mirror of
https://github.com/rust-lang/rust-analyzer
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836 lines
30 KiB
Rust
836 lines
30 KiB
Rust
//! Type inference, i.e. the process of walking through the code and determining
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//! the type of each expression and pattern.
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//!
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//! For type inference, compare the implementations in rustc (the various
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//! check_* methods in librustc_typeck/check/mod.rs are a good entry point) and
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//! IntelliJ-Rust (org.rust.lang.core.types.infer). Our entry point for
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//! inference here is the `infer` function, which infers the types of all
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//! expressions in a given function.
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//!
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//! During inference, types (i.e. the `Ty` struct) can contain type 'variables'
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//! which represent currently unknown types; as we walk through the expressions,
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//! we might determine that certain variables need to be equal to each other, or
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//! to certain types. To record this, we use the union-find implementation from
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//! the `ena` crate, which is extracted from rustc.
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use std::borrow::Cow;
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use std::mem;
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use std::ops::Index;
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use std::sync::Arc;
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use chalk_ir::{cast::Cast, DebruijnIndex, Mutability};
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use hir_def::{
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body::Body,
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data::{ConstData, FunctionData, StaticData},
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expr::{ArithOp, BinaryOp, BindingAnnotation, ExprId, PatId},
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lang_item::LangItemTarget,
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path::{path, Path},
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resolver::{HasResolver, Resolver, TypeNs},
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type_ref::TypeRef,
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AdtId, AssocItemId, DefWithBodyId, EnumVariantId, FieldId, FunctionId, Lookup, TraitId,
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TypeAliasId, VariantId,
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};
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use hir_expand::{diagnostics::DiagnosticSink, name::name};
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use la_arena::ArenaMap;
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use rustc_hash::FxHashMap;
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use stdx::impl_from;
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use syntax::SmolStr;
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use super::{
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DomainGoal, Guidance, InEnvironment, ProjectionTy, Solution, TraitEnvironment, TraitRef, Ty,
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};
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use crate::{
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db::HirDatabase, fold_tys, infer::diagnostics::InferenceDiagnostic,
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lower::ImplTraitLoweringMode, to_assoc_type_id, AliasEq, AliasTy, Canonical, Interner,
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TyBuilder, TyExt, TyKind,
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};
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// This lint has a false positive here. See the link below for details.
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//
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// https://github.com/rust-lang/rust/issues/57411
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#[allow(unreachable_pub)]
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pub use unify::could_unify;
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pub(crate) use unify::unify;
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mod unify;
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mod path;
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mod expr;
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mod pat;
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mod coerce;
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/// The entry point of type inference.
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pub(crate) fn infer_query(db: &dyn HirDatabase, def: DefWithBodyId) -> Arc<InferenceResult> {
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let _p = profile::span("infer_query");
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let resolver = def.resolver(db.upcast());
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let mut ctx = InferenceContext::new(db, def, resolver);
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match def {
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DefWithBodyId::ConstId(c) => ctx.collect_const(&db.const_data(c)),
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DefWithBodyId::FunctionId(f) => ctx.collect_fn(&db.function_data(f)),
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DefWithBodyId::StaticId(s) => ctx.collect_static(&db.static_data(s)),
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}
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ctx.infer_body();
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Arc::new(ctx.resolve_all())
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}
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#[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)]
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enum ExprOrPatId {
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ExprId(ExprId),
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PatId(PatId),
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}
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impl_from!(ExprId, PatId for ExprOrPatId);
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/// Binding modes inferred for patterns.
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/// https://doc.rust-lang.org/reference/patterns.html#binding-modes
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#[derive(Copy, Clone, Debug, Eq, PartialEq)]
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enum BindingMode {
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Move,
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Ref(Mutability),
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}
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impl BindingMode {
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fn convert(annotation: BindingAnnotation) -> BindingMode {
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match annotation {
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BindingAnnotation::Unannotated | BindingAnnotation::Mutable => BindingMode::Move,
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BindingAnnotation::Ref => BindingMode::Ref(Mutability::Not),
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BindingAnnotation::RefMut => BindingMode::Ref(Mutability::Mut),
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}
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}
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}
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impl Default for BindingMode {
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fn default() -> Self {
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BindingMode::Move
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}
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}
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/// A mismatch between an expected and an inferred type.
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#[derive(Clone, PartialEq, Eq, Debug, Hash)]
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pub struct TypeMismatch {
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pub expected: Ty,
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pub actual: Ty,
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}
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#[derive(Clone, PartialEq, Eq, Debug)]
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struct InternedStandardTypes {
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unknown: Ty,
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}
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impl Default for InternedStandardTypes {
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fn default() -> Self {
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InternedStandardTypes { unknown: TyKind::Error.intern(&Interner) }
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}
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}
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/// The result of type inference: A mapping from expressions and patterns to types.
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#[derive(Clone, PartialEq, Eq, Debug, Default)]
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pub struct InferenceResult {
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/// For each method call expr, records the function it resolves to.
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method_resolutions: FxHashMap<ExprId, FunctionId>,
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/// For each field access expr, records the field it resolves to.
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field_resolutions: FxHashMap<ExprId, FieldId>,
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/// For each struct literal or pattern, records the variant it resolves to.
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variant_resolutions: FxHashMap<ExprOrPatId, VariantId>,
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/// For each associated item record what it resolves to
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assoc_resolutions: FxHashMap<ExprOrPatId, AssocItemId>,
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diagnostics: Vec<InferenceDiagnostic>,
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pub type_of_expr: ArenaMap<ExprId, Ty>,
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pub type_of_pat: ArenaMap<PatId, Ty>,
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pub(super) type_mismatches: ArenaMap<ExprId, TypeMismatch>,
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/// Interned Unknown to return references to.
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standard_types: InternedStandardTypes,
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}
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impl InferenceResult {
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pub fn method_resolution(&self, expr: ExprId) -> Option<FunctionId> {
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self.method_resolutions.get(&expr).copied()
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}
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pub fn field_resolution(&self, expr: ExprId) -> Option<FieldId> {
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self.field_resolutions.get(&expr).copied()
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}
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pub fn variant_resolution_for_expr(&self, id: ExprId) -> Option<VariantId> {
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self.variant_resolutions.get(&id.into()).copied()
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}
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pub fn variant_resolution_for_pat(&self, id: PatId) -> Option<VariantId> {
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self.variant_resolutions.get(&id.into()).copied()
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}
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pub fn assoc_resolutions_for_expr(&self, id: ExprId) -> Option<AssocItemId> {
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self.assoc_resolutions.get(&id.into()).copied()
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}
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pub fn assoc_resolutions_for_pat(&self, id: PatId) -> Option<AssocItemId> {
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self.assoc_resolutions.get(&id.into()).copied()
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}
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pub fn type_mismatch_for_expr(&self, expr: ExprId) -> Option<&TypeMismatch> {
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self.type_mismatches.get(expr)
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}
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pub fn add_diagnostics(
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&self,
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db: &dyn HirDatabase,
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owner: DefWithBodyId,
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sink: &mut DiagnosticSink,
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) {
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self.diagnostics.iter().for_each(|it| it.add_to(db, owner, sink))
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}
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}
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impl Index<ExprId> for InferenceResult {
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type Output = Ty;
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fn index(&self, expr: ExprId) -> &Ty {
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self.type_of_expr.get(expr).unwrap_or(&self.standard_types.unknown)
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}
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}
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impl Index<PatId> for InferenceResult {
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type Output = Ty;
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fn index(&self, pat: PatId) -> &Ty {
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self.type_of_pat.get(pat).unwrap_or(&self.standard_types.unknown)
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}
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}
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/// The inference context contains all information needed during type inference.
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#[derive(Clone, Debug)]
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struct InferenceContext<'a> {
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db: &'a dyn HirDatabase,
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owner: DefWithBodyId,
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body: Arc<Body>,
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resolver: Resolver,
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table: unify::InferenceTable,
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trait_env: Arc<TraitEnvironment>,
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obligations: Vec<DomainGoal>,
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last_obligations_check: Option<u32>,
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result: InferenceResult,
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/// The return type of the function being inferred, or the closure if we're
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/// currently within one.
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///
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/// We might consider using a nested inference context for checking
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/// closures, but currently this is the only field that will change there,
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/// so it doesn't make sense.
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return_ty: Ty,
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diverges: Diverges,
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breakables: Vec<BreakableContext>,
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}
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#[derive(Clone, Debug)]
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struct BreakableContext {
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may_break: bool,
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break_ty: Ty,
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label: Option<name::Name>,
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}
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fn find_breakable<'c>(
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ctxs: &'c mut [BreakableContext],
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label: Option<&name::Name>,
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) -> Option<&'c mut BreakableContext> {
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match label {
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Some(_) => ctxs.iter_mut().rev().find(|ctx| ctx.label.as_ref() == label),
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None => ctxs.last_mut(),
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}
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}
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impl<'a> InferenceContext<'a> {
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fn new(db: &'a dyn HirDatabase, owner: DefWithBodyId, resolver: Resolver) -> Self {
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InferenceContext {
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result: InferenceResult::default(),
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table: unify::InferenceTable::new(),
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obligations: Vec::default(),
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last_obligations_check: None,
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return_ty: TyKind::Error.intern(&Interner), // set in collect_fn_signature
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trait_env: owner
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.as_generic_def_id()
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.map_or_else(Default::default, |d| db.trait_environment(d)),
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db,
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owner,
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body: db.body(owner),
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resolver,
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diverges: Diverges::Maybe,
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breakables: Vec::new(),
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}
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}
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fn err_ty(&self) -> Ty {
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TyKind::Error.intern(&Interner)
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}
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fn resolve_all(mut self) -> InferenceResult {
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// FIXME resolve obligations as well (use Guidance if necessary)
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let mut result = std::mem::take(&mut self.result);
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for ty in result.type_of_expr.values_mut() {
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let resolved = self.table.resolve_ty_completely(ty.clone());
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*ty = resolved;
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}
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for ty in result.type_of_pat.values_mut() {
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let resolved = self.table.resolve_ty_completely(ty.clone());
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*ty = resolved;
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}
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result
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}
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fn write_expr_ty(&mut self, expr: ExprId, ty: Ty) {
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self.result.type_of_expr.insert(expr, ty);
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}
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fn write_method_resolution(&mut self, expr: ExprId, func: FunctionId) {
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self.result.method_resolutions.insert(expr, func);
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}
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fn write_field_resolution(&mut self, expr: ExprId, field: FieldId) {
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self.result.field_resolutions.insert(expr, field);
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}
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fn write_variant_resolution(&mut self, id: ExprOrPatId, variant: VariantId) {
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self.result.variant_resolutions.insert(id, variant);
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}
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fn write_assoc_resolution(&mut self, id: ExprOrPatId, item: AssocItemId) {
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self.result.assoc_resolutions.insert(id, item);
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}
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fn write_pat_ty(&mut self, pat: PatId, ty: Ty) {
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self.result.type_of_pat.insert(pat, ty);
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}
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fn push_diagnostic(&mut self, diagnostic: InferenceDiagnostic) {
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self.result.diagnostics.push(diagnostic);
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}
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fn make_ty_with_mode(
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&mut self,
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type_ref: &TypeRef,
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impl_trait_mode: ImplTraitLoweringMode,
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) -> Ty {
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// FIXME use right resolver for block
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let ctx = crate::lower::TyLoweringContext::new(self.db, &self.resolver)
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.with_impl_trait_mode(impl_trait_mode);
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let ty = ctx.lower_ty(type_ref);
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let ty = self.insert_type_vars(ty);
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self.normalize_associated_types_in(ty)
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}
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fn make_ty(&mut self, type_ref: &TypeRef) -> Ty {
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self.make_ty_with_mode(type_ref, ImplTraitLoweringMode::Disallowed)
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}
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/// Replaces Ty::Unknown by a new type var, so we can maybe still infer it.
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fn insert_type_vars_shallow(&mut self, ty: Ty) -> Ty {
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match ty.kind(&Interner) {
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TyKind::Error => self.table.new_type_var(),
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_ => ty,
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}
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}
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fn insert_type_vars(&mut self, ty: Ty) -> Ty {
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fold_tys(ty, |ty, _| self.insert_type_vars_shallow(ty), DebruijnIndex::INNERMOST)
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}
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fn resolve_obligations_as_possible(&mut self) {
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if self.last_obligations_check == Some(self.table.revision) {
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// no change
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return;
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}
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let _span = profile::span("resolve_obligations_as_possible");
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self.last_obligations_check = Some(self.table.revision);
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let obligations = mem::replace(&mut self.obligations, Vec::new());
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for obligation in obligations {
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let in_env = InEnvironment::new(&self.trait_env.env, obligation.clone());
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let canonicalized = self.canonicalizer().canonicalize_obligation(in_env);
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let solution =
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self.db.trait_solve(self.resolver.krate().unwrap(), canonicalized.value.clone());
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match solution {
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Some(Solution::Unique(canonical_subst)) => {
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canonicalized.apply_solution(
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self,
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Canonical {
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binders: canonical_subst.binders,
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// FIXME: handle constraints
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value: canonical_subst.value.subst,
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},
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);
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}
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Some(Solution::Ambig(Guidance::Definite(substs))) => {
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canonicalized.apply_solution(self, substs);
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self.obligations.push(obligation);
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}
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Some(_) => {
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// FIXME use this when trying to resolve everything at the end
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self.obligations.push(obligation);
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}
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None => {
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// FIXME obligation cannot be fulfilled => diagnostic
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}
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};
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}
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}
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fn push_obligation(&mut self, o: DomainGoal) {
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self.obligations.push(o);
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self.last_obligations_check = None;
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}
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fn unify(&mut self, ty1: &Ty, ty2: &Ty) -> bool {
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self.table.unify(ty1, ty2)
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}
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/// Resolves the type as far as currently possible, replacing type variables
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/// by their known types. All types returned by the infer_* functions should
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/// be resolved as far as possible, i.e. contain no type variables with
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/// known type.
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fn resolve_ty_as_possible(&mut self, ty: Ty) -> Ty {
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self.resolve_obligations_as_possible();
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self.table.resolve_ty_as_possible(ty)
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}
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fn resolve_ty_shallow<'b>(&mut self, ty: &'b Ty) -> Cow<'b, Ty> {
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self.table.resolve_ty_shallow(ty)
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}
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fn resolve_associated_type(&mut self, inner_ty: Ty, assoc_ty: Option<TypeAliasId>) -> Ty {
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self.resolve_associated_type_with_params(inner_ty, assoc_ty, &[])
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}
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fn resolve_associated_type_with_params(
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&mut self,
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inner_ty: Ty,
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assoc_ty: Option<TypeAliasId>,
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params: &[Ty],
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) -> Ty {
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match assoc_ty {
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Some(res_assoc_ty) => {
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let trait_ = match res_assoc_ty.lookup(self.db.upcast()).container {
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hir_def::AssocContainerId::TraitId(trait_) => trait_,
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_ => panic!("resolve_associated_type called with non-associated type"),
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};
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let ty = self.table.new_type_var();
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let trait_ref = TyBuilder::trait_ref(self.db, trait_)
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.push(inner_ty)
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.fill(params.iter().cloned())
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.build();
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let alias_eq = AliasEq {
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alias: AliasTy::Projection(ProjectionTy {
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associated_ty_id: to_assoc_type_id(res_assoc_ty),
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substitution: trait_ref.substitution.clone(),
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}),
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ty: ty.clone(),
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};
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self.push_obligation(trait_ref.cast(&Interner));
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self.push_obligation(alias_eq.cast(&Interner));
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self.resolve_ty_as_possible(ty)
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}
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None => self.err_ty(),
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}
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}
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/// Recurses through the given type, normalizing associated types mentioned
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/// in it by replacing them by type variables and registering obligations to
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/// resolve later. This should be done once for every type we get from some
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/// type annotation (e.g. from a let type annotation, field type or function
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/// call). `make_ty` handles this already, but e.g. for field types we need
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/// to do it as well.
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fn normalize_associated_types_in(&mut self, ty: Ty) -> Ty {
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let ty = self.resolve_ty_as_possible(ty);
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fold_tys(
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ty,
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|ty, _| match ty.kind(&Interner) {
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TyKind::Alias(AliasTy::Projection(proj_ty)) => {
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self.normalize_projection_ty(proj_ty.clone())
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}
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_ => ty,
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},
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DebruijnIndex::INNERMOST,
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)
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}
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fn normalize_projection_ty(&mut self, proj_ty: ProjectionTy) -> Ty {
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let var = self.table.new_type_var();
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let alias_eq = AliasEq { alias: AliasTy::Projection(proj_ty), ty: var.clone() };
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let obligation = alias_eq.cast(&Interner);
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self.push_obligation(obligation);
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var
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}
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fn resolve_variant(&mut self, path: Option<&Path>) -> (Ty, Option<VariantId>) {
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let path = match path {
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Some(path) => path,
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None => return (self.err_ty(), None),
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};
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let resolver = &self.resolver;
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let ctx = crate::lower::TyLoweringContext::new(self.db, &self.resolver);
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// FIXME: this should resolve assoc items as well, see this example:
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// https://play.rust-lang.org/?gist=087992e9e22495446c01c0d4e2d69521
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|
let (resolution, unresolved) =
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match resolver.resolve_path_in_type_ns(self.db.upcast(), path.mod_path()) {
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Some(it) => it,
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None => return (self.err_ty(), None),
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};
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return match resolution {
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TypeNs::AdtId(AdtId::StructId(strukt)) => {
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let substs = ctx.substs_from_path(path, strukt.into(), true);
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|
let ty = self.db.ty(strukt.into());
|
|
let ty = self.insert_type_vars(ty.substitute(&Interner, &substs));
|
|
forbid_unresolved_segments((ty, Some(strukt.into())), unresolved)
|
|
}
|
|
TypeNs::AdtId(AdtId::UnionId(u)) => {
|
|
let substs = ctx.substs_from_path(path, u.into(), true);
|
|
let ty = self.db.ty(u.into());
|
|
let ty = self.insert_type_vars(ty.substitute(&Interner, &substs));
|
|
forbid_unresolved_segments((ty, Some(u.into())), unresolved)
|
|
}
|
|
TypeNs::EnumVariantId(var) => {
|
|
let substs = ctx.substs_from_path(path, var.into(), true);
|
|
let ty = self.db.ty(var.parent.into());
|
|
let ty = self.insert_type_vars(ty.substitute(&Interner, &substs));
|
|
forbid_unresolved_segments((ty, Some(var.into())), unresolved)
|
|
}
|
|
TypeNs::SelfType(impl_id) => {
|
|
let generics = crate::utils::generics(self.db.upcast(), impl_id.into());
|
|
let substs = generics.type_params_subst(self.db);
|
|
let ty = self.db.impl_self_ty(impl_id).substitute(&Interner, &substs);
|
|
self.resolve_variant_on_alias(ty, unresolved, path)
|
|
}
|
|
TypeNs::TypeAliasId(it) => {
|
|
let ty = TyBuilder::def_ty(self.db, it.into())
|
|
.fill(std::iter::repeat_with(|| self.table.new_type_var()))
|
|
.build();
|
|
self.resolve_variant_on_alias(ty, unresolved, path)
|
|
}
|
|
TypeNs::AdtSelfType(_) => {
|
|
// FIXME this could happen in array size expressions, once we're checking them
|
|
(self.err_ty(), None)
|
|
}
|
|
TypeNs::GenericParam(_) => {
|
|
// FIXME potentially resolve assoc type
|
|
(self.err_ty(), None)
|
|
}
|
|
TypeNs::AdtId(AdtId::EnumId(_)) | TypeNs::BuiltinType(_) | TypeNs::TraitId(_) => {
|
|
// FIXME diagnostic
|
|
(self.err_ty(), None)
|
|
}
|
|
};
|
|
|
|
fn forbid_unresolved_segments(
|
|
result: (Ty, Option<VariantId>),
|
|
unresolved: Option<usize>,
|
|
) -> (Ty, Option<VariantId>) {
|
|
if unresolved.is_none() {
|
|
result
|
|
} else {
|
|
// FIXME diagnostic
|
|
(TyKind::Error.intern(&Interner), None)
|
|
}
|
|
}
|
|
}
|
|
|
|
fn resolve_variant_on_alias(
|
|
&mut self,
|
|
ty: Ty,
|
|
unresolved: Option<usize>,
|
|
path: &Path,
|
|
) -> (Ty, Option<VariantId>) {
|
|
match unresolved {
|
|
None => {
|
|
let variant = ty.as_adt().and_then(|(adt_id, _)| match adt_id {
|
|
AdtId::StructId(s) => Some(VariantId::StructId(s)),
|
|
AdtId::UnionId(u) => Some(VariantId::UnionId(u)),
|
|
AdtId::EnumId(_) => {
|
|
// FIXME Error E0071, expected struct, variant or union type, found enum `Foo`
|
|
None
|
|
}
|
|
});
|
|
(ty, variant)
|
|
}
|
|
Some(1) => {
|
|
let segment = path.mod_path().segments().last().unwrap();
|
|
// this could be an enum variant or associated type
|
|
if let Some((AdtId::EnumId(enum_id), _)) = ty.as_adt() {
|
|
let enum_data = self.db.enum_data(enum_id);
|
|
if let Some(local_id) = enum_data.variant(segment) {
|
|
let variant = EnumVariantId { parent: enum_id, local_id };
|
|
return (ty, Some(variant.into()));
|
|
}
|
|
}
|
|
// FIXME potentially resolve assoc type
|
|
(self.err_ty(), None)
|
|
}
|
|
Some(_) => {
|
|
// FIXME diagnostic
|
|
(self.err_ty(), None)
|
|
}
|
|
}
|
|
}
|
|
|
|
fn collect_const(&mut self, data: &ConstData) {
|
|
self.return_ty = self.make_ty(&data.type_ref);
|
|
}
|
|
|
|
fn collect_static(&mut self, data: &StaticData) {
|
|
self.return_ty = self.make_ty(&data.type_ref);
|
|
}
|
|
|
|
fn collect_fn(&mut self, data: &FunctionData) {
|
|
let body = Arc::clone(&self.body); // avoid borrow checker problem
|
|
let ctx = crate::lower::TyLoweringContext::new(self.db, &self.resolver)
|
|
.with_impl_trait_mode(ImplTraitLoweringMode::Param);
|
|
let param_tys =
|
|
data.params.iter().map(|type_ref| ctx.lower_ty(type_ref)).collect::<Vec<_>>();
|
|
for (ty, pat) in param_tys.into_iter().zip(body.params.iter()) {
|
|
let ty = self.insert_type_vars(ty);
|
|
let ty = self.normalize_associated_types_in(ty);
|
|
|
|
self.infer_pat(*pat, &ty, BindingMode::default());
|
|
}
|
|
let return_ty = self.make_ty_with_mode(&data.ret_type, ImplTraitLoweringMode::Disallowed); // FIXME implement RPIT
|
|
self.return_ty = return_ty;
|
|
}
|
|
|
|
fn infer_body(&mut self) {
|
|
self.infer_expr_coerce(self.body.body_expr, &Expectation::has_type(self.return_ty.clone()));
|
|
}
|
|
|
|
fn resolve_lang_item(&self, name: &str) -> Option<LangItemTarget> {
|
|
let krate = self.resolver.krate()?;
|
|
let name = SmolStr::new_inline(name);
|
|
self.db.lang_item(krate, name)
|
|
}
|
|
|
|
fn resolve_into_iter_item(&self) -> Option<TypeAliasId> {
|
|
let path = path![core::iter::IntoIterator];
|
|
let trait_ = self.resolver.resolve_known_trait(self.db.upcast(), &path)?;
|
|
self.db.trait_data(trait_).associated_type_by_name(&name![Item])
|
|
}
|
|
|
|
fn resolve_ops_try_ok(&self) -> Option<TypeAliasId> {
|
|
let path = path![core::ops::Try];
|
|
let trait_ = self.resolver.resolve_known_trait(self.db.upcast(), &path)?;
|
|
self.db.trait_data(trait_).associated_type_by_name(&name![Ok])
|
|
}
|
|
|
|
fn resolve_ops_neg_output(&self) -> Option<TypeAliasId> {
|
|
let trait_ = self.resolve_lang_item("neg")?.as_trait()?;
|
|
self.db.trait_data(trait_).associated_type_by_name(&name![Output])
|
|
}
|
|
|
|
fn resolve_ops_not_output(&self) -> Option<TypeAliasId> {
|
|
let trait_ = self.resolve_lang_item("not")?.as_trait()?;
|
|
self.db.trait_data(trait_).associated_type_by_name(&name![Output])
|
|
}
|
|
|
|
fn resolve_future_future_output(&self) -> Option<TypeAliasId> {
|
|
let trait_ = self.resolve_lang_item("future_trait")?.as_trait()?;
|
|
self.db.trait_data(trait_).associated_type_by_name(&name![Output])
|
|
}
|
|
|
|
fn resolve_binary_op_output(&self, bop: &BinaryOp) -> Option<TypeAliasId> {
|
|
let lang_item = match bop {
|
|
BinaryOp::ArithOp(aop) => match aop {
|
|
ArithOp::Add => "add",
|
|
ArithOp::Sub => "sub",
|
|
ArithOp::Mul => "mul",
|
|
ArithOp::Div => "div",
|
|
ArithOp::Shl => "shl",
|
|
ArithOp::Shr => "shr",
|
|
ArithOp::Rem => "rem",
|
|
ArithOp::BitXor => "bitxor",
|
|
ArithOp::BitOr => "bitor",
|
|
ArithOp::BitAnd => "bitand",
|
|
},
|
|
_ => return None,
|
|
};
|
|
|
|
let trait_ = self.resolve_lang_item(lang_item)?.as_trait();
|
|
|
|
self.db.trait_data(trait_?).associated_type_by_name(&name![Output])
|
|
}
|
|
|
|
fn resolve_boxed_box(&self) -> Option<AdtId> {
|
|
let struct_ = self.resolve_lang_item("owned_box")?.as_struct()?;
|
|
Some(struct_.into())
|
|
}
|
|
|
|
fn resolve_range_full(&self) -> Option<AdtId> {
|
|
let path = path![core::ops::RangeFull];
|
|
let struct_ = self.resolver.resolve_known_struct(self.db.upcast(), &path)?;
|
|
Some(struct_.into())
|
|
}
|
|
|
|
fn resolve_range(&self) -> Option<AdtId> {
|
|
let path = path![core::ops::Range];
|
|
let struct_ = self.resolver.resolve_known_struct(self.db.upcast(), &path)?;
|
|
Some(struct_.into())
|
|
}
|
|
|
|
fn resolve_range_inclusive(&self) -> Option<AdtId> {
|
|
let path = path![core::ops::RangeInclusive];
|
|
let struct_ = self.resolver.resolve_known_struct(self.db.upcast(), &path)?;
|
|
Some(struct_.into())
|
|
}
|
|
|
|
fn resolve_range_from(&self) -> Option<AdtId> {
|
|
let path = path![core::ops::RangeFrom];
|
|
let struct_ = self.resolver.resolve_known_struct(self.db.upcast(), &path)?;
|
|
Some(struct_.into())
|
|
}
|
|
|
|
fn resolve_range_to(&self) -> Option<AdtId> {
|
|
let path = path![core::ops::RangeTo];
|
|
let struct_ = self.resolver.resolve_known_struct(self.db.upcast(), &path)?;
|
|
Some(struct_.into())
|
|
}
|
|
|
|
fn resolve_range_to_inclusive(&self) -> Option<AdtId> {
|
|
let path = path![core::ops::RangeToInclusive];
|
|
let struct_ = self.resolver.resolve_known_struct(self.db.upcast(), &path)?;
|
|
Some(struct_.into())
|
|
}
|
|
|
|
fn resolve_ops_index(&self) -> Option<TraitId> {
|
|
self.resolve_lang_item("index")?.as_trait()
|
|
}
|
|
|
|
fn resolve_ops_index_output(&self) -> Option<TypeAliasId> {
|
|
let trait_ = self.resolve_ops_index()?;
|
|
self.db.trait_data(trait_).associated_type_by_name(&name![Output])
|
|
}
|
|
}
|
|
|
|
/// When inferring an expression, we propagate downward whatever type hint we
|
|
/// are able in the form of an `Expectation`.
|
|
#[derive(Clone, PartialEq, Eq, Debug)]
|
|
struct Expectation {
|
|
ty: Ty,
|
|
/// See the `rvalue_hint` method.
|
|
rvalue_hint: bool,
|
|
}
|
|
|
|
impl Expectation {
|
|
/// The expectation that the type of the expression needs to equal the given
|
|
/// type.
|
|
fn has_type(ty: Ty) -> Self {
|
|
Expectation { ty, rvalue_hint: false }
|
|
}
|
|
|
|
/// The following explanation is copied straight from rustc:
|
|
/// Provides an expectation for an rvalue expression given an *optional*
|
|
/// hint, which is not required for type safety (the resulting type might
|
|
/// be checked higher up, as is the case with `&expr` and `box expr`), but
|
|
/// is useful in determining the concrete type.
|
|
///
|
|
/// The primary use case is where the expected type is a fat pointer,
|
|
/// like `&[isize]`. For example, consider the following statement:
|
|
///
|
|
/// let x: &[isize] = &[1, 2, 3];
|
|
///
|
|
/// In this case, the expected type for the `&[1, 2, 3]` expression is
|
|
/// `&[isize]`. If however we were to say that `[1, 2, 3]` has the
|
|
/// expectation `ExpectHasType([isize])`, that would be too strong --
|
|
/// `[1, 2, 3]` does not have the type `[isize]` but rather `[isize; 3]`.
|
|
/// It is only the `&[1, 2, 3]` expression as a whole that can be coerced
|
|
/// to the type `&[isize]`. Therefore, we propagate this more limited hint,
|
|
/// which still is useful, because it informs integer literals and the like.
|
|
/// See the test case `test/ui/coerce-expect-unsized.rs` and #20169
|
|
/// for examples of where this comes up,.
|
|
fn rvalue_hint(ty: Ty) -> Self {
|
|
Expectation { ty, rvalue_hint: true }
|
|
}
|
|
|
|
/// This expresses no expectation on the type.
|
|
fn none() -> Self {
|
|
Expectation {
|
|
// FIXME
|
|
ty: TyKind::Error.intern(&Interner),
|
|
rvalue_hint: false,
|
|
}
|
|
}
|
|
|
|
fn coercion_target(&self) -> Ty {
|
|
if self.rvalue_hint {
|
|
// FIXME
|
|
TyKind::Error.intern(&Interner)
|
|
} else {
|
|
self.ty.clone()
|
|
}
|
|
}
|
|
}
|
|
|
|
#[derive(Copy, Clone, Debug, PartialEq, Eq, PartialOrd, Ord)]
|
|
enum Diverges {
|
|
Maybe,
|
|
Always,
|
|
}
|
|
|
|
impl Diverges {
|
|
fn is_always(self) -> bool {
|
|
self == Diverges::Always
|
|
}
|
|
}
|
|
|
|
impl std::ops::BitAnd for Diverges {
|
|
type Output = Self;
|
|
fn bitand(self, other: Self) -> Self {
|
|
std::cmp::min(self, other)
|
|
}
|
|
}
|
|
|
|
impl std::ops::BitOr for Diverges {
|
|
type Output = Self;
|
|
fn bitor(self, other: Self) -> Self {
|
|
std::cmp::max(self, other)
|
|
}
|
|
}
|
|
|
|
impl std::ops::BitAndAssign for Diverges {
|
|
fn bitand_assign(&mut self, other: Self) {
|
|
*self = *self & other;
|
|
}
|
|
}
|
|
|
|
impl std::ops::BitOrAssign for Diverges {
|
|
fn bitor_assign(&mut self, other: Self) {
|
|
*self = *self | other;
|
|
}
|
|
}
|
|
|
|
mod diagnostics {
|
|
use hir_def::{expr::ExprId, DefWithBodyId};
|
|
use hir_expand::diagnostics::DiagnosticSink;
|
|
|
|
use crate::{
|
|
db::HirDatabase,
|
|
diagnostics::{BreakOutsideOfLoop, NoSuchField},
|
|
};
|
|
|
|
#[derive(Debug, PartialEq, Eq, Clone)]
|
|
pub(super) enum InferenceDiagnostic {
|
|
NoSuchField { expr: ExprId },
|
|
BreakOutsideOfLoop { expr: ExprId },
|
|
}
|
|
|
|
impl InferenceDiagnostic {
|
|
pub(super) fn add_to(
|
|
&self,
|
|
db: &dyn HirDatabase,
|
|
owner: DefWithBodyId,
|
|
sink: &mut DiagnosticSink,
|
|
) {
|
|
match self {
|
|
InferenceDiagnostic::NoSuchField { expr } => {
|
|
let (_, source_map) = db.body_with_source_map(owner);
|
|
let field = source_map.field_syntax(*expr);
|
|
sink.push(NoSuchField { file: field.file_id, field: field.value })
|
|
}
|
|
InferenceDiagnostic::BreakOutsideOfLoop { expr } => {
|
|
let (_, source_map) = db.body_with_source_map(owner);
|
|
let ptr = source_map
|
|
.expr_syntax(*expr)
|
|
.expect("break outside of loop in synthetic syntax");
|
|
sink.push(BreakOutsideOfLoop { file: ptr.file_id, expr: ptr.value })
|
|
}
|
|
}
|
|
}
|
|
}
|
|
}
|