, clippy_stack: &mut FxHashMap<String, Vec<Severity>>,
diagnostics_of_range: &mut FxHashMap<InFile<SyntaxNode>, &mut Diagnostic>, diagnostics_of_range: &mut FxHashMap<InFile<SyntaxNode>, &mut Diagnostic>,
) { ) {
let _g = tracing::span!(tracing::Level::INFO, "handle_lint_attributes").entered();
let file_id = sema.hir_file_for(root); let file_id = sema.hir_file_for(root);
let preorder = root.preorder(); let preorder = root.preorder();
for ev in preorder { for ev in preorder {
@ -486,24 +491,24 @@ fn handle_lint_attributes(
stack.push(severity); stack.push(severity);
}); });
} }
if let Some(x) = if let Some(it) =
diagnostics_of_range.get_mut(&InFile { file_id, value: node.clone() }) diagnostics_of_range.get_mut(&InFile { file_id, value: node.clone() })
{ {
const EMPTY_LINTS: &[&str] = &[]; const EMPTY_LINTS: &[&str] = &[];
let (names, stack) = match x.code { let (names, stack) = match it.code {
DiagnosticCode::RustcLint(name) => ( DiagnosticCode::RustcLint(name) => (
RUSTC_LINT_GROUPS_DICT.get(name).map_or(EMPTY_LINTS, |x| &**x), RUSTC_LINT_GROUPS_DICT.get(name).map_or(EMPTY_LINTS, |it| &**it),
&mut *rustc_stack, &mut *rustc_stack,
), ),
DiagnosticCode::Clippy(name) => ( DiagnosticCode::Clippy(name) => (
CLIPPY_LINT_GROUPS_DICT.get(name).map_or(EMPTY_LINTS, |x| &**x), CLIPPY_LINT_GROUPS_DICT.get(name).map_or(EMPTY_LINTS, |it| &**it),
&mut *clippy_stack, &mut *clippy_stack,
), ),
_ => continue, _ => continue,
}; };
for &name in names { for &name in names {
if let Some(s) = stack.get(name).and_then(|x| x.last()) { if let Some(s) = stack.get(name).and_then(|it| it.last()) {
x.severity = *s; it.severity = *s;
} }
} }
} }
@ -571,8 +576,8 @@ fn parse_lint_attribute(
if let Some(lint) = lint.as_single_name_ref() { if let Some(lint) = lint.as_single_name_ref() {
job(rustc_stack.entry(lint.to_string()).or_default(), severity); job(rustc_stack.entry(lint.to_string()).or_default(), severity);
} }
if let Some(tool) = lint.qualifier().and_then(|x| x.as_single_name_ref()) { if let Some(tool) = lint.qualifier().and_then(|it| it.as_single_name_ref()) {
if let Some(name_ref) = &lint.segment().and_then(|x| x.name_ref()) { if let Some(name_ref) = &lint.segment().and_then(|it| it.name_ref()) {
if tool.to_string() == "clippy" { if tool.to_string() == "clippy" {
job(clippy_stack.entry(name_ref.to_string()).or_default(), severity); job(clippy_stack.entry(name_ref.to_string()).or_default(), severity);
} }

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@ -40,7 +40,7 @@ fn integrated_highlighting_benchmark() {
}; };
let load_cargo_config = LoadCargoConfig { let load_cargo_config = LoadCargoConfig {
load_out_dirs_from_check: true, load_out_dirs_from_check: true,
with_proc_macro_server: ProcMacroServerChoice::None, with_proc_macro_server: ProcMacroServerChoice::Sysroot,
prefill_caches: false, prefill_caches: false,
}; };
@ -100,7 +100,7 @@ fn integrated_completion_benchmark() {
}; };
let load_cargo_config = LoadCargoConfig { let load_cargo_config = LoadCargoConfig {
load_out_dirs_from_check: true, load_out_dirs_from_check: true,
with_proc_macro_server: ProcMacroServerChoice::None, with_proc_macro_server: ProcMacroServerChoice::Sysroot,
prefill_caches: true, prefill_caches: true,
}; };
@ -262,7 +262,7 @@ fn integrated_diagnostics_benchmark() {
}; };
let load_cargo_config = LoadCargoConfig { let load_cargo_config = LoadCargoConfig {
load_out_dirs_from_check: true, load_out_dirs_from_check: true,
with_proc_macro_server: ProcMacroServerChoice::None, with_proc_macro_server: ProcMacroServerChoice::Sysroot,
prefill_caches: true, prefill_caches: true,
}; };
@ -300,7 +300,7 @@ fn integrated_diagnostics_benchmark() {
.diagnostics(&diagnostics_config, ide::AssistResolveStrategy::None, file_id) .diagnostics(&diagnostics_config, ide::AssistResolveStrategy::None, file_id)
.unwrap(); .unwrap();
let _g = crate::tracing::hprof::init("*>1"); let _g = crate::tracing::hprof::init("*");
{ {
let _it = stdx::timeit("change"); let _it = stdx::timeit("change");