From 50384460c68f9c2aaa9148a9131480c07c933c91 Mon Sep 17 00:00:00 2001 From: Chayim Refael Friedman Date: Wed, 5 Nov 2025 18:17:17 +0200 Subject: [PATCH 1/2] Rewrite method resolution to follow rustc more closely It cannot be exactly the same, because we have needs rustc doesn't have (namely, accurate enumeration of all methods, not just with a specific name, for completions etc., while rustc also needs a best-effort implementation for diagnostics) but it is closer than the previous impl. In addition we rewrite the closely related handling of operator inference and impl collection. This in turn necessitate changing some other parts of inference in order to retain behavior. As a result, the behavior more closely matches rustc and is also more correct. This fixes 2 type mismatches on self (1 remains) and 4 diagnostics (1 remains), plus some unknown types. --- crates/base-db/src/lib.rs | 2 +- crates/hir-def/src/resolver.rs | 14 + crates/hir-ty/src/autoderef.rs | 221 +- crates/hir-ty/src/consteval/tests.rs | 17 +- crates/hir-ty/src/db.rs | 75 +- crates/hir-ty/src/display.rs | 99 +- crates/hir-ty/src/drop.rs | 10 +- crates/hir-ty/src/dyn_compatibility.rs | 20 +- crates/hir-ty/src/infer.rs | 216 +- crates/hir-ty/src/infer/autoderef.rs | 16 +- crates/hir-ty/src/infer/cast.rs | 10 +- crates/hir-ty/src/infer/closure.rs | 7 +- crates/hir-ty/src/infer/closure/analysis.rs | 60 +- crates/hir-ty/src/infer/coerce.rs | 454 ++-- crates/hir-ty/src/infer/expr.rs | 1014 +++----- crates/hir-ty/src/infer/mutability.rs | 112 +- crates/hir-ty/src/infer/op.rs | 468 ++++ crates/hir-ty/src/infer/pat.rs | 12 +- crates/hir-ty/src/infer/path.rs | 74 +- crates/hir-ty/src/infer/place_op.rs | 329 +++ crates/hir-ty/src/infer/unify.rs | 199 +- crates/hir-ty/src/lang_items.rs | 57 +- crates/hir-ty/src/lib.rs | 5 +- crates/hir-ty/src/lower.rs | 491 ++-- crates/hir-ty/src/lower/path.rs | 8 +- crates/hir-ty/src/method_resolution.rs | 2084 +++++------------ .../hir-ty/src/method_resolution/confirm.rs | 616 +++++ crates/hir-ty/src/method_resolution/probe.rs | 2077 ++++++++++++++++ crates/hir-ty/src/mir.rs | 5 +- crates/hir-ty/src/mir/eval/tests.rs | 4 +- crates/hir-ty/src/mir/lower.rs | 45 +- crates/hir-ty/src/mir/lower/as_place.rs | 2 +- .../hir-ty/src/mir/lower/pattern_matching.rs | 6 +- crates/hir-ty/src/next_solver/def_id.rs | 49 +- crates/hir-ty/src/next_solver/fold.rs | 64 +- .../infer/canonical/canonicalizer.rs | 46 +- .../infer/canonical/instantiate.rs | 348 ++- .../src/next_solver/infer/canonical/mod.rs | 25 +- crates/hir-ty/src/next_solver/infer/mod.rs | 66 +- .../src/next_solver/infer/outlives/mod.rs | 1 + .../next_solver/infer/outlives/obligations.rs | 68 + .../next_solver/infer/snapshot/undo_log.rs | 13 +- crates/hir-ty/src/next_solver/interner.rs | 321 ++- crates/hir-ty/src/next_solver/predicate.rs | 3 +- crates/hir-ty/src/next_solver/region.rs | 4 + crates/hir-ty/src/next_solver/solver.rs | 26 +- crates/hir-ty/src/next_solver/ty.rs | 106 +- crates/hir-ty/src/next_solver/util.rs | 189 +- crates/hir-ty/src/opaques.rs | 21 +- crates/hir-ty/src/specialization.rs | 22 +- crates/hir-ty/src/tests/coercion.rs | 22 +- crates/hir-ty/src/tests/incremental.rs | 95 +- crates/hir-ty/src/tests/method_resolution.rs | 29 +- crates/hir-ty/src/tests/patterns.rs | 2 +- crates/hir-ty/src/tests/regression.rs | 6 +- .../hir-ty/src/tests/regression/new_solver.rs | 4 +- crates/hir-ty/src/tests/simple.rs | 105 +- crates/hir-ty/src/tests/traits.rs | 53 +- crates/hir-ty/src/traits.rs | 153 +- crates/hir/src/attrs.rs | 56 +- crates/hir/src/display.rs | 7 +- crates/hir/src/lib.rs | 482 ++-- crates/hir/src/semantics.rs | 4 +- crates/hir/src/source_analyzer.rs | 33 +- .../src/handlers/convert_for_to_while_let.rs | 2 +- .../handlers/convert_iter_for_each_to_for.rs | 2 +- .../src/handlers/extract_function.rs | 10 +- .../src/handlers/extract_variable.rs | 8 +- .../src/handlers/generate_delegate_methods.rs | 5 +- .../handlers/generate_is_empty_from_len.rs | 2 +- .../src/handlers/move_const_to_impl.rs | 4 +- .../src/handlers/replace_arith_op.rs | 4 +- .../src/handlers/replace_method_eager_lazy.rs | 2 - crates/ide-completion/src/completions/dot.rs | 4 +- crates/ide-completion/src/completions/expr.rs | 7 +- crates/ide-completion/src/completions/type.rs | 4 +- crates/ide-completion/src/context.rs | 23 +- crates/ide-completion/src/tests/expression.rs | 2 + crates/ide-completion/src/tests/flyimport.rs | 2 +- crates/ide-completion/src/tests/pattern.rs | 1 + crates/ide-db/src/imports/import_assets.rs | 85 +- .../src/handlers/missing_fields.rs | 2 +- .../src/handlers/missing_match_arms.rs | 2 +- .../src/handlers/mutability_errors.rs | 10 +- crates/ide-ssr/src/resolving.rs | 2 - crates/ide/src/hover/tests.rs | 4 +- crates/ide/src/inlay_hints/adjustment.rs | 5 +- crates/intern/src/symbol/symbols.rs | 3 + crates/test-utils/src/lib.rs | 2 +- crates/test-utils/src/minicore.rs | 32 +- 90 files changed, 7322 insertions(+), 4159 deletions(-) create mode 100644 crates/hir-ty/src/infer/op.rs create mode 100644 crates/hir-ty/src/infer/place_op.rs create mode 100644 crates/hir-ty/src/method_resolution/confirm.rs create mode 100644 crates/hir-ty/src/method_resolution/probe.rs create mode 100644 crates/hir-ty/src/next_solver/infer/outlives/mod.rs create mode 100644 crates/hir-ty/src/next_solver/infer/outlives/obligations.rs diff --git a/crates/base-db/src/lib.rs b/crates/base-db/src/lib.rs index 0e411bcfae60..90e0aa906515 100644 --- a/crates/base-db/src/lib.rs +++ b/crates/base-db/src/lib.rs @@ -273,7 +273,7 @@ pub trait RootQueryDb: SourceDatabase + salsa::Database { fn transitive_rev_deps(&self, of: Crate) -> FxHashSet; } -pub fn transitive_deps(db: &dyn SourceDatabase, crate_id: Crate) -> FxHashSet { +fn transitive_deps(db: &dyn SourceDatabase, crate_id: Crate) -> FxHashSet { // There is a bit of duplication here and in `CrateGraphBuilder` in the same method, but it's not terrible // and removing that is a bit difficult. let mut worklist = vec![crate_id]; diff --git a/crates/hir-def/src/resolver.rs b/crates/hir-def/src/resolver.rs index abcf0a397cdf..b5afbf387dfc 100644 --- a/crates/hir-def/src/resolver.rs +++ b/crates/hir-def/src/resolver.rs @@ -708,6 +708,20 @@ impl<'db> Resolver<'db> { self.item_scope_().0 } + #[inline] + pub fn top_level_def_map(&self) -> &'db DefMap { + self.module_scope.def_map + } + + #[inline] + pub fn is_visible(&self, db: &dyn DefDatabase, visibility: Visibility) -> bool { + visibility.is_visible_from_def_map( + db, + self.module_scope.def_map, + self.module_scope.module_id, + ) + } + pub fn generic_def(&self) -> Option { self.scopes().find_map(|scope| match scope { Scope::GenericParams { def, .. } => Some(*def), diff --git a/crates/hir-ty/src/autoderef.rs b/crates/hir-ty/src/autoderef.rs index 392b0b040825..d21108fb5ab3 100644 --- a/crates/hir-ty/src/autoderef.rs +++ b/crates/hir-ty/src/autoderef.rs @@ -13,11 +13,11 @@ use triomphe::Arc; use crate::{ TraitEnvironment, db::HirDatabase, - infer::unify::InferenceTable, + infer::InferenceContext, next_solver::{ - Canonical, TraitRef, Ty, TyKind, + Canonical, DbInterner, ParamEnv, TraitRef, Ty, TyKind, TypingMode, infer::{ - InferOk, + DbInternerInferExt, InferCtxt, traits::{Obligation, ObligationCause, PredicateObligations}, }, obligation_ctxt::ObligationCtxt, @@ -38,14 +38,15 @@ pub fn autoderef<'db>( env: Arc>, ty: Canonical<'db, Ty<'db>>, ) -> impl Iterator> + use<'db> { - let mut table = InferenceTable::new(db, env, None); - let ty = table.instantiate_canonical(ty); - let mut autoderef = Autoderef::new_no_tracking(&mut table, ty); + let interner = DbInterner::new_with(db, Some(env.krate), env.block); + let infcx = interner.infer_ctxt().build(TypingMode::PostAnalysis); + let (ty, _) = infcx.instantiate_canonical(&ty); + let autoderef = Autoderef::new(&infcx, &env, ty); let mut v = Vec::new(); - while let Some((ty, _steps)) = autoderef.next() { + for (ty, _steps) in autoderef { // `ty` may contain unresolved inference variables. Since there's no chance they would be // resolved, just replace with fallback type. - let resolved = autoderef.table.resolve_completely(ty); + let resolved = infcx.resolve_vars_if_possible(ty).replace_infer_with_error(interner); // If the deref chain contains a cycle (e.g. `A` derefs to `B` and `B` derefs to `A`), we // would revisit some already visited types. Stop here to avoid duplication. @@ -105,13 +106,48 @@ struct AutoderefTraits { trait_target: TypeAliasId, } +// We use a trait here and a generic implementation unfortunately, because sometimes (specifically +// in place_op.rs), you need to have mutable access to the `InferenceContext` while the `Autoderef` +// borrows it. +pub(crate) trait AutoderefCtx<'db> { + fn infcx(&self) -> &InferCtxt<'db>; + fn env(&self) -> &TraitEnvironment<'db>; +} + +pub(crate) struct DefaultAutoderefCtx<'a, 'db> { + infcx: &'a InferCtxt<'db>, + env: &'a TraitEnvironment<'db>, +} +impl<'db> AutoderefCtx<'db> for DefaultAutoderefCtx<'_, 'db> { + #[inline] + fn infcx(&self) -> &InferCtxt<'db> { + self.infcx + } + #[inline] + fn env(&self) -> &TraitEnvironment<'db> { + self.env + } +} + +pub(crate) struct InferenceContextAutoderefCtx<'a, 'b, 'db>(&'a mut InferenceContext<'b, 'db>); +impl<'db> AutoderefCtx<'db> for InferenceContextAutoderefCtx<'_, '_, 'db> { + #[inline] + fn infcx(&self) -> &InferCtxt<'db> { + &self.0.table.infer_ctxt + } + #[inline] + fn env(&self) -> &TraitEnvironment<'db> { + &self.0.table.trait_env + } +} + /// Recursively dereference a type, considering both built-in /// dereferences (`*`) and the `Deref` trait. /// Although called `Autoderef` it can be configured to use the /// `Receiver` trait instead of the `Deref` trait. -pub(crate) struct Autoderef<'a, 'db, Steps = Vec<(Ty<'db>, AutoderefKind)>> { +pub(crate) struct GeneralAutoderef<'db, Ctx, Steps = Vec<(Ty<'db>, AutoderefKind)>> { // Meta infos: - pub(crate) table: &'a mut InferenceTable<'db>, + ctx: Ctx, traits: Option, // Current state: @@ -122,7 +158,16 @@ pub(crate) struct Autoderef<'a, 'db, Steps = Vec<(Ty<'db>, AutoderefKind)>> { use_receiver_trait: bool, } -impl<'a, 'db, Steps: TrackAutoderefSteps<'db>> Iterator for Autoderef<'a, 'db, Steps> { +pub(crate) type Autoderef<'a, 'db, Steps = Vec<(Ty<'db>, AutoderefKind)>> = + GeneralAutoderef<'db, DefaultAutoderefCtx<'a, 'db>, Steps>; +pub(crate) type InferenceContextAutoderef<'a, 'b, 'db, Steps = Vec<(Ty<'db>, AutoderefKind)>> = + GeneralAutoderef<'db, InferenceContextAutoderefCtx<'a, 'b, 'db>, Steps>; + +impl<'db, Ctx, Steps> Iterator for GeneralAutoderef<'db, Ctx, Steps> +where + Ctx: AutoderefCtx<'db>, + Steps: TrackAutoderefSteps<'db>, +{ type Item = (Ty<'db>, usize); fn next(&mut self) -> Option { @@ -148,26 +193,26 @@ impl<'a, 'db, Steps: TrackAutoderefSteps<'db>> Iterator for Autoderef<'a, 'db, S // be better to skip this clause and use the Overloaded case only, since &T // and &mut T implement Receiver. But built-in derefs apply equally to Receiver // and Deref, and this has benefits for const and the emitted MIR. - let (kind, new_ty) = if let Some(ty) = - self.state.cur_ty.builtin_deref(self.table.db, self.include_raw_pointers) - { - debug_assert_eq!(ty, self.table.infer_ctxt.resolve_vars_if_possible(ty)); - // NOTE: we may still need to normalize the built-in deref in case - // we have some type like `&::Assoc`, since users of - // autoderef expect this type to have been structurally normalized. - if let TyKind::Alias(..) = ty.kind() { - let (normalized_ty, obligations) = structurally_normalize_ty(self.table, ty)?; - self.state.obligations.extend(obligations); - (AutoderefKind::Builtin, normalized_ty) + let (kind, new_ty) = + if let Some(ty) = self.state.cur_ty.builtin_deref(self.include_raw_pointers) { + debug_assert_eq!(ty, self.infcx().resolve_vars_if_possible(ty)); + // NOTE: we may still need to normalize the built-in deref in case + // we have some type like `&::Assoc`, since users of + // autoderef expect this type to have been structurally normalized. + if let TyKind::Alias(..) = ty.kind() { + let (normalized_ty, obligations) = + structurally_normalize_ty(self.infcx(), self.env().env, ty)?; + self.state.obligations.extend(obligations); + (AutoderefKind::Builtin, normalized_ty) + } else { + (AutoderefKind::Builtin, ty) + } + } else if let Some(ty) = self.overloaded_deref_ty(self.state.cur_ty) { + // The overloaded deref check already normalizes the pointee type. + (AutoderefKind::Overloaded, ty) } else { - (AutoderefKind::Builtin, ty) - } - } else if let Some(ty) = self.overloaded_deref_ty(self.state.cur_ty) { - // The overloaded deref check already normalizes the pointee type. - (AutoderefKind::Overloaded, ty) - } else { - return None; - }; + return None; + }; self.state.steps.push(self.state.cur_ty, kind); debug!( @@ -183,34 +228,84 @@ impl<'a, 'db, Steps: TrackAutoderefSteps<'db>> Iterator for Autoderef<'a, 'db, S } impl<'a, 'db> Autoderef<'a, 'db> { - pub(crate) fn new(table: &'a mut InferenceTable<'db>, base_ty: Ty<'db>) -> Self { - Self::new_impl(table, base_ty) + #[inline] + pub(crate) fn new_with_tracking( + infcx: &'a InferCtxt<'db>, + env: &'a TraitEnvironment<'db>, + base_ty: Ty<'db>, + ) -> Self { + Self::new_impl(DefaultAutoderefCtx { infcx, env }, base_ty) + } +} + +impl<'a, 'b, 'db> InferenceContextAutoderef<'a, 'b, 'db> { + #[inline] + pub(crate) fn new_from_inference_context( + ctx: &'a mut InferenceContext<'b, 'db>, + base_ty: Ty<'db>, + ) -> Self { + Self::new_impl(InferenceContextAutoderefCtx(ctx), base_ty) + } + + #[inline] + pub(crate) fn ctx(&mut self) -> &mut InferenceContext<'b, 'db> { + self.ctx.0 } } impl<'a, 'db> Autoderef<'a, 'db, usize> { - pub(crate) fn new_no_tracking(table: &'a mut InferenceTable<'db>, base_ty: Ty<'db>) -> Self { - Self::new_impl(table, base_ty) + #[inline] + pub(crate) fn new( + infcx: &'a InferCtxt<'db>, + env: &'a TraitEnvironment<'db>, + base_ty: Ty<'db>, + ) -> Self { + Self::new_impl(DefaultAutoderefCtx { infcx, env }, base_ty) } } -impl<'a, 'db, Steps: TrackAutoderefSteps<'db>> Autoderef<'a, 'db, Steps> { - fn new_impl(table: &'a mut InferenceTable<'db>, base_ty: Ty<'db>) -> Self { - Autoderef { +impl<'db, Ctx, Steps> GeneralAutoderef<'db, Ctx, Steps> +where + Ctx: AutoderefCtx<'db>, + Steps: TrackAutoderefSteps<'db>, +{ + #[inline] + fn new_impl(ctx: Ctx, base_ty: Ty<'db>) -> Self { + GeneralAutoderef { state: AutoderefSnapshot { steps: Steps::default(), - cur_ty: table.infer_ctxt.resolve_vars_if_possible(base_ty), + cur_ty: ctx.infcx().resolve_vars_if_possible(base_ty), obligations: PredicateObligations::new(), at_start: true, reached_recursion_limit: false, }, - table, + ctx, traits: None, include_raw_pointers: false, use_receiver_trait: false, } } + #[inline] + fn infcx(&self) -> &InferCtxt<'db> { + self.ctx.infcx() + } + + #[inline] + fn env(&self) -> &TraitEnvironment<'db> { + self.ctx.env() + } + + #[inline] + fn interner(&self) -> DbInterner<'db> { + self.infcx().interner + } + + #[inline] + fn db(&self) -> &'db dyn HirDatabase { + self.interner().db + } + fn autoderef_traits(&mut self) -> Option { match &mut self.traits { Some(it) => Some(*it), @@ -219,25 +314,23 @@ impl<'a, 'db, Steps: TrackAutoderefSteps<'db>> Autoderef<'a, 'db, Steps> { (|| { Some(AutoderefTraits { trait_: LangItem::Receiver - .resolve_trait(self.table.db, self.table.trait_env.krate)?, + .resolve_trait(self.db(), self.env().krate)?, trait_target: LangItem::ReceiverTarget - .resolve_type_alias(self.table.db, self.table.trait_env.krate)?, + .resolve_type_alias(self.db(), self.env().krate)?, }) })() .or_else(|| { Some(AutoderefTraits { - trait_: LangItem::Deref - .resolve_trait(self.table.db, self.table.trait_env.krate)?, + trait_: LangItem::Deref.resolve_trait(self.db(), self.env().krate)?, trait_target: LangItem::DerefTarget - .resolve_type_alias(self.table.db, self.table.trait_env.krate)?, + .resolve_type_alias(self.db(), self.env().krate)?, }) })? } else { AutoderefTraits { - trait_: LangItem::Deref - .resolve_trait(self.table.db, self.table.trait_env.krate)?, + trait_: LangItem::Deref.resolve_trait(self.db(), self.env().krate)?, trait_target: LangItem::DerefTarget - .resolve_type_alias(self.table.db, self.table.trait_env.krate)?, + .resolve_type_alias(self.db(), self.env().krate)?, } }; Some(*self.traits.insert(traits)) @@ -247,31 +340,32 @@ impl<'a, 'db, Steps: TrackAutoderefSteps<'db>> Autoderef<'a, 'db, Steps> { fn overloaded_deref_ty(&mut self, ty: Ty<'db>) -> Option> { debug!("overloaded_deref_ty({:?})", ty); - let interner = self.table.interner(); + let interner = self.interner(); // , or whatever the equivalent trait is that we've been asked to walk. let AutoderefTraits { trait_, trait_target } = self.autoderef_traits()?; let trait_ref = TraitRef::new(interner, trait_.into(), [ty]); let obligation = - Obligation::new(interner, ObligationCause::new(), self.table.trait_env.env, trait_ref); + Obligation::new(interner, ObligationCause::new(), self.env().env, trait_ref); // We detect whether the self type implements `Deref` before trying to // structurally normalize. We use `predicate_may_hold_opaque_types_jank` // to support not-yet-defined opaque types. It will succeed for `impl Deref` // but fail for `impl OtherTrait`. - if !self.table.infer_ctxt.predicate_may_hold_opaque_types_jank(&obligation) { + if !self.infcx().predicate_may_hold_opaque_types_jank(&obligation) { debug!("overloaded_deref_ty: cannot match obligation"); return None; } let (normalized_ty, obligations) = structurally_normalize_ty( - self.table, + self.infcx(), + self.env().env, Ty::new_projection(interner, trait_target.into(), [ty]), )?; debug!("overloaded_deref_ty({:?}) = ({:?}, {:?})", ty, normalized_ty, obligations); self.state.obligations.extend(obligations); - Some(self.table.infer_ctxt.resolve_vars_if_possible(normalized_ty)) + Some(self.infcx().resolve_vars_if_possible(normalized_ty)) } /// Returns the final type we ended up with, which may be an unresolved @@ -292,7 +386,6 @@ impl<'a, 'db, Steps: TrackAutoderefSteps<'db>> Autoderef<'a, 'db, Steps> { &self.state.steps } - #[expect(dead_code)] pub(crate) fn reached_recursion_limit(&self) -> bool { self.state.reached_recursion_limit } @@ -316,12 +409,12 @@ impl<'a, 'db, Steps: TrackAutoderefSteps<'db>> Autoderef<'a, 'db, Steps> { } fn structurally_normalize_ty<'db>( - table: &InferenceTable<'db>, + infcx: &InferCtxt<'db>, + param_env: ParamEnv<'db>, ty: Ty<'db>, ) -> Option<(Ty<'db>, PredicateObligations<'db>)> { - let mut ocx = ObligationCtxt::new(&table.infer_ctxt); - let Ok(normalized_ty) = - ocx.structurally_normalize_ty(&ObligationCause::misc(), table.trait_env.env, ty) + let mut ocx = ObligationCtxt::new(infcx); + let Ok(normalized_ty) = ocx.structurally_normalize_ty(&ObligationCause::misc(), param_env, ty) else { // We shouldn't have errors here in the old solver, except for // evaluate/fulfill mismatches, but that's not a reason for an ICE. @@ -334,17 +427,3 @@ fn structurally_normalize_ty<'db>( Some((normalized_ty, ocx.into_pending_obligations())) } - -pub(crate) fn overloaded_deref_ty<'db>( - table: &InferenceTable<'db>, - ty: Ty<'db>, -) -> Option>> { - let interner = table.interner(); - - let trait_target = LangItem::DerefTarget.resolve_type_alias(table.db, table.trait_env.krate)?; - - let (normalized_ty, obligations) = - structurally_normalize_ty(table, Ty::new_projection(interner, trait_target.into(), [ty]))?; - - Some(InferOk { value: normalized_ty, obligations }) -} diff --git a/crates/hir-ty/src/consteval/tests.rs b/crates/hir-ty/src/consteval/tests.rs index f1aa06d488d4..70185bb7b9fe 100644 --- a/crates/hir-ty/src/consteval/tests.rs +++ b/crates/hir-ty/src/consteval/tests.rs @@ -851,6 +851,7 @@ fn ifs() { fn loops() { check_number( r#" + //- minicore: add, builtin_impls const GOAL: u8 = { let mut x = 0; loop { @@ -871,6 +872,7 @@ fn loops() { ); check_number( r#" + //- minicore: add, builtin_impls const GOAL: u8 = { let mut x = 0; loop { @@ -885,6 +887,7 @@ fn loops() { ); check_number( r#" + //- minicore: add, builtin_impls const GOAL: u8 = { 'a: loop { let x = 'b: loop { @@ -907,7 +910,7 @@ fn loops() { ); check_number( r#" - //- minicore: add + //- minicore: add, builtin_impls const GOAL: u8 = { let mut x = 0; 'a: loop { @@ -1277,7 +1280,7 @@ fn pattern_matching_ergonomics() { fn destructing_assignment() { check_number( r#" - //- minicore: add + //- minicore: add, builtin_impls const fn f(i: &mut u8) -> &mut u8 { *i += 1; i @@ -1469,11 +1472,11 @@ fn result_layout_niche_optimization() { fn options() { check_number( r#" - //- minicore: option + //- minicore: option, add, builtin_impls const GOAL: u8 = { let x = Some(2); match x { - Some(y) => 2 * y, + Some(y) => 2 + y, _ => 10, } }; @@ -1482,7 +1485,7 @@ fn options() { ); check_number( r#" - //- minicore: option + //- minicore: option, add, builtin_impls fn f(x: Option>) -> i32 { if let Some(y) = x && let Some(z) = y { z @@ -1498,11 +1501,11 @@ fn options() { ); check_number( r#" - //- minicore: option + //- minicore: option, add, builtin_impls const GOAL: u8 = { let x = None; match x { - Some(y) => 2 * y, + Some(y) => 2 + y, _ => 10, } }; diff --git a/crates/hir-ty/src/db.rs b/crates/hir-ty/src/db.rs index 9b58abbe4f92..98f42098f31b 100644 --- a/crates/hir-ty/src/db.rs +++ b/crates/hir-ty/src/db.rs @@ -3,15 +3,12 @@ use base_db::{Crate, target::TargetLoadError}; use hir_def::{ - AdtId, BlockId, CallableDefId, ConstParamId, DefWithBodyId, EnumVariantId, FunctionId, - GeneralConstId, GenericDefId, ImplId, LifetimeParamId, LocalFieldId, StaticId, TraitId, - TypeAliasId, TypeOrConstParamId, VariantId, db::DefDatabase, hir::ExprId, - layout::TargetDataLayout, + AdtId, CallableDefId, ConstParamId, DefWithBodyId, EnumVariantId, FunctionId, GeneralConstId, + GenericDefId, ImplId, LifetimeParamId, LocalFieldId, StaticId, TraitId, TypeAliasId, + TypeOrConstParamId, VariantId, db::DefDatabase, hir::ExprId, layout::TargetDataLayout, }; -use hir_expand::name::Name; use la_arena::ArenaMap; use salsa::plumbing::AsId; -use smallvec::SmallVec; use triomphe::Arc; use crate::{ @@ -19,8 +16,7 @@ use crate::{ consteval::ConstEvalError, dyn_compatibility::DynCompatibilityViolation, layout::{Layout, LayoutError}, - lower::{Diagnostics, GenericDefaults, GenericPredicates, ImplTraits}, - method_resolution::{InherentImpls, TraitImpls, TyFingerprint}, + lower::{Diagnostics, GenericDefaults}, mir::{BorrowckResult, MirBody, MirLowerError}, next_solver::{Const, EarlyBinder, GenericArgs, PolyFnSig, TraitRef, Ty, VariancesOf}, }; @@ -190,43 +186,6 @@ pub trait HirDatabase: DefDatabase + std::fmt::Debug { def: CallableDefId, ) -> EarlyBinder<'db, PolyFnSig<'db>>; - #[salsa::invoke(crate::lower::return_type_impl_traits)] - fn return_type_impl_traits<'db>( - &'db self, - def: FunctionId, - ) -> Option>>>; - - #[salsa::invoke(crate::lower::type_alias_impl_traits)] - fn type_alias_impl_traits<'db>( - &'db self, - def: TypeAliasId, - ) -> Option>>>; - - #[salsa::invoke(crate::lower::generic_predicates_without_parent_with_diagnostics_query)] - fn generic_predicates_without_parent_with_diagnostics<'db>( - &'db self, - def: GenericDefId, - ) -> (GenericPredicates<'db>, Diagnostics); - - #[salsa::invoke(crate::lower::generic_predicates_without_parent_query)] - #[salsa::transparent] - fn generic_predicates_without_parent<'db>( - &'db self, - def: GenericDefId, - ) -> GenericPredicates<'db>; - - #[salsa::invoke(crate::lower::generic_predicates_for_param_query)] - #[salsa::cycle(cycle_result = crate::lower::generic_predicates_for_param_cycle_result)] - fn generic_predicates_for_param<'db>( - &'db self, - def: GenericDefId, - param_id: TypeOrConstParamId, - assoc_name: Option, - ) -> GenericPredicates<'db>; - - #[salsa::invoke(crate::lower::generic_predicates_query)] - fn generic_predicates<'db>(&'db self, def: GenericDefId) -> GenericPredicates<'db>; - #[salsa::invoke(crate::lower::trait_environment_for_body_query)] #[salsa::transparent] fn trait_environment_for_body<'db>(&'db self, def: DefWithBodyId) @@ -249,32 +208,6 @@ pub trait HirDatabase: DefDatabase + std::fmt::Debug { #[salsa::transparent] fn generic_defaults<'db>(&'db self, def: GenericDefId) -> GenericDefaults<'db>; - #[salsa::invoke(InherentImpls::inherent_impls_in_crate_query)] - fn inherent_impls_in_crate(&self, krate: Crate) -> Arc; - - #[salsa::invoke(InherentImpls::inherent_impls_in_block_query)] - fn inherent_impls_in_block(&self, block: BlockId) -> Option>; - - /// Collects all crates in the dependency graph that have impls for the - /// given fingerprint. This is only used for primitive types and types - /// annotated with `rustc_has_incoherent_inherent_impls`; for other types - /// we just look at the crate where the type is defined. - #[salsa::invoke(crate::method_resolution::incoherent_inherent_impl_crates)] - fn incoherent_inherent_impl_crates( - &self, - krate: Crate, - fp: TyFingerprint, - ) -> SmallVec<[Crate; 2]>; - - #[salsa::invoke(TraitImpls::trait_impls_in_crate_query)] - fn trait_impls_in_crate(&self, krate: Crate) -> Arc; - - #[salsa::invoke(TraitImpls::trait_impls_in_block_query)] - fn trait_impls_in_block(&self, block: BlockId) -> Option>; - - #[salsa::invoke(TraitImpls::trait_impls_in_deps_query)] - fn trait_impls_in_deps(&self, krate: Crate) -> Arc<[Arc]>; - // Interned IDs for solver integration #[salsa::interned] fn intern_impl_trait_id(&self, id: ImplTraitId<'_>) -> InternedOpaqueTyId; diff --git a/crates/hir-ty/src/display.rs b/crates/hir-ty/src/display.rs index 0a3796687f03..3b37dc805662 100644 --- a/crates/hir-ty/src/display.rs +++ b/crates/hir-ty/src/display.rs @@ -52,6 +52,7 @@ use crate::{ db::{HirDatabase, InternedClosure, InternedCoroutine}, generics::generics, layout::Layout, + lower::GenericPredicates, mir::pad16, next_solver::{ AliasTy, Clause, ClauseKind, Const, ConstKind, DbInterner, EarlyBinder, @@ -625,23 +626,20 @@ fn write_projection<'db>( { // FIXME: We shouldn't use `param.id`, it should be removed. We should know the // `GenericDefId` from the formatted type (store it inside the `HirFormatter`). - let bounds = - f.db.generic_predicates(param.id.parent()) - .instantiate_identity() - .into_iter() - .flatten() - .filter(|wc| { - let ty = match wc.kind().skip_binder() { - ClauseKind::Trait(tr) => tr.self_ty(), - ClauseKind::TypeOutlives(t) => t.0, - _ => return false, - }; - let TyKind::Alias(AliasTyKind::Projection, a) = ty.kind() else { - return false; - }; - a == *alias - }) - .collect::>(); + let bounds = GenericPredicates::query_all(f.db, param.id.parent()) + .iter_identity_copied() + .filter(|wc| { + let ty = match wc.kind().skip_binder() { + ClauseKind::Trait(tr) => tr.self_ty(), + ClauseKind::TypeOutlives(t) => t.0, + _ => return false, + }; + let TyKind::Alias(AliasTyKind::Projection, a) = ty.kind() else { + return false; + }; + a == *alias + }) + .collect::>(); if !bounds.is_empty() { return f.format_bounds_with(*alias, |f| { write_bounds_like_dyn_trait_with_prefix( @@ -1122,13 +1120,8 @@ impl<'db> HirDisplay<'db> for Ty<'db> { _ => unreachable!(), }; let impl_trait_id = db.lookup_intern_impl_trait_id(opaque_ty_id); - if let ImplTraitId::ReturnTypeImplTrait(func, idx) = impl_trait_id { - let datas = db - .return_type_impl_traits(func) - .expect("impl trait id without data"); - let data = (*datas) - .as_ref() - .map_bound(|rpit| &rpit.impl_traits[idx].predicates); + if let ImplTraitId::ReturnTypeImplTrait(func, _) = impl_trait_id { + let data = impl_trait_id.predicates(db); let bounds = || data.iter_instantiated_copied(f.interner, ty.args.as_slice()); let mut len = bounds().count(); @@ -1354,43 +1347,24 @@ impl<'db> HirDisplay<'db> for Ty<'db> { )); } let impl_trait_id = db.lookup_intern_impl_trait_id(opaque_ty_id); - match impl_trait_id { - ImplTraitId::ReturnTypeImplTrait(func, idx) => { - let datas = - db.return_type_impl_traits(func).expect("impl trait id without data"); - let data = - (*datas).as_ref().map_bound(|rpit| &rpit.impl_traits[idx].predicates); - let bounds = data - .iter_instantiated_copied(interner, alias_ty.args.as_slice()) - .collect::>(); - let krate = func.krate(db); - write_bounds_like_dyn_trait_with_prefix( - f, - "impl", - Either::Left(*self), - &bounds, - SizedByDefault::Sized { anchor: krate }, - )?; + let data = impl_trait_id.predicates(db); + let bounds = data + .iter_instantiated_copied(interner, alias_ty.args.as_slice()) + .collect::>(); + let krate = match impl_trait_id { + ImplTraitId::ReturnTypeImplTrait(func, _) => { + func.krate(db) // FIXME: it would maybe be good to distinguish this from the alias type (when debug printing), and to show the substitution } - ImplTraitId::TypeAliasImplTrait(alias, idx) => { - let datas = - db.type_alias_impl_traits(alias).expect("impl trait id without data"); - let data = - (*datas).as_ref().map_bound(|rpit| &rpit.impl_traits[idx].predicates); - let bounds = data - .iter_instantiated_copied(interner, alias_ty.args.as_slice()) - .collect::>(); - let krate = alias.krate(db); - write_bounds_like_dyn_trait_with_prefix( - f, - "impl", - Either::Left(*self), - &bounds, - SizedByDefault::Sized { anchor: krate }, - )?; - } - } + ImplTraitId::TypeAliasImplTrait(alias, _) => alias.krate(db), + }; + write_bounds_like_dyn_trait_with_prefix( + f, + "impl", + Either::Left(*self), + &bounds, + SizedByDefault::Sized { anchor: krate }, + )?; } TyKind::Closure(id, substs) => { let id = id.0; @@ -1541,11 +1515,8 @@ impl<'db> HirDisplay<'db> for Ty<'db> { )? } TypeParamProvenance::ArgumentImplTrait => { - let bounds = db - .generic_predicates(param.id.parent()) - .instantiate_identity() - .into_iter() - .flatten() + let bounds = GenericPredicates::query_all(f.db, param.id.parent()) + .iter_identity_copied() .filter(|wc| match wc.kind().skip_binder() { ClauseKind::Trait(tr) => tr.self_ty() == *self, ClauseKind::Projection(proj) => proj.self_ty() == *self, diff --git a/crates/hir-ty/src/drop.rs b/crates/hir-ty/src/drop.rs index b09d1fb196c4..522d12d01277 100644 --- a/crates/hir-ty/src/drop.rs +++ b/crates/hir-ty/src/drop.rs @@ -9,9 +9,9 @@ use triomphe::Arc; use crate::{ TraitEnvironment, consteval, db::HirDatabase, - method_resolution::TyFingerprint, + method_resolution::TraitImpls, next_solver::{ - Ty, TyKind, + SimplifiedType, Ty, TyKind, infer::{InferCtxt, traits::ObligationCause}, obligation_ctxt::ObligationCtxt, }, @@ -27,13 +27,13 @@ fn has_destructor(db: &dyn HirDatabase, adt: AdtId) -> bool { return false; }; let impls = match module.containing_block() { - Some(block) => match db.trait_impls_in_block(block) { + Some(block) => match TraitImpls::for_block(db, block) { Some(it) => it, None => return false, }, - None => db.trait_impls_in_crate(module.krate()), + None => &**TraitImpls::for_crate(db, module.krate()), }; - impls.for_trait_and_self_ty(drop_trait, TyFingerprint::Adt(adt)).next().is_some() + !impls.for_trait_and_self_ty(drop_trait, &SimplifiedType::Adt(adt.into())).is_empty() } #[derive(Debug, Clone, Copy, PartialEq, Eq, PartialOrd, Ord)] diff --git a/crates/hir-ty/src/dyn_compatibility.rs b/crates/hir-ty/src/dyn_compatibility.rs index 437141e41db9..1bd5981d10e2 100644 --- a/crates/hir-ty/src/dyn_compatibility.rs +++ b/crates/hir-ty/src/dyn_compatibility.rs @@ -18,7 +18,7 @@ use smallvec::SmallVec; use crate::{ ImplTraitId, db::{HirDatabase, InternedOpaqueTyId}, - lower::associated_ty_item_bounds, + lower::{GenericPredicates, associated_ty_item_bounds}, next_solver::{ Binder, Clause, Clauses, DbInterner, EarlyBinder, GenericArgs, Goal, ParamEnv, ParamTy, SolverDefId, TraitPredicate, TraitRef, Ty, TypingMode, infer::DbInternerInferExt, mk_param, @@ -136,11 +136,11 @@ pub fn generics_require_sized_self(db: &dyn HirDatabase, def: GenericDefId) -> b }; let interner = DbInterner::new_with(db, Some(krate), None); - let predicates = db.generic_predicates(def); + let predicates = GenericPredicates::query_explicit(db, def); // FIXME: We should use `explicit_predicates_of` here, which hasn't been implemented to // rust-analyzer yet // https://github.com/rust-lang/rust/blob/ddaf12390d3ffb7d5ba74491a48f3cd528e5d777/compiler/rustc_hir_analysis/src/collect/predicates_of.rs#L490 - elaborate::elaborate(interner, predicates.iter().copied()).any(|pred| { + elaborate::elaborate(interner, predicates.iter_identity_copied()).any(|pred| { match pred.kind().skip_binder() { ClauseKind::Trait(trait_pred) => { if sized == trait_pred.def_id().0 @@ -162,8 +162,8 @@ pub fn generics_require_sized_self(db: &dyn HirDatabase, def: GenericDefId) -> b // but we don't have good way to render such locations. // So, just return single boolean value for existence of such `Self` reference fn predicates_reference_self(db: &dyn HirDatabase, trait_: TraitId) -> bool { - db.generic_predicates(trait_.into()) - .iter() + GenericPredicates::query_explicit(db, trait_.into()) + .iter_identity_copied() .any(|pred| predicate_references_self(db, trait_, pred, AllowSelfProjection::No)) } @@ -199,7 +199,7 @@ enum AllowSelfProjection { fn predicate_references_self<'db>( db: &'db dyn HirDatabase, trait_: TraitId, - predicate: &Clause<'db>, + predicate: Clause<'db>, allow_self_projection: AllowSelfProjection, ) -> bool { match predicate.kind().skip_binder() { @@ -363,8 +363,8 @@ where cb(MethodViolationCode::UndispatchableReceiver)?; } - let predicates = &*db.generic_predicates_without_parent(func.into()); - for pred in predicates { + let predicates = GenericPredicates::query_own(db, func.into()); + for pred in predicates.iter_identity_copied() { let pred = pred.kind().skip_binder(); if matches!(pred, ClauseKind::TypeOutlives(_)) { @@ -440,7 +440,7 @@ fn receiver_is_dispatchable<'db>( let unsized_receiver_ty = receiver_for_self_ty(interner, func, receiver_ty, unsized_self_ty); let param_env = { - let generic_predicates = &*db.generic_predicates(func.into()); + let generic_predicates = GenericPredicates::query_all(db, func.into()); // Self: Unsize let unsize_predicate = @@ -458,7 +458,7 @@ fn receiver_is_dispatchable<'db>( ParamEnv { clauses: Clauses::new_from_iter( interner, - generic_predicates.iter().copied().chain([ + generic_predicates.iter_identity_copied().chain([ unsize_predicate.upcast(interner), trait_predicate.upcast(interner), meta_sized_predicate.upcast(interner), diff --git a/crates/hir-ty/src/infer.rs b/crates/hir-ty/src/infer.rs index 016edb2310eb..37060bd4b1fd 100644 --- a/crates/hir-ty/src/infer.rs +++ b/crates/hir-ty/src/infer.rs @@ -21,9 +21,11 @@ pub(crate) mod diagnostics; mod expr; mod fallback; mod mutability; +mod op; mod opaques; mod pat; mod path; +mod place_op; pub(crate) mod unify; use std::{cell::OnceCell, convert::identity, iter, ops::Index}; @@ -45,12 +47,14 @@ use hir_expand::{mod_path::ModPath, name::Name}; use indexmap::IndexSet; use intern::sym; use la_arena::ArenaMap; +use macros::{TypeFoldable, TypeVisitable}; use rustc_ast_ir::Mutability; use rustc_hash::{FxHashMap, FxHashSet}; use rustc_type_ir::{ AliasTyKind, TypeFoldable, inherent::{AdtDef, IntoKind, Region as _, SliceLike, Ty as _}, }; +use span::Edition; use stdx::never; use triomphe::Arc; @@ -65,10 +69,13 @@ use crate::{ lower::{ ImplTraitIdx, ImplTraitLoweringMode, LifetimeElisionKind, diagnostics::TyLoweringDiagnostic, }, + method_resolution::{CandidateId, MethodResolutionUnstableFeatures}, mir::MirSpan, next_solver::{ AliasTy, Const, DbInterner, ErrorGuaranteed, GenericArg, GenericArgs, Region, Ty, TyKind, - Tys, abi::Safety, infer::traits::ObligationCause, + Tys, + abi::Safety, + infer::{InferCtxt, traits::ObligationCause}, }, traits::FnTrait, utils::TargetFeatureIsSafeInTarget, @@ -330,16 +337,21 @@ pub struct TypeMismatch<'db> { /// At some point, of course, `Box` should move out of the compiler, in which /// case this is analogous to transforming a struct. E.g., Box<[i32; 4]> -> /// Box<[i32]> is an `Adjust::Unsize` with the target `Box<[i32]>`. -#[derive(Clone, Debug, PartialEq, Eq, Hash)] +#[derive(Clone, Debug, PartialEq, Eq, Hash, TypeVisitable, TypeFoldable)] pub struct Adjustment<'db> { - pub kind: Adjust<'db>, + #[type_visitable(ignore)] + #[type_foldable(identity)] + pub kind: Adjust, pub target: Ty<'db>, } impl<'db> Adjustment<'db> { pub fn borrow(interner: DbInterner<'db>, m: Mutability, ty: Ty<'db>, lt: Region<'db>) -> Self { let ty = Ty::new_ref(interner, lt, ty, m); - Adjustment { kind: Adjust::Borrow(AutoBorrow::Ref(lt, m)), target: ty } + Adjustment { + kind: Adjust::Borrow(AutoBorrow::Ref(AutoBorrowMutability::new(m, AllowTwoPhase::No))), + target: ty, + } } } @@ -357,20 +369,20 @@ impl<'db> Adjustment<'db> { /// capable mutable borrows. /// See #49434 for tracking. #[derive(Debug, Copy, Clone, PartialEq, Eq, Hash)] -pub(crate) enum AllowTwoPhase { +pub enum AllowTwoPhase { // FIXME: We should use this when appropriate. Yes, No, } #[derive(Clone, Debug, PartialEq, Eq, Hash)] -pub enum Adjust<'db> { +pub enum Adjust { /// Go from ! to any type. NeverToAny, /// Dereference once, producing a place. Deref(Option), /// Take the address and produce either a `&` or `*` pointer. - Borrow(AutoBorrow<'db>), + Borrow(AutoBorrow), Pointer(PointerCast), } @@ -381,18 +393,47 @@ pub enum Adjust<'db> { #[derive(Clone, Copy, Debug, PartialEq, Eq, Hash)] pub struct OverloadedDeref(pub Option); -#[derive(Clone, Debug, PartialEq, Eq, Hash)] -pub enum AutoBorrow<'db> { +#[derive(Copy, Clone, PartialEq, Eq, Hash, Debug)] +pub enum AutoBorrowMutability { + Mut { allow_two_phase_borrow: AllowTwoPhase }, + Not, +} + +impl AutoBorrowMutability { + /// Creates an `AutoBorrowMutability` from a mutability and allowance of two phase borrows. + /// + /// Note that when `mutbl.is_not()`, `allow_two_phase_borrow` is ignored + pub fn new(mutbl: Mutability, allow_two_phase_borrow: AllowTwoPhase) -> Self { + match mutbl { + Mutability::Not => Self::Not, + Mutability::Mut => Self::Mut { allow_two_phase_borrow }, + } + } +} + +impl From for Mutability { + fn from(m: AutoBorrowMutability) -> Self { + match m { + AutoBorrowMutability::Mut { .. } => Mutability::Mut, + AutoBorrowMutability::Not => Mutability::Not, + } + } +} + +#[derive(Clone, Copy, Debug, PartialEq, Eq, Hash)] +pub enum AutoBorrow { /// Converts from T to &T. - Ref(Region<'db>, Mutability), + Ref(AutoBorrowMutability), /// Converts from T to *T. RawPtr(Mutability), } -impl<'db> AutoBorrow<'db> { - fn mutability(&self) -> Mutability { - let (AutoBorrow::Ref(_, m) | AutoBorrow::RawPtr(m)) = self; - *m +impl AutoBorrow { + fn mutability(self) -> Mutability { + match self { + AutoBorrow::Ref(mutbl) => mutbl.into(), + AutoBorrow::RawPtr(mutbl) => mutbl, + } } } @@ -442,7 +483,7 @@ pub struct InferenceResult<'db> { /// For each struct literal or pattern, records the variant it resolves to. variant_resolutions: FxHashMap, /// For each associated item record what it resolves to - assoc_resolutions: FxHashMap)>, + assoc_resolutions: FxHashMap)>, /// Whenever a tuple field expression access a tuple field, we allocate a tuple id in /// [`InferenceContext`] and store the tuples substitution there. This map is the reverse of /// that which allows us to resolve a [`TupleFieldId`]s type. @@ -457,7 +498,7 @@ pub struct InferenceResult<'db> { pub(crate) type_of_pat: ArenaMap>, pub(crate) type_of_binding: ArenaMap>, pub(crate) type_of_opaque: FxHashMap>, - type_mismatches: FxHashMap>, + pub(crate) type_mismatches: FxHashMap>, /// Whether there are any type-mismatching errors in the result. // FIXME: This isn't as useful as initially thought due to us falling back placeholders to // `TyKind::Error`. @@ -535,16 +576,16 @@ impl<'db> InferenceResult<'db> { pub fn assoc_resolutions_for_expr( &self, id: ExprId, - ) -> Option<(AssocItemId, GenericArgs<'db>)> { + ) -> Option<(CandidateId, GenericArgs<'db>)> { self.assoc_resolutions.get(&id.into()).copied() } - pub fn assoc_resolutions_for_pat(&self, id: PatId) -> Option<(AssocItemId, GenericArgs<'db>)> { + pub fn assoc_resolutions_for_pat(&self, id: PatId) -> Option<(CandidateId, GenericArgs<'db>)> { self.assoc_resolutions.get(&id.into()).copied() } pub fn assoc_resolutions_for_expr_or_pat( &self, id: ExprOrPatId, - ) -> Option<(AssocItemId, GenericArgs<'db>)> { + ) -> Option<(CandidateId, GenericArgs<'db>)> { match id { ExprOrPatId::ExprId(id) => self.assoc_resolutions_for_expr(id), ExprOrPatId::PatId(id) => self.assoc_resolutions_for_pat(id), @@ -769,8 +810,10 @@ pub(crate) struct InferenceContext<'body, 'db> { /// and resolve the path via its methods. This will ensure proper error reporting. pub(crate) resolver: Resolver<'db>, target_features: OnceCell<(TargetFeatures, TargetFeatureIsSafeInTarget)>, + pub(crate) unstable_features: MethodResolutionUnstableFeatures, + pub(crate) edition: Edition, pub(crate) generic_def: GenericDefId, - table: unify::InferenceTable<'db>, + pub(crate) table: unify::InferenceTable<'db>, /// The traits in scope, disregarding block modules. This is used for caching purposes. traits_in_scope: FxHashSet, pub(crate) result: InferenceResult<'db>, @@ -873,6 +916,10 @@ impl<'body, 'db> InferenceContext<'body, 'db> { return_ty: types.error, // set in collect_* calls types, target_features: OnceCell::new(), + unstable_features: MethodResolutionUnstableFeatures::from_def_map( + resolver.top_level_def_map(), + ), + edition: resolver.krate().data(db).edition, table, tuple_field_accesses_rev: Default::default(), resume_yield_tys: None, @@ -906,18 +953,15 @@ impl<'body, 'db> InferenceContext<'body, 'db> { self.resolver.krate() } - fn target_features<'a>( - db: &dyn HirDatabase, - target_features: &'a OnceCell<(TargetFeatures, TargetFeatureIsSafeInTarget)>, - owner: DefWithBodyId, - krate: Crate, - ) -> (&'a TargetFeatures, TargetFeatureIsSafeInTarget) { - let (target_features, target_feature_is_safe) = target_features.get_or_init(|| { - let target_features = match owner { - DefWithBodyId::FunctionId(id) => TargetFeatures::from_attrs(&db.attrs(id.into())), + fn target_features(&self) -> (&TargetFeatures, TargetFeatureIsSafeInTarget) { + let (target_features, target_feature_is_safe) = self.target_features.get_or_init(|| { + let target_features = match self.owner { + DefWithBodyId::FunctionId(id) => { + TargetFeatures::from_attrs(&self.db.attrs(id.into())) + } _ => TargetFeatures::default(), }; - let target_feature_is_safe = match &krate.workspace_data(db).target { + let target_feature_is_safe = match &self.krate().workspace_data(self.db).target { Ok(target) => crate::utils::target_feature_is_safe_in_target(target), Err(_) => TargetFeatureIsSafeInTarget::No, }; @@ -927,7 +971,7 @@ impl<'body, 'db> InferenceContext<'body, 'db> { } #[inline] - pub(crate) fn set_tainted_by_errors(&mut self) { + fn set_tainted_by_errors(&mut self) { self.result.has_errors = true; } @@ -1162,6 +1206,11 @@ impl<'body, 'db> InferenceContext<'body, 'db> { self.table.interner() } + #[inline] + pub(crate) fn infcx(&self) -> &InferCtxt<'db> { + &self.table.infer_ctxt + } + fn infer_body(&mut self) { match self.return_coercion { Some(_) => self.infer_return(self.body.body_expr), @@ -1179,7 +1228,7 @@ impl<'body, 'db> InferenceContext<'body, 'db> { self.result.type_of_expr.insert(expr, ty); } - fn write_expr_adj(&mut self, expr: ExprId, adjustments: Box<[Adjustment<'db>]>) { + pub(crate) fn write_expr_adj(&mut self, expr: ExprId, adjustments: Box<[Adjustment<'db>]>) { if adjustments.is_empty() { return; } @@ -1212,7 +1261,12 @@ impl<'body, 'db> InferenceContext<'body, 'db> { self.result.pat_adjustments.entry(pat).or_default().extend(adjustments); } - fn write_method_resolution(&mut self, expr: ExprId, func: FunctionId, subst: GenericArgs<'db>) { + pub(crate) fn write_method_resolution( + &mut self, + expr: ExprId, + func: FunctionId, + subst: GenericArgs<'db>, + ) { self.result.method_resolutions.insert(expr, (func, subst)); } @@ -1223,7 +1277,7 @@ impl<'body, 'db> InferenceContext<'body, 'db> { fn write_assoc_resolution( &mut self, id: ExprOrPatId, - item: AssocItemId, + item: CandidateId, subs: GenericArgs<'db>, ) { self.result.assoc_resolutions.insert(id, (item, subs)); @@ -1237,7 +1291,7 @@ impl<'body, 'db> InferenceContext<'body, 'db> { self.result.type_of_binding.insert(id, ty); } - fn push_diagnostic(&self, diagnostic: InferenceDiagnostic<'db>) { + pub(crate) fn push_diagnostic(&self, diagnostic: InferenceDiagnostic<'db>) { self.diagnostics.push(diagnostic); } @@ -1284,7 +1338,7 @@ impl<'body, 'db> InferenceContext<'body, 'db> { self.process_user_written_ty(ty) } - fn make_body_ty(&mut self, type_ref: TypeRefId) -> Ty<'db> { + pub(crate) fn make_body_ty(&mut self, type_ref: TypeRefId) -> Ty<'db> { self.make_ty( type_ref, self.body, @@ -1293,7 +1347,7 @@ impl<'body, 'db> InferenceContext<'body, 'db> { ) } - fn make_body_const(&mut self, const_ref: ConstRef, ty: Ty<'db>) -> Const<'db> { + pub(crate) fn make_body_const(&mut self, const_ref: ConstRef, ty: Ty<'db>) -> Const<'db> { let const_ = self.with_ty_lowering( self.body, InferenceTyDiagnosticSource::Body, @@ -1303,7 +1357,7 @@ impl<'body, 'db> InferenceContext<'body, 'db> { self.insert_type_vars(const_) } - fn make_path_as_body_const(&mut self, path: &Path, ty: Ty<'db>) -> Const<'db> { + pub(crate) fn make_path_as_body_const(&mut self, path: &Path, ty: Ty<'db>) -> Const<'db> { let const_ = self.with_ty_lowering( self.body, InferenceTyDiagnosticSource::Body, @@ -1317,7 +1371,7 @@ impl<'body, 'db> InferenceContext<'body, 'db> { self.types.error } - fn make_body_lifetime(&mut self, lifetime_ref: LifetimeRefId) -> Region<'db> { + pub(crate) fn make_body_lifetime(&mut self, lifetime_ref: LifetimeRefId) -> Region<'db> { let lt = self.with_ty_lowering( self.body, InferenceTyDiagnosticSource::Body, @@ -1399,19 +1453,13 @@ impl<'body, 'db> InferenceContext<'body, 'db> { } /// Whenever you lower a user-written type, you should call this. - fn process_user_written_ty(&mut self, ty: T) -> T - where - T: TypeFoldable>, - { + fn process_user_written_ty(&mut self, ty: Ty<'db>) -> Ty<'db> { self.table.process_user_written_ty(ty) } /// The difference of this method from `process_user_written_ty()` is that this method doesn't register a well-formed obligation, /// while `process_user_written_ty()` should (but doesn't currently). - fn process_remote_user_written_ty(&mut self, ty: T) -> T - where - T: TypeFoldable>, - { + fn process_remote_user_written_ty(&mut self, ty: Ty<'db>) -> Ty<'db> { self.table.process_remote_user_written_ty(ty) } @@ -1430,8 +1478,7 @@ impl<'body, 'db> InferenceContext<'body, 'db> { fn demand_eqtype(&mut self, expected: Ty<'db>, actual: Ty<'db>) { let result = self .table - .infer_ctxt - .at(&ObligationCause::new(), self.table.trait_env.env) + .at(&ObligationCause::new()) .eq(expected, actual) .map(|infer_ok| self.table.register_infer_ok(infer_ok)); if let Err(_err) = result { @@ -1439,6 +1486,46 @@ impl<'body, 'db> InferenceContext<'body, 'db> { } } + fn demand_suptype(&mut self, expected: Ty<'db>, actual: Ty<'db>) { + let result = self + .table + .at(&ObligationCause::new()) + .sup(expected, actual) + .map(|infer_ok| self.table.register_infer_ok(infer_ok)); + if let Err(_err) = result { + // FIXME: Emit diagnostic. + } + } + + fn demand_coerce( + &mut self, + expr: ExprId, + checked_ty: Ty<'db>, + expected: Ty<'db>, + allow_two_phase: AllowTwoPhase, + expr_is_read: ExprIsRead, + ) -> Ty<'db> { + let result = self.coerce(expr.into(), checked_ty, expected, allow_two_phase, expr_is_read); + if let Err(_err) = result { + // FIXME: Emit diagnostic. + } + result.unwrap_or(self.types.error) + } + + fn expr_ty(&self, expr: ExprId) -> Ty<'db> { + self.result[expr] + } + + fn expr_ty_after_adjustments(&self, e: ExprId) -> Ty<'db> { + let mut ty = None; + if let Some(it) = self.result.expr_adjustments.get(&e) + && let Some(it) = it.last() + { + ty = Some(it.target); + } + ty.unwrap_or_else(|| self.expr_ty(e)) + } + fn resolve_associated_type_with_params( &mut self, inner_ty: Ty<'db>, @@ -1596,9 +1683,7 @@ impl<'body, 'db> InferenceContext<'body, 'db> { (ty, _) = path_ctx.lower_partly_resolved_path(resolution, true); tried_resolving_once = true; - ty = self.table.insert_type_vars(ty); - ty = self.table.normalize_associated_types_in(ty); - ty = self.table.structurally_resolve_type(ty); + ty = self.table.process_user_written_ty(ty); if ty.is_ty_error() { return (self.err_ty(), None); } @@ -1709,18 +1794,6 @@ impl<'body, 'db> InferenceContext<'body, 'db> { trait_.trait_items(self.db).associated_type_by_name(&Name::new_symbol_root(sym::Output)) } - fn resolve_lang_trait(&self, lang: LangItem) -> Option { - self.resolve_lang_item(lang)?.as_trait() - } - - fn resolve_ops_neg_output(&self) -> Option { - self.resolve_output_on(self.resolve_lang_trait(LangItem::Neg)?) - } - - fn resolve_ops_not_output(&self) -> Option { - self.resolve_output_on(self.resolve_lang_trait(LangItem::Not)?) - } - fn resolve_future_future_output(&self) -> Option { let ItemContainerId::TraitId(trait_) = self .resolve_lang_item(LangItem::IntoFutureIntoFuture)? @@ -1768,24 +1841,17 @@ impl<'body, 'db> InferenceContext<'body, 'db> { Some(struct_.into()) } - fn resolve_ops_index_output(&self) -> Option { - self.resolve_output_on(self.resolve_lang_trait(LangItem::Index)?) - } - fn resolve_va_list(&self) -> Option { let struct_ = self.resolve_lang_item(LangItem::VaList)?.as_struct()?; Some(struct_.into()) } - fn get_traits_in_scope<'a>( - resolver: &Resolver<'db>, - traits_in_scope: &'a FxHashSet, - ) -> Either, &'a FxHashSet> { - let mut b_traits = resolver.traits_in_scope_from_block_scopes().peekable(); + pub(crate) fn get_traits_in_scope(&self) -> Either, &FxHashSet> { + let mut b_traits = self.resolver.traits_in_scope_from_block_scopes().peekable(); if b_traits.peek().is_some() { - Either::Left(traits_in_scope.iter().copied().chain(b_traits).collect()) + Either::Left(self.traits_in_scope.iter().copied().chain(b_traits).collect()) } else { - Either::Right(traits_in_scope) + Either::Right(&self.traits_in_scope) } } } diff --git a/crates/hir-ty/src/infer/autoderef.rs b/crates/hir-ty/src/infer/autoderef.rs index ba133aa553d7..1af102af23d8 100644 --- a/crates/hir-ty/src/infer/autoderef.rs +++ b/crates/hir-ty/src/infer/autoderef.rs @@ -6,7 +6,7 @@ use rustc_ast_ir::Mutability; use crate::{ Adjust, Adjustment, OverloadedDeref, - autoderef::{Autoderef, AutoderefKind}, + autoderef::{Autoderef, AutoderefCtx, AutoderefKind, GeneralAutoderef}, infer::unify::InferenceTable, next_solver::{ Ty, @@ -15,18 +15,16 @@ use crate::{ }; impl<'db> InferenceTable<'db> { - pub(crate) fn autoderef(&mut self, base_ty: Ty<'db>) -> Autoderef<'_, 'db> { - Autoderef::new(self, base_ty) + pub(crate) fn autoderef(&self, base_ty: Ty<'db>) -> Autoderef<'_, 'db, usize> { + Autoderef::new(&self.infer_ctxt, &self.trait_env, base_ty) } -} -impl<'db> Autoderef<'_, 'db> { - /// Returns the adjustment steps. - pub(crate) fn adjust_steps(mut self) -> Vec> { - let infer_ok = self.adjust_steps_as_infer_ok(); - self.table.register_infer_ok(infer_ok) + pub(crate) fn autoderef_with_tracking(&self, base_ty: Ty<'db>) -> Autoderef<'_, 'db> { + Autoderef::new_with_tracking(&self.infer_ctxt, &self.trait_env, base_ty) } +} +impl<'db, Ctx: AutoderefCtx<'db>> GeneralAutoderef<'db, Ctx> { pub(crate) fn adjust_steps_as_infer_ok(&mut self) -> InferOk<'db, Vec>> { let steps = self.steps(); if steps.is_empty() { diff --git a/crates/hir-ty/src/infer/cast.rs b/crates/hir-ty/src/infer/cast.rs index c128977d7b08..8b657dcb88de 100644 --- a/crates/hir-ty/src/infer/cast.rs +++ b/crates/hir-ty/src/infer/cast.rs @@ -11,7 +11,7 @@ use stdx::never; use crate::{ InferenceDiagnostic, db::HirDatabase, - infer::{AllowTwoPhase, InferenceContext, coerce::CoerceNever}, + infer::{AllowTwoPhase, InferenceContext, expr::ExprIsRead}, next_solver::{BoundExistentialPredicates, DbInterner, ParamTy, Ty, TyKind}, }; @@ -120,7 +120,7 @@ impl<'db> CastCheck<'db> { self.expr_ty, self.cast_ty, AllowTwoPhase::No, - CoerceNever::Yes, + ExprIsRead::Yes, ) .is_ok() { @@ -167,7 +167,7 @@ impl<'db> CastCheck<'db> { self.expr_ty, fn_ptr, AllowTwoPhase::No, - CoerceNever::Yes, + ExprIsRead::Yes, ) .is_ok() { @@ -248,7 +248,7 @@ impl<'db> CastCheck<'db> { self.expr_ty, array_ptr_type, AllowTwoPhase::No, - CoerceNever::Yes, + ExprIsRead::Yes, ) .is_ok() { @@ -263,7 +263,7 @@ impl<'db> CastCheck<'db> { // This is a less strict condition than rustc's `demand_eqtype`, // but false negative is better than false positive if ctx - .coerce(self.source_expr.into(), ety, t_cast, AllowTwoPhase::No, CoerceNever::Yes) + .coerce(self.source_expr.into(), ety, t_cast, AllowTwoPhase::No, ExprIsRead::Yes) .is_ok() { return Ok(()); diff --git a/crates/hir-ty/src/infer/closure.rs b/crates/hir-ty/src/infer/closure.rs index 06f8307eb0ab..54a06ebd2ce0 100644 --- a/crates/hir-ty/src/infer/closure.rs +++ b/crates/hir-ty/src/infer/closure.rs @@ -31,7 +31,6 @@ use crate::{ BoundRegionConversionTime, InferOk, InferResult, traits::{ObligationCause, PredicateObligations}, }, - util::explicit_item_bounds, }, traits::FnTrait, }; @@ -255,8 +254,10 @@ impl<'db> InferenceContext<'_, 'db> { .deduce_closure_signature_from_predicates( expected_ty, closure_kind, - explicit_item_bounds(self.interner(), def_id) - .iter_instantiated(self.interner(), args) + def_id + .expect_opaque_ty() + .predicates(self.db) + .iter_instantiated_copied(self.interner(), args.as_slice()) .map(|clause| clause.as_predicate()), ), TyKind::Dynamic(object_type, ..) => { diff --git a/crates/hir-ty/src/infer/closure/analysis.rs b/crates/hir-ty/src/infer/closure/analysis.rs index 763b14581281..944b3594bac7 100644 --- a/crates/hir-ty/src/infer/closure/analysis.rs +++ b/crates/hir-ty/src/infer/closure/analysis.rs @@ -11,11 +11,8 @@ use hir_def::{ Statement, UnaryOp, }, item_tree::FieldsShape, - lang_item::LangItem, resolver::ValueNs, }; -use hir_expand::name::Name; -use intern::sym; use rustc_ast_ir::Mutability; use rustc_hash::{FxHashMap, FxHashSet}; use rustc_type_ir::inherent::{IntoKind, SliceLike, Ty as _}; @@ -351,10 +348,12 @@ impl<'db> InferenceContext<'_, 'db> { return Some(place); } Expr::UnaryOp { expr, op: UnaryOp::Deref } => { - if matches!( - self.expr_ty_after_adjustments(*expr).kind(), - TyKind::Ref(..) | TyKind::RawPtr(..) - ) { + let is_builtin_deref = match self.expr_ty(*expr).kind() { + TyKind::Ref(..) | TyKind::RawPtr(..) => true, + TyKind::Adt(adt_def, _) if adt_def.is_box() => true, + _ => false, + }; + if is_builtin_deref { let mut place = self.place_of_expr(*expr)?; self.current_capture_span_stack.push(MirSpan::ExprId(tgt_expr)); place.projections.push(ProjectionElem::Deref); @@ -609,28 +608,19 @@ impl<'db> InferenceContext<'_, 'db> { } Expr::Field { expr, name: _ } => self.select_from_expr(*expr), Expr::UnaryOp { expr, op: UnaryOp::Deref } => { - if matches!( - self.expr_ty_after_adjustments(*expr).kind(), - TyKind::Ref(..) | TyKind::RawPtr(..) - ) { - self.select_from_expr(*expr); - } else if let Some((f, _)) = self.result.method_resolution(tgt_expr) { - let mutability = 'b: { - if let Some(deref_trait) = - self.resolve_lang_item(LangItem::DerefMut).and_then(|it| it.as_trait()) - && let Some(deref_fn) = deref_trait - .trait_items(self.db) - .method_by_name(&Name::new_symbol_root(sym::deref_mut)) - { - break 'b deref_fn == f; + if self.result.method_resolution(tgt_expr).is_some() { + // Overloaded deref. + match self.expr_ty_after_adjustments(*expr).kind() { + TyKind::Ref(_, _, mutability) => { + let place = self.place_of_expr(*expr); + match mutability { + Mutability::Mut => self.mutate_expr(*expr, place), + Mutability::Not => self.ref_expr(*expr, place), + } } - false - }; - let place = self.place_of_expr(*expr); - if mutability { - self.mutate_expr(*expr, place); - } else { - self.ref_expr(*expr, place); + // FIXME: Is this correct wrt. raw pointer derefs? + TyKind::RawPtr(..) => self.select_from_expr(*expr), + _ => never!("deref adjustments should include taking a mutable reference"), } } else { self.select_from_expr(*expr); @@ -806,20 +796,6 @@ impl<'db> InferenceContext<'_, 'db> { self.body.walk_pats_shallow(p, |p| self.walk_pat_inner(p, update_result, for_mut)); } - fn expr_ty(&self, expr: ExprId) -> Ty<'db> { - self.result[expr] - } - - fn expr_ty_after_adjustments(&self, e: ExprId) -> Ty<'db> { - let mut ty = None; - if let Some(it) = self.result.expr_adjustments.get(&e) - && let Some(it) = it.last() - { - ty = Some(it.target); - } - ty.unwrap_or_else(|| self.expr_ty(e)) - } - fn is_upvar(&self, place: &HirPlace<'db>) -> bool { if let Some(c) = self.current_closure { let InternedClosure(_, root) = self.db.lookup_intern_closure(c); diff --git a/crates/hir-ty/src/infer/coerce.rs b/crates/hir-ty/src/infer/coerce.rs index 40de9234abc5..4acf964bbc85 100644 --- a/crates/hir-ty/src/infer/coerce.rs +++ b/crates/hir-ty/src/infer/coerce.rs @@ -44,7 +44,8 @@ use hir_def::{ use intern::sym; use rustc_ast_ir::Mutability; use rustc_type_ir::{ - BoundVar, TypeAndMut, + BoundVar, DebruijnIndex, TyVid, TypeAndMut, TypeFoldable, TypeFolder, TypeSuperFoldable, + TypeVisitableExt, error::TypeError, inherent::{Const as _, GenericArg as _, IntoKind, Safety, SliceLike, Ty as _}, }; @@ -56,13 +57,16 @@ use crate::{ Adjust, Adjustment, AutoBorrow, PointerCast, TargetFeatures, TraitEnvironment, autoderef::Autoderef, db::{HirDatabase, InternedClosureId}, - infer::{AllowTwoPhase, InferenceContext, TypeMismatch, unify::InferenceTable}, + infer::{ + AllowTwoPhase, AutoBorrowMutability, InferenceContext, TypeMismatch, expr::ExprIsRead, + }, next_solver::{ Binder, BoundConst, BoundRegion, BoundRegionKind, BoundTy, BoundTyKind, CallableIdWrapper, Canonical, ClauseKind, CoercePredicate, Const, ConstKind, DbInterner, ErrorGuaranteed, GenericArgs, PolyFnSig, PredicateKind, Region, RegionKind, TraitRef, Ty, TyKind, + TypingMode, infer::{ - InferCtxt, InferOk, InferResult, + DbInternerInferExt, InferCtxt, InferOk, InferResult, relate::RelateResult, select::{ImplSource, SelectionError}, traits::{Obligation, ObligationCause, PredicateObligation, PredicateObligations}, @@ -72,10 +76,20 @@ use crate::{ utils::TargetFeatureIsSafeInTarget, }; -struct Coerce<'a, 'b, 'db> { - table: &'a mut InferenceTable<'db>, - has_errors: &'a mut bool, - target_features: &'a mut dyn FnMut() -> (&'b TargetFeatures, TargetFeatureIsSafeInTarget), +trait CoerceDelegate<'db> { + fn infcx(&self) -> &InferCtxt<'db>; + fn env(&self) -> &TraitEnvironment<'db>; + fn target_features(&self) -> (&TargetFeatures, TargetFeatureIsSafeInTarget); + + fn set_diverging(&mut self, diverging_ty: Ty<'db>); + + fn set_tainted_by_errors(&mut self); + + fn type_var_is_sized(&mut self, var: TyVid) -> bool; +} + +struct Coerce { + delegate: D, use_lub: bool, /// Determines whether or not allow_two_phase_borrow is set on any /// autoref adjustments we create while coercing. We don't want to @@ -109,43 +123,56 @@ fn success<'db>( Ok(InferOk { value: (adj, target), obligations }) } -impl<'a, 'b, 'db> Coerce<'a, 'b, 'db> { +impl<'db, D> Coerce +where + D: CoerceDelegate<'db>, +{ #[inline] fn set_tainted_by_errors(&mut self) { - *self.has_errors = true; + self.delegate.set_tainted_by_errors(); + } + + #[inline] + fn infcx(&self) -> &InferCtxt<'db> { + self.delegate.infcx() + } + + #[inline] + fn env(&self) -> &TraitEnvironment<'db> { + self.delegate.env() } #[inline] fn interner(&self) -> DbInterner<'db> { - self.table.interner() + self.infcx().interner } #[inline] - fn infer_ctxt(&self) -> &InferCtxt<'db> { - &self.table.infer_ctxt + fn db(&self) -> &'db dyn HirDatabase { + self.interner().db } pub(crate) fn commit_if_ok( &mut self, f: impl FnOnce(&mut Self) -> Result, ) -> Result { - let snapshot = self.table.snapshot(); + let snapshot = self.infcx().start_snapshot(); let result = f(self); match result { Ok(_) => {} Err(_) => { - self.table.rollback_to(snapshot); + self.infcx().rollback_to(snapshot); } } result } - fn unify_raw(&mut self, a: Ty<'db>, b: Ty<'db>) -> InferResult<'db, Ty<'db>> { + fn unify_raw(&self, a: Ty<'db>, b: Ty<'db>) -> InferResult<'db, Ty<'db>> { debug!("unify(a: {:?}, b: {:?}, use_lub: {})", a, b, self.use_lub); - self.commit_if_ok(|this| { - let at = this.infer_ctxt().at(&this.cause, this.table.trait_env.env); + self.infcx().commit_if_ok(|_| { + let at = self.infcx().at(&self.cause, self.env().env); - let res = if this.use_lub { + let res = if self.use_lub { at.lub(b, a) } else { at.sup(b, a) @@ -157,7 +184,7 @@ impl<'a, 'b, 'db> Coerce<'a, 'b, 'db> { // Filter these cases out to make sure our coercion is more accurate. match res { Ok(InferOk { value, obligations }) => { - let mut ocx = ObligationCtxt::new(this.infer_ctxt()); + let mut ocx = ObligationCtxt::new(self.infcx()); ocx.register_obligations(obligations); if ocx.try_evaluate_obligations().is_empty() { Ok(InferOk { value, obligations: ocx.into_pending_obligations() }) @@ -182,7 +209,7 @@ impl<'a, 'b, 'db> Coerce<'a, 'b, 'db> { a: Ty<'db>, b: Ty<'db>, adjustments: impl IntoIterator>, - final_adjustment: Adjust<'db>, + final_adjustment: Adjust, ) -> CoerceResult<'db> { self.unify_raw(a, b).and_then(|InferOk { value: ty, obligations }| { success( @@ -199,15 +226,15 @@ impl<'a, 'b, 'db> Coerce<'a, 'b, 'db> { #[instrument(skip(self))] fn coerce(&mut self, a: Ty<'db>, b: Ty<'db>) -> CoerceResult<'db> { // First, remove any resolved type variables (at the top level, at least): - let a = self.table.shallow_resolve(a); - let b = self.table.shallow_resolve(b); + let a = self.infcx().shallow_resolve(a); + let b = self.infcx().shallow_resolve(b); debug!("Coerce.tys({:?} => {:?})", a, b); // Coercing from `!` to any type is allowed: if a.is_never() { // If we're coercing into an inference var, mark it as possibly diverging. if b.is_infer() { - self.table.set_diverging(b); + self.delegate.set_diverging(b); } if self.coerce_never { @@ -290,12 +317,12 @@ impl<'a, 'b, 'db> Coerce<'a, 'b, 'db> { /// fall back to subtyping (`unify_and`). fn coerce_from_inference_variable(&mut self, a: Ty<'db>, b: Ty<'db>) -> CoerceResult<'db> { debug!("coerce_from_inference_variable(a={:?}, b={:?})", a, b); - debug_assert!(a.is_infer() && self.table.shallow_resolve(a) == a); - debug_assert!(self.table.shallow_resolve(b) == b); + debug_assert!(a.is_infer() && self.infcx().shallow_resolve(a) == a); + debug_assert!(self.infcx().shallow_resolve(b) == b); if b.is_infer() { // Two unresolved type variables: create a `Coerce` predicate. - let target_ty = if self.use_lub { self.table.next_ty_var() } else { b }; + let target_ty = if self.use_lub { self.infcx().next_ty_var() } else { b }; let mut obligations = PredicateObligations::with_capacity(2); for &source_ty in &[a, b] { @@ -303,7 +330,7 @@ impl<'a, 'b, 'db> Coerce<'a, 'b, 'db> { obligations.push(Obligation::new( self.interner(), self.cause.clone(), - self.table.trait_env.env, + self.env().env, Binder::dummy(PredicateKind::Coerce(CoercePredicate { a: source_ty, b: target_ty, @@ -335,8 +362,8 @@ impl<'a, 'b, 'db> Coerce<'a, 'b, 'db> { mutbl_b: Mutability, ) -> CoerceResult<'db> { debug!("coerce_borrowed_pointer(a={:?}, b={:?})", a, b); - debug_assert!(self.table.shallow_resolve(a) == a); - debug_assert!(self.table.shallow_resolve(b) == b); + debug_assert!(self.infcx().shallow_resolve(a) == a); + debug_assert!(self.infcx().shallow_resolve(b) == b); // If we have a parameter of type `&M T_a` and the value // provided is `expr`, we will be adding an implicit borrow, @@ -355,10 +382,10 @@ impl<'a, 'b, 'db> Coerce<'a, 'b, 'db> { let mut first_error = None; let mut r_borrow_var = None; - let mut autoderef = Autoderef::new(self.table, a); + let mut autoderef = Autoderef::new_with_tracking(self.infcx(), self.env(), a); let mut found = None; - while let Some((referent_ty, autoderefs)) = autoderef.next() { + for (referent_ty, autoderefs) in autoderef.by_ref() { if autoderefs == 0 { // Don't let this pass, otherwise it would cause // &T to autoref to &&T. @@ -442,28 +469,18 @@ impl<'a, 'b, 'db> Coerce<'a, 'b, 'db> { } else { if r_borrow_var.is_none() { // create var lazily, at most once - let r = autoderef.table.next_region_var(); + let r = self.infcx().next_region_var(); r_borrow_var = Some(r); // [4] above } r_borrow_var.unwrap() }; let derefd_ty_a = Ty::new_ref( - autoderef.table.interner(), + self.interner(), r, referent_ty, mutbl_b, // [1] above ); - // We need to construct a new `Coerce` because of lifetimes. - let mut coerce = Coerce { - table: autoderef.table, - has_errors: self.has_errors, - target_features: self.target_features, - use_lub: self.use_lub, - allow_two_phase: self.allow_two_phase, - coerce_never: self.coerce_never, - cause: self.cause.clone(), - }; - match coerce.unify_raw(derefd_ty_a, b) { + match self.unify_raw(derefd_ty_a, b) { Ok(ok) => { found = Some(ok); break; @@ -515,15 +532,9 @@ impl<'a, 'b, 'db> Coerce<'a, 'b, 'db> { autoderef.adjust_steps_as_infer_ok(); obligations.extend(o); - // Now apply the autoref. We have to extract the region out of - // the final ref type we got. - let TyKind::Ref(region, _, _) = ty.kind() else { - panic!("expected a ref type, got {:?}", ty); - }; - adjustments.push(Adjustment { - kind: Adjust::Borrow(AutoBorrow::Ref(region, mutbl_b)), - target: ty, - }); + // Now apply the autoref. + let mutbl = AutoBorrowMutability::new(mutbl_b, self.allow_two_phase); + adjustments.push(Adjustment { kind: Adjust::Borrow(AutoBorrow::Ref(mutbl)), target: ty }); debug!("coerce_borrowed_pointer: succeeded ty={:?} adjustments={:?}", ty, adjustments); @@ -538,8 +549,8 @@ impl<'a, 'b, 'db> Coerce<'a, 'b, 'db> { #[instrument(skip(self), level = "debug")] fn coerce_unsized(&mut self, source: Ty<'db>, target: Ty<'db>) -> CoerceResult<'db> { debug!(?source, ?target); - debug_assert!(self.table.shallow_resolve(source) == source); - debug_assert!(self.table.shallow_resolve(target) == target); + debug_assert!(self.infcx().shallow_resolve(source) == source); + debug_assert!(self.infcx().shallow_resolve(target) == target); // We don't apply any coercions incase either the source or target // aren't sufficiently well known but tend to instead just equate @@ -602,8 +613,8 @@ impl<'a, 'b, 'db> Coerce<'a, 'b, 'db> { } let traits = ( - LangItem::Unsize.resolve_trait(self.table.db, self.table.trait_env.krate), - LangItem::CoerceUnsized.resolve_trait(self.table.db, self.table.trait_env.krate), + LangItem::Unsize.resolve_trait(self.db(), self.env().krate), + LangItem::CoerceUnsized.resolve_trait(self.db(), self.env().krate), ); let (Some(unsize_did), Some(coerce_unsized_did)) = traits else { debug!("missing Unsize or CoerceUnsized traits"); @@ -620,18 +631,17 @@ impl<'a, 'b, 'db> Coerce<'a, 'b, 'db> { (TyKind::Ref(_, ty_a, mutbl_a), TyKind::Ref(_, _, mutbl_b)) => { coerce_mutbls(mutbl_a, mutbl_b)?; - let r_borrow = self.table.next_region_var(); + let r_borrow = self.infcx().next_region_var(); // We don't allow two-phase borrows here, at least for initial // implementation. If it happens that this coercion is a function argument, // the reborrow in coerce_borrowed_ptr will pick it up. - // let mutbl = AutoBorrowMutability::new(mutbl_b, AllowTwoPhase::No); - let mutbl = mutbl_b; + let mutbl = AutoBorrowMutability::new(mutbl_b, AllowTwoPhase::No); Some(( Adjustment { kind: Adjust::Deref(None), target: ty_a }, Adjustment { - kind: Adjust::Borrow(AutoBorrow::Ref(r_borrow, mutbl)), + kind: Adjust::Borrow(AutoBorrow::Ref(mutbl)), target: Ty::new_ref(self.interner(), r_borrow, ty_a, mutbl_b), }, )) @@ -655,7 +665,7 @@ impl<'a, 'b, 'db> Coerce<'a, 'b, 'db> { // the `CoerceUnsized` target type and the expected type. // We only have the latter, so we use an inference variable // for the former and let type inference do the rest. - let coerce_target = self.table.next_ty_var(); + let coerce_target = self.infcx().next_ty_var(); let mut coercion = self.unify_and( coerce_target, @@ -677,7 +687,7 @@ impl<'a, 'b, 'db> Coerce<'a, 'b, 'db> { let mut queue: SmallVec<[PredicateObligation<'db>; 4]> = smallvec![Obligation::new( self.interner(), cause, - self.table.trait_env.env, + self.env().env, TraitRef::new( self.interner(), coerce_unsized_did.into(), @@ -694,14 +704,14 @@ impl<'a, 'b, 'db> Coerce<'a, 'b, 'db> { Some(PredicateKind::Clause(ClauseKind::Trait(trait_pred))) if traits.contains(&trait_pred.def_id().0) => { - self.infer_ctxt().resolve_vars_if_possible(trait_pred) + self.infcx().resolve_vars_if_possible(trait_pred) } // Eagerly process alias-relate obligations in new trait solver, // since these can be emitted in the process of solving trait goals, // but we need to constrain vars before processing goals mentioning // them. Some(PredicateKind::AliasRelate(..)) => { - let mut ocx = ObligationCtxt::new(self.infer_ctxt()); + let mut ocx = ObligationCtxt::new(self.infcx()); ocx.register_obligation(obligation); if !ocx.try_evaluate_obligations().is_empty() { return Err(TypeError::Mismatch); @@ -715,7 +725,7 @@ impl<'a, 'b, 'db> Coerce<'a, 'b, 'db> { } }; debug!("coerce_unsized resolve step: {:?}", trait_pred); - match self.infer_ctxt().select(&obligation.with(self.interner(), trait_pred)) { + match self.infcx().select(&obligation.with(self.interner(), trait_pred)) { // Uncertain or unimplemented. Ok(None) => { if trait_pred.def_id().0 == unsize_did { @@ -724,7 +734,7 @@ impl<'a, 'b, 'db> Coerce<'a, 'b, 'db> { debug!("coerce_unsized: ambiguous unsize case for {:?}", trait_pred); match (self_ty.kind(), unsize_ty.kind()) { (TyKind::Infer(rustc_type_ir::TyVar(v)), TyKind::Dynamic(..)) - if self.table.type_var_is_sized(v) => + if self.delegate.type_var_is_sized(v) => { debug!("coerce_unsized: have sized infer {:?}", v); coercion.obligations.push(obligation); @@ -794,9 +804,9 @@ impl<'a, 'b, 'db> Coerce<'a, 'b, 'db> { &mut self, fn_ty_a: PolyFnSig<'db>, b: Ty<'db>, - adjustment: Option>, + adjustment: Option, ) -> CoerceResult<'db> { - debug_assert!(self.table.shallow_resolve(b) == b); + debug_assert!(self.infcx().shallow_resolve(b) == b); self.commit_if_ok(|this| { if let TyKind::FnPtr(_, hdr_b) = b.kind() @@ -825,15 +835,15 @@ impl<'a, 'b, 'db> Coerce<'a, 'b, 'db> { fn coerce_from_fn_pointer(&mut self, fn_ty_a: PolyFnSig<'db>, b: Ty<'db>) -> CoerceResult<'db> { debug!(?fn_ty_a, ?b, "coerce_from_fn_pointer"); - debug_assert!(self.table.shallow_resolve(b) == b); + debug_assert!(self.infcx().shallow_resolve(b) == b); self.coerce_from_safe_fn(fn_ty_a, b, None) } fn coerce_from_fn_item(&mut self, a: Ty<'db>, b: Ty<'db>) -> CoerceResult<'db> { debug!("coerce_from_fn_item(a={:?}, b={:?})", a, b); - debug_assert!(self.table.shallow_resolve(a) == a); - debug_assert!(self.table.shallow_resolve(b) == b); + debug_assert!(self.infcx().shallow_resolve(a) == a); + debug_assert!(self.infcx().shallow_resolve(b) == b); match b.kind() { TyKind::FnPtr(_, b_hdr) => { @@ -841,11 +851,11 @@ impl<'a, 'b, 'db> Coerce<'a, 'b, 'db> { if let TyKind::FnDef(def_id, _) = a.kind() { // Intrinsics are not coercible to function pointers if let CallableDefId::FunctionId(def_id) = def_id.0 { - if FunctionSignature::is_intrinsic(self.table.db, def_id) { + if FunctionSignature::is_intrinsic(self.db(), def_id) { return Err(TypeError::IntrinsicCast); } - let attrs = self.table.db.attrs(def_id.into()); + let attrs = self.db().attrs(def_id.into()); if attrs.by_key(sym::rustc_force_inline).exists() { return Err(TypeError::ForceInlineCast); } @@ -856,7 +866,7 @@ impl<'a, 'b, 'db> Coerce<'a, 'b, 'db> { // Allow the coercion if the current function has all the features that would be // needed to call the coercee safely. let (target_features, target_feature_is_safe) = - (self.target_features)(); + self.delegate.target_features(); if target_feature_is_safe == TargetFeatureIsSafeInTarget::No && !target_features.enabled.is_superset(&fn_target_features.enabled) { @@ -887,8 +897,8 @@ impl<'a, 'b, 'db> Coerce<'a, 'b, 'db> { args_a: GenericArgs<'db>, b: Ty<'db>, ) -> CoerceResult<'db> { - debug_assert!(self.table.shallow_resolve(a) == a); - debug_assert!(self.table.shallow_resolve(b) == b); + debug_assert!(self.infcx().shallow_resolve(a) == a); + debug_assert!(self.infcx().shallow_resolve(b) == b); match b.kind() { // FIXME: We need to have an `upvars_mentioned()` query: @@ -930,8 +940,8 @@ impl<'a, 'b, 'db> Coerce<'a, 'b, 'db> { fn coerce_raw_ptr(&mut self, a: Ty<'db>, b: Ty<'db>, mutbl_b: Mutability) -> CoerceResult<'db> { debug!("coerce_raw_ptr(a={:?}, b={:?})", a, b); - debug_assert!(self.table.shallow_resolve(a) == a); - debug_assert!(self.table.shallow_resolve(b) == b); + debug_assert!(self.infcx().shallow_resolve(a) == a); + debug_assert!(self.infcx().shallow_resolve(b) == b); let (is_ref, mt_a) = match a.kind() { TyKind::Ref(_, ty, mutbl) => (true, TypeAndMut::> { ty, mutbl }), @@ -960,10 +970,36 @@ impl<'a, 'b, 'db> Coerce<'a, 'b, 'db> { } } -#[derive(Debug, Clone, Copy, PartialEq, Eq)] -pub(crate) enum CoerceNever { - No, - Yes, +struct InferenceCoercionDelegate<'a, 'b, 'db>(&'a mut InferenceContext<'b, 'db>); + +impl<'db> CoerceDelegate<'db> for InferenceCoercionDelegate<'_, '_, 'db> { + #[inline] + fn infcx(&self) -> &InferCtxt<'db> { + &self.0.table.infer_ctxt + } + #[inline] + fn env(&self) -> &TraitEnvironment<'db> { + &self.0.table.trait_env + } + #[inline] + fn target_features(&self) -> (&TargetFeatures, TargetFeatureIsSafeInTarget) { + self.0.target_features() + } + + #[inline] + fn set_diverging(&mut self, diverging_ty: Ty<'db>) { + self.0.table.set_diverging(diverging_ty); + } + + #[inline] + fn set_tainted_by_errors(&mut self) { + self.0.set_tainted_by_errors(); + } + + #[inline] + fn type_var_is_sized(&mut self, var: TyVid) -> bool { + self.0.table.type_var_is_sized(var) + } } impl<'db> InferenceContext<'_, 'db> { @@ -977,24 +1013,26 @@ impl<'db> InferenceContext<'_, 'db> { expr_ty: Ty<'db>, mut target: Ty<'db>, allow_two_phase: AllowTwoPhase, - coerce_never: CoerceNever, + expr_is_read: ExprIsRead, ) -> RelateResult<'db, Ty<'db>> { let source = self.table.try_structurally_resolve_type(expr_ty); target = self.table.try_structurally_resolve_type(target); debug!("coercion::try({:?}: {:?} -> {:?})", expr, source, target); let cause = ObligationCause::new(); - let krate = self.krate(); + let coerce_never = match expr { + ExprOrPatId::ExprId(idx) => { + self.expr_guaranteed_to_constitute_read_for_never(idx, expr_is_read) + } + // `PatId` is passed for `PatKind::Path`. + ExprOrPatId::PatId(_) => false, + }; let mut coerce = Coerce { - table: &mut self.table, - has_errors: &mut self.result.has_errors, + delegate: InferenceCoercionDelegate(self), cause, allow_two_phase, - coerce_never: matches!(coerce_never, CoerceNever::Yes), + coerce_never, use_lub: false, - target_features: &mut || { - Self::target_features(self.db, &self.target_features, self.owner, krate) - }, }; let ok = coerce.commit_if_ok(|coerce| coerce.coerce(source, target))?; @@ -1157,23 +1195,18 @@ impl<'db> InferenceContext<'_, 'db> { // // NOTE: we set `coerce_never` to `true` here because coercion LUBs only // operate on values and not places, so a never coercion is valid. - let krate = self.krate(); let mut coerce = Coerce { - table: &mut self.table, - has_errors: &mut self.result.has_errors, + delegate: InferenceCoercionDelegate(self), cause: ObligationCause::new(), allow_two_phase: AllowTwoPhase::No, coerce_never: true, use_lub: true, - target_features: &mut || { - Self::target_features(self.db, &self.target_features, self.owner, krate) - }, }; // First try to coerce the new expression to the type of the previous ones, // but only if the new expression has no coercion already applied to it. let mut first_error = None; - if !self.result.expr_adjustments.contains_key(&new) { + if !coerce.delegate.0.result.expr_adjustments.contains_key(&new) { let result = coerce.commit_if_ok(|coerce| coerce.coerce(new_ty, prev_ty)); match result { Ok(ok) => { @@ -1335,8 +1368,9 @@ impl<'db, 'exprs> CoerceMany<'db, 'exprs> { cause: &ObligationCause, expression: ExprId, expression_ty: Ty<'db>, + expr_is_read: ExprIsRead, ) { - self.coerce_inner(icx, cause, expression, expression_ty, false, false) + self.coerce_inner(icx, cause, expression, expression_ty, false, false, expr_is_read) } /// Indicates that one of the inputs is a "forced unit". This @@ -1357,8 +1391,17 @@ impl<'db, 'exprs> CoerceMany<'db, 'exprs> { expr: ExprId, cause: &ObligationCause, label_unit_as_expected: bool, + expr_is_read: ExprIsRead, ) { - self.coerce_inner(icx, cause, expr, icx.types.unit, true, label_unit_as_expected) + self.coerce_inner( + icx, + cause, + expr, + icx.types.unit, + true, + label_unit_as_expected, + expr_is_read, + ) } /// The inner coercion "engine". If `expression` is `None`, this @@ -1372,6 +1415,7 @@ impl<'db, 'exprs> CoerceMany<'db, 'exprs> { mut expression_ty: Ty<'db>, force_unit: bool, label_expression_as_expected: bool, + expr_is_read: ExprIsRead, ) { // Incorporate whatever type inference information we have // until now; in principle we might also want to process @@ -1408,7 +1452,7 @@ impl<'db, 'exprs> CoerceMany<'db, 'exprs> { expression_ty, self.expected_ty, AllowTwoPhase::No, - CoerceNever::Yes, + expr_is_read, ) } else { match self.expressions { @@ -1504,88 +1548,170 @@ pub fn could_coerce<'db>( coerce(db, env, tys).is_ok() } +struct HirCoercionDelegate<'a, 'db> { + infcx: &'a InferCtxt<'db>, + env: &'a TraitEnvironment<'db>, + target_features: &'a TargetFeatures, +} + +impl<'db> CoerceDelegate<'db> for HirCoercionDelegate<'_, 'db> { + #[inline] + fn infcx(&self) -> &InferCtxt<'db> { + self.infcx + } + #[inline] + fn env(&self) -> &TraitEnvironment<'db> { + self.env + } + fn target_features(&self) -> (&TargetFeatures, TargetFeatureIsSafeInTarget) { + (self.target_features, TargetFeatureIsSafeInTarget::No) + } + fn set_diverging(&mut self, _diverging_ty: Ty<'db>) {} + fn set_tainted_by_errors(&mut self) {} + fn type_var_is_sized(&mut self, _var: TyVid) -> bool { + false + } +} + fn coerce<'db>( db: &'db dyn HirDatabase, env: Arc>, tys: &Canonical<'db, (Ty<'db>, Ty<'db>)>, ) -> Result<(Vec>, Ty<'db>), TypeError>> { - let mut table = InferenceTable::new(db, env, None); - let interner = table.interner(); - let ((ty1_with_vars, ty2_with_vars), vars) = table.infer_ctxt.instantiate_canonical(tys); + let interner = DbInterner::new_with(db, Some(env.krate), env.block); + let infcx = interner.infer_ctxt().build(TypingMode::PostAnalysis); + let ((ty1_with_vars, ty2_with_vars), vars) = infcx.instantiate_canonical(tys); let cause = ObligationCause::new(); // FIXME: Target features. let target_features = TargetFeatures::default(); let mut coerce = Coerce { - table: &mut table, - has_errors: &mut false, + delegate: HirCoercionDelegate { + infcx: &infcx, + env: &env, + target_features: &target_features, + }, cause, allow_two_phase: AllowTwoPhase::No, coerce_never: true, use_lub: false, - target_features: &mut || (&target_features, TargetFeatureIsSafeInTarget::No), }; - let InferOk { value: (adjustments, ty), obligations } = - coerce.coerce(ty1_with_vars, ty2_with_vars)?; - table.register_predicates(obligations); + let infer_ok = coerce.coerce(ty1_with_vars, ty2_with_vars)?; + let mut ocx = ObligationCtxt::new(&infcx); + let (adjustments, ty) = ocx.register_infer_ok_obligations(infer_ok); + _ = ocx.try_evaluate_obligations(); + let (adjustments, ty) = infcx.resolve_vars_if_possible((adjustments, ty)); // default any type vars that weren't unified back to their original bound vars // (kind of hacky) - let mut fallback_ty = |debruijn, infer| { - let var = vars.var_values.iter().position(|arg| { - arg.as_type().is_some_and(|ty| match ty.kind() { - TyKind::Infer(it) => infer == it, - _ => false, - }) - }); - var.map_or_else( - || Ty::new_error(interner, ErrorGuaranteed), - |i| { - Ty::new_bound( - interner, - debruijn, - BoundTy { kind: BoundTyKind::Anon, var: BoundVar::from_usize(i) }, + + struct Resolver<'db> { + interner: DbInterner<'db>, + debruijn: DebruijnIndex, + var_values: GenericArgs<'db>, + } + + impl<'db> TypeFolder> for Resolver<'db> { + fn cx(&self) -> DbInterner<'db> { + self.interner + } + + fn fold_binder(&mut self, t: Binder<'db, T>) -> Binder<'db, T> + where + T: TypeFoldable>, + { + self.debruijn.shift_in(1); + let result = t.super_fold_with(self); + self.debruijn.shift_out(1); + result + } + + fn fold_ty(&mut self, t: Ty<'db>) -> Ty<'db> { + if !t.has_infer() { + return t; + } + + if let TyKind::Infer(infer) = t.kind() { + let var = self.var_values.iter().position(|arg| { + arg.as_type().is_some_and(|ty| match ty.kind() { + TyKind::Infer(it) => infer == it, + _ => false, + }) + }); + var.map_or_else( + || Ty::new_error(self.interner, ErrorGuaranteed), + |i| { + Ty::new_bound( + self.interner, + self.debruijn, + BoundTy { kind: BoundTyKind::Anon, var: BoundVar::from_usize(i) }, + ) + }, ) - }, - ) - }; - let mut fallback_const = |debruijn, infer| { - let var = vars.var_values.iter().position(|arg| { - arg.as_const().is_some_and(|ty| match ty.kind() { - ConstKind::Infer(it) => infer == it, - _ => false, - }) - }); - var.map_or_else( - || Const::new_error(interner, ErrorGuaranteed), - |i| Const::new_bound(interner, debruijn, BoundConst { var: BoundVar::from_usize(i) }), - ) - }; - let mut fallback_region = |debruijn, infer| { - let var = vars.var_values.iter().position(|arg| { - arg.as_region().is_some_and(|ty| match ty.kind() { - RegionKind::ReVar(it) => infer == it, - _ => false, - }) - }); - var.map_or_else( - || Region::error(interner), - |i| { - Region::new_bound( - interner, - debruijn, - BoundRegion { kind: BoundRegionKind::Anon, var: BoundVar::from_usize(i) }, + } else { + t.super_fold_with(self) + } + } + + fn fold_const(&mut self, c: Const<'db>) -> Const<'db> { + if !c.has_infer() { + return c; + } + + if let ConstKind::Infer(infer) = c.kind() { + let var = self.var_values.iter().position(|arg| { + arg.as_const().is_some_and(|ty| match ty.kind() { + ConstKind::Infer(it) => infer == it, + _ => false, + }) + }); + var.map_or_else( + || Const::new_error(self.interner, ErrorGuaranteed), + |i| { + Const::new_bound( + self.interner, + self.debruijn, + BoundConst { var: BoundVar::from_usize(i) }, + ) + }, ) - }, - ) - }; - // FIXME also map the types in the adjustments - // FIXME: We don't fallback correctly since this is done on `InferenceContext` and we only have `InferenceTable`. - let ty = table.resolve_with_fallback( - ty, - &mut fallback_ty, - &mut fallback_const, - &mut fallback_region, - ); + } else { + c.super_fold_with(self) + } + } + + fn fold_region(&mut self, r: Region<'db>) -> Region<'db> { + if let RegionKind::ReVar(infer) = r.kind() { + let var = self.var_values.iter().position(|arg| { + arg.as_region().is_some_and(|ty| match ty.kind() { + RegionKind::ReVar(it) => infer == it, + _ => false, + }) + }); + var.map_or_else( + || Region::error(self.interner), + |i| { + Region::new_bound( + self.interner, + self.debruijn, + BoundRegion { + kind: BoundRegionKind::Anon, + var: BoundVar::from_usize(i), + }, + ) + }, + ) + } else { + r + } + } + } + + // FIXME: We don't fallback correctly since this is done on `InferenceContext` and we only have `InferCtxt`. + let (adjustments, ty) = (adjustments, ty).fold_with(&mut Resolver { + interner, + debruijn: DebruijnIndex::ZERO, + var_values: vars.var_values, + }); Ok((adjustments, ty)) } diff --git a/crates/hir-ty/src/infer/expr.rs b/crates/hir-ty/src/infer/expr.rs index b7ab109b3b9d..db3303607bad 100644 --- a/crates/hir-ty/src/infer/expr.rs +++ b/crates/hir-ty/src/infer/expr.rs @@ -3,19 +3,18 @@ use std::{iter::repeat_with, mem}; use either::Either; -use hir_def::hir::ClosureKind; use hir_def::{ - BlockId, FieldId, GenericDefId, GenericParamId, ItemContainerId, Lookup, TupleFieldId, TupleId, - expr_store::path::{GenericArg as HirGenericArg, GenericArgs as HirGenericArgs, Path}, + BlockId, FieldId, GenericDefId, ItemContainerId, Lookup, TupleFieldId, TupleId, + expr_store::path::{GenericArgs as HirGenericArgs, Path}, hir::{ - ArithOp, Array, AsmOperand, AsmOptions, BinaryOp, Expr, ExprId, ExprOrPatId, LabelId, - Literal, Pat, PatId, Statement, UnaryOp, generics::GenericParamDataRef, + Array, AsmOperand, AsmOptions, BinaryOp, BindingAnnotation, Expr, ExprId, ExprOrPatId, + LabelId, Literal, Pat, PatId, Statement, UnaryOp, }, lang_item::{LangItem, LangItemTarget}, resolver::ValueNs, }; +use hir_def::{FunctionId, hir::ClosureKind}; use hir_expand::name::Name; -use intern::sym; use rustc_ast_ir::Mutability; use rustc_type_ir::{ CoroutineArgs, CoroutineArgsParts, InferTy, Interner, @@ -25,32 +24,25 @@ use syntax::ast::RangeOp; use tracing::debug; use crate::{ - Adjust, Adjustment, AutoBorrow, CallableDefId, DeclContext, DeclOrigin, - IncorrectGenericsLenKind, Rawness, TraitEnvironment, - autoderef::overloaded_deref_ty, + Adjust, Adjustment, CallableDefId, DeclContext, DeclOrigin, Rawness, TraitEnvironment, + autoderef::InferenceContextAutoderef, consteval, db::InternedCoroutine, generics::generics, infer::{ - AllowTwoPhase, BreakableKind, - coerce::{CoerceMany, CoerceNever}, - find_continuable, + AllowTwoPhase, BreakableKind, coerce::CoerceMany, find_continuable, pat::contains_explicit_ref_binding, }, - lang_items::lang_items_for_bin_op, - lower::{ - LifetimeElisionKind, lower_mutability, - path::{GenericArgsLowerer, TypeLikeConst, substs_from_args_and_bindings}, - }, - method_resolution::{self, VisibleFromModule}, + lower::{GenericPredicates, lower_mutability}, + method_resolution::{self, CandidateId, MethodCallee, MethodError}, next_solver::{ - Const, DbInterner, ErrorGuaranteed, GenericArg, GenericArgs, TraitRef, Ty, TyKind, - TypeError, + ErrorGuaranteed, FnSig, GenericArgs, TraitRef, Ty, TyKind, TypeError, infer::{ - InferOk, + BoundRegionConversionTime, InferOk, traits::{Obligation, ObligationCause}, }, obligation_ctxt::ObligationCtxt, + util::clauses_as_obligations, }, traits::FnTrait, }; @@ -103,12 +95,7 @@ impl<'db> InferenceContext<'_, 'db> { ) -> Ty<'db> { let ty = self.infer_expr_inner(expr, expected, is_read); if let Some(target) = expected.only_has_type(&mut self.table) { - let coerce_never = if self.expr_guaranteed_to_constitute_read_for_never(expr, is_read) { - CoerceNever::Yes - } else { - CoerceNever::No - }; - match self.coerce(expr.into(), ty, target, AllowTwoPhase::No, coerce_never) { + match self.coerce(expr.into(), ty, target, AllowTwoPhase::No, is_read) { Ok(res) => res, Err(_) => { self.result @@ -203,6 +190,23 @@ impl<'db> InferenceContext<'_, 'db> { } } + /// Checks if the pattern contains any `ref` or `ref mut` bindings, and if + /// yes whether it contains mutable or just immutables ones. + // + // FIXME(tschottdorf): this is problematic as the HIR is being scraped, but + // ref bindings are be implicit after #42640 (default match binding modes). See issue #44848. + fn contains_explicit_ref_binding(&self, pat: PatId) -> bool { + if let Pat::Bind { id, .. } = self.body[pat] + && matches!(self.body[id].mode, BindingAnnotation::Ref | BindingAnnotation::RefMut) + { + return true; + } + + let mut result = false; + self.body.walk_pats_shallow(pat, |pat| result |= self.contains_explicit_ref_binding(pat)); + result + } + fn is_syntactic_place_expr(&self, expr: ExprId) -> bool { match &self.body[expr] { // Lang item paths cannot currently be local variables or statics. @@ -250,6 +254,15 @@ impl<'db> InferenceContext<'_, 'db> { } } + #[expect(clippy::needless_return)] + pub(crate) fn check_lhs_assignable(&self, lhs: ExprId) { + if self.is_syntactic_place_expr(lhs) { + return; + } + + // FIXME: Emit diagnostic. + } + fn infer_expr_coerce_never( &mut self, expr: ExprId, @@ -269,7 +282,7 @@ impl<'db> InferenceContext<'_, 'db> { } if let Some(target) = expected.only_has_type(&mut self.table) { - self.coerce(expr.into(), ty, target, AllowTwoPhase::No, CoerceNever::Yes) + self.coerce(expr.into(), ty, target, AllowTwoPhase::No, ExprIsRead::Yes) .expect("never-to-any coercion should always succeed") } else { ty @@ -320,16 +333,28 @@ impl<'db> InferenceContext<'_, 'db> { expected.coercion_target_type(&mut self.table), &coercion_sites, ); - coerce.coerce(self, &ObligationCause::new(), then_branch, then_ty); + coerce.coerce(self, &ObligationCause::new(), then_branch, then_ty, ExprIsRead::Yes); match else_branch { Some(else_branch) => { let else_ty = self.infer_expr_inner(else_branch, expected, ExprIsRead::Yes); let else_diverges = mem::replace(&mut self.diverges, Diverges::Maybe); - coerce.coerce(self, &ObligationCause::new(), else_branch, else_ty); + coerce.coerce( + self, + &ObligationCause::new(), + else_branch, + else_ty, + ExprIsRead::Yes, + ); self.diverges = condition_diverges | then_diverges & else_diverges; } None => { - coerce.coerce_forced_unit(self, tgt_expr, &ObligationCause::new(), true); + coerce.coerce_forced_unit( + self, + tgt_expr, + &ObligationCause::new(), + true, + ExprIsRead::Yes, + ); self.diverges = condition_diverges; } } @@ -407,12 +432,20 @@ impl<'db> InferenceContext<'_, 'db> { expected, ), Expr::Match { expr, arms } => { - let scrutinee_is_read = arms - .iter() - .all(|arm| self.pat_guaranteed_to_constitute_read_for_never(arm.pat)); + let mut scrutinee_is_read = true; + let mut contains_ref_bindings = false; + for arm in arms { + scrutinee_is_read &= self.pat_guaranteed_to_constitute_read_for_never(arm.pat); + contains_ref_bindings |= self.contains_explicit_ref_binding(arm.pat); + } let scrutinee_is_read = if scrutinee_is_read { ExprIsRead::Yes } else { ExprIsRead::No }; - let input_ty = self.infer_expr(*expr, &Expectation::none(), scrutinee_is_read); + let input_ty = self.demand_scrutinee_type( + *expr, + contains_ref_bindings, + arms.is_empty(), + scrutinee_is_read, + ); if arms.is_empty() { self.diverges = Diverges::Always; @@ -421,7 +454,6 @@ impl<'db> InferenceContext<'_, 'db> { let matchee_diverges = mem::replace(&mut self.diverges, Diverges::Maybe); let mut all_arms_diverge = Diverges::Always; for arm in arms.iter() { - let input_ty = self.table.structurally_resolve_type(input_ty); self.infer_top_pat(arm.pat, input_ty, None); } @@ -447,7 +479,13 @@ impl<'db> InferenceContext<'_, 'db> { let arm_ty = self.infer_expr_inner(arm.expr, &expected, ExprIsRead::Yes); all_arms_diverge &= self.diverges; - coerce.coerce(self, &ObligationCause::new(), arm.expr, arm_ty); + coerce.coerce( + self, + &ObligationCause::new(), + arm.expr, + arm_ty, + ExprIsRead::Yes, + ); } self.diverges = matchee_diverges | all_arms_diverge; @@ -499,6 +537,7 @@ impl<'db> InferenceContext<'_, 'db> { &ObligationCause::new(), expr.unwrap_or(tgt_expr), val_ty, + ExprIsRead::Yes, ); // Avoiding borrowck @@ -536,7 +575,7 @@ impl<'db> InferenceContext<'_, 'db> { unit, yield_ty, AllowTwoPhase::No, - CoerceNever::Yes, + ExprIsRead::Yes, ); } resume_ty @@ -662,70 +701,13 @@ impl<'db> InferenceContext<'_, 'db> { } } &Expr::Box { expr } => self.infer_expr_box(expr, expected), - Expr::UnaryOp { expr, op } => { - let inner_ty = self.infer_expr_inner(*expr, &Expectation::none(), ExprIsRead::Yes); - let inner_ty = self.table.try_structurally_resolve_type(inner_ty); - // FIXME: Note down method resolution her - match op { - UnaryOp::Deref => { - if let Some(deref_trait) = self.resolve_lang_trait(LangItem::Deref) - && let Some(deref_fn) = deref_trait - .trait_items(self.db) - .method_by_name(&Name::new_symbol_root(sym::deref)) - { - // FIXME: this is wrong in multiple ways, subst is empty, and we emit it even for builtin deref (note that - // the mutability is not wrong, and will be fixed in `self.infer_mut`). - self.write_method_resolution(tgt_expr, deref_fn, self.types.empty_args); - } - if let Some(derefed) = inner_ty.builtin_deref(self.db, true) { - self.table.try_structurally_resolve_type(derefed) - } else { - let infer_ok = overloaded_deref_ty(&self.table, inner_ty); - match infer_ok { - Some(infer_ok) => self.table.register_infer_ok(infer_ok), - None => self.err_ty(), - } - } - } - UnaryOp::Neg => { - match inner_ty.kind() { - // Fast path for builtins - TyKind::Int(_) - | TyKind::Uint(_) - | TyKind::Float(_) - | TyKind::Infer(InferTy::IntVar(_) | InferTy::FloatVar(_)) => inner_ty, - // Otherwise we resolve via the std::ops::Neg trait - _ => self - .resolve_associated_type(inner_ty, self.resolve_ops_neg_output()), - } - } - UnaryOp::Not => { - match inner_ty.kind() { - // Fast path for builtins - TyKind::Bool - | TyKind::Int(_) - | TyKind::Uint(_) - | TyKind::Float(_) - | TyKind::Infer(InferTy::IntVar(_) | InferTy::FloatVar(_)) => inner_ty, - // Otherwise we resolve via the std::ops::Not trait - _ => self - .resolve_associated_type(inner_ty, self.resolve_ops_not_output()), - } - } - } - } + Expr::UnaryOp { expr, op } => self.infer_unop_expr(*op, *expr, expected, tgt_expr), Expr::BinaryOp { lhs, rhs, op } => match op { - Some(BinaryOp::LogicOp(_)) => { - let bool_ty = self.types.bool; - self.infer_expr_coerce(*lhs, &Expectation::HasType(bool_ty), ExprIsRead::Yes); - let lhs_diverges = self.diverges; - self.infer_expr_coerce(*rhs, &Expectation::HasType(bool_ty), ExprIsRead::Yes); - // Depending on the LHS' value, the RHS can never execute. - self.diverges = lhs_diverges; - bool_ty + Some(BinaryOp::Assignment { op: Some(op) }) => { + self.infer_assign_op_expr(tgt_expr, *op, *lhs, *rhs) } - Some(op) => self.infer_overloadable_binop(*lhs, *op, *rhs, tgt_expr), - _ => self.err_ty(), + Some(op) => self.infer_binop_expr(tgt_expr, *op, *lhs, *rhs), + None => self.err_ty(), }, &Expr::Assignment { target, value } => { // In ordinary (non-destructuring) assignments, the type of @@ -833,55 +815,39 @@ impl<'db> InferenceContext<'_, 'db> { } } Expr::Index { base, index } => { - let base_ty = self.infer_expr_inner(*base, &Expectation::none(), ExprIsRead::Yes); - let index_ty = self.infer_expr(*index, &Expectation::none(), ExprIsRead::Yes); - - if let Some(index_trait) = self.resolve_lang_trait(LangItem::Index) { - let canonicalized = self.canonicalize(base_ty); - let receiver_adjustments = method_resolution::resolve_indexing_op( - &mut self.table, - canonicalized, - index_trait, - ); - let (self_ty, mut adj) = receiver_adjustments - .map_or((self.err_ty(), Vec::new()), |adj| { - adj.apply(&mut self.table, base_ty) - }); - - // mutability will be fixed up in `InferenceContext::infer_mut`; - adj.push(Adjustment::borrow( - self.interner(), - Mutability::Not, - self_ty, - self.table.next_region_var(), - )); - self.write_expr_adj(*base, adj.into_boxed_slice()); - if let Some(func) = index_trait - .trait_items(self.db) - .method_by_name(&Name::new_symbol_root(sym::index)) - { - let subst = GenericArgs::new_from_iter( - self.interner(), - [self_ty.into(), index_ty.into()], + let base_t = self.infer_expr_no_expect(*base, ExprIsRead::Yes); + let idx_t = self.infer_expr_no_expect(*index, ExprIsRead::Yes); + + let base_t = self.table.structurally_resolve_type(base_t); + match self.lookup_indexing(tgt_expr, *base, base_t, idx_t) { + Some((trait_index_ty, trait_element_ty)) => { + // two-phase not needed because index_ty is never mutable + self.demand_coerce( + *index, + idx_t, + trait_index_ty, + AllowTwoPhase::No, + ExprIsRead::Yes, ); - self.write_method_resolution(tgt_expr, func, subst); + self.table.select_obligations_where_possible(); + trait_element_ty } - let assoc = self.resolve_ops_index_output(); - self.resolve_associated_type_with_params(self_ty, assoc, &[index_ty.into()]) - } else { - self.err_ty() + // FIXME: Report an error. + None => self.types.error, } } Expr::Tuple { exprs, .. } => { - let mut tys = - match expected.only_has_type(&mut self.table).as_ref().map(|t| t.kind()) { - Some(TyKind::Tuple(substs)) => substs - .iter() - .chain(repeat_with(|| self.table.next_ty_var())) - .take(exprs.len()) - .collect::>(), - _ => (0..exprs.len()).map(|_| self.table.next_ty_var()).collect(), - }; + let mut tys = match expected + .only_has_type(&mut self.table) + .map(|t| self.table.try_structurally_resolve_type(t).kind()) + { + Some(TyKind::Tuple(substs)) => substs + .iter() + .chain(repeat_with(|| self.table.next_ty_var())) + .take(exprs.len()) + .collect::>(), + _ => (0..exprs.len()).map(|_| self.table.next_ty_var()).collect(), + }; for (expr, ty) in exprs.iter().zip(tys.iter_mut()) { *ty = @@ -1014,7 +980,7 @@ impl<'db> InferenceContext<'_, 'db> { ty, fnptr_ty, AllowTwoPhase::No, - CoerceNever::Yes, + ExprIsRead::Yes, ); } TyKind::Ref(_, base_ty, mutbl) => { @@ -1024,7 +990,7 @@ impl<'db> InferenceContext<'_, 'db> { ty, ptr_ty, AllowTwoPhase::No, - CoerceNever::Yes, + ExprIsRead::Yes, ); } _ => {} @@ -1073,6 +1039,77 @@ impl<'db> InferenceContext<'_, 'db> { ty } + fn demand_scrutinee_type( + &mut self, + scrut: ExprId, + contains_ref_bindings: bool, + no_arms: bool, + scrutinee_is_read: ExprIsRead, + ) -> Ty<'db> { + // Not entirely obvious: if matches may create ref bindings, we want to + // use the *precise* type of the scrutinee, *not* some supertype, as + // the "scrutinee type" (issue #23116). + // + // arielb1 [writes here in this comment thread][c] that there + // is certainly *some* potential danger, e.g., for an example + // like: + // + // [c]: https://github.com/rust-lang/rust/pull/43399#discussion_r130223956 + // + // ``` + // let Foo(x) = f()[0]; + // ``` + // + // Then if the pattern matches by reference, we want to match + // `f()[0]` as a lexpr, so we can't allow it to be + // coerced. But if the pattern matches by value, `f()[0]` is + // still syntactically a lexpr, but we *do* want to allow + // coercions. + // + // However, *likely* we are ok with allowing coercions to + // happen if there are no explicit ref mut patterns - all + // implicit ref mut patterns must occur behind a reference, so + // they will have the "correct" variance and lifetime. + // + // This does mean that the following pattern would be legal: + // + // ``` + // struct Foo(Bar); + // struct Bar(u32); + // impl Deref for Foo { + // type Target = Bar; + // fn deref(&self) -> &Bar { &self.0 } + // } + // impl DerefMut for Foo { + // fn deref_mut(&mut self) -> &mut Bar { &mut self.0 } + // } + // fn foo(x: &mut Foo) { + // { + // let Bar(z): &mut Bar = x; + // *z = 42; + // } + // assert_eq!(foo.0.0, 42); + // } + // ``` + // + // FIXME(tschottdorf): don't call contains_explicit_ref_binding, which + // is problematic as the HIR is being scraped, but ref bindings may be + // implicit after #42640. We need to make sure that pat_adjustments + // (once introduced) is populated by the time we get here. + // + // See #44848. + if contains_ref_bindings || no_arms { + self.infer_expr_no_expect(scrut, scrutinee_is_read) + } else { + // ...but otherwise we want to use any supertype of the + // scrutinee. This is sort of a workaround, see note (*) in + // `check_pat` for some details. + let scrut_ty = self.table.next_ty_var(); + self.infer_expr_coerce_never(scrut, &Expectation::HasType(scrut_ty), scrutinee_is_read); + scrut_ty + } + } + fn infer_expr_path(&mut self, path: &Path, id: ExprOrPatId, scope_id: ExprId) -> Ty<'db> { let g = self.resolver.update_to_inner_scope(self.db, self.owner, scope_id); let ty = match self.infer_path(path, id) { @@ -1089,6 +1126,47 @@ impl<'db> InferenceContext<'_, 'db> { ty } + fn infer_unop_expr( + &mut self, + unop: UnaryOp, + oprnd: ExprId, + expected: &Expectation<'db>, + expr: ExprId, + ) -> Ty<'db> { + let expected_inner = match unop { + UnaryOp::Not | UnaryOp::Neg => expected, + UnaryOp::Deref => &Expectation::None, + }; + let mut oprnd_t = self.infer_expr_inner(oprnd, expected_inner, ExprIsRead::Yes); + + oprnd_t = self.table.structurally_resolve_type(oprnd_t); + match unop { + UnaryOp::Deref => { + if let Some(ty) = self.lookup_derefing(expr, oprnd, oprnd_t) { + oprnd_t = ty; + } else { + // FIXME: Report an error. + oprnd_t = self.types.error; + } + } + UnaryOp::Not => { + let result = self.infer_user_unop(expr, oprnd_t, unop); + // If it's builtin, we can reuse the type, this helps inference. + if !(oprnd_t.is_integral() || oprnd_t.kind() == TyKind::Bool) { + oprnd_t = result; + } + } + UnaryOp::Neg => { + let result = self.infer_user_unop(expr, oprnd_t, unop); + // If it's builtin, we can reuse the type, this helps inference. + if !oprnd_t.is_numeric() { + oprnd_t = result; + } + } + } + oprnd_t + } + fn infer_async_block( &mut self, tgt_expr: ExprId, @@ -1106,8 +1184,7 @@ impl<'db> InferenceContext<'_, 'db> { let (_, inner_ty) = self.with_breakable_ctx(BreakableKind::Border, None, None, |this| { let ty = this.infer_block(tgt_expr, *id, statements, *tail, None, expected); if let Some(target) = expected.only_has_type(&mut this.table) { - match this.coerce(tgt_expr.into(), ty, target, AllowTwoPhase::No, CoerceNever::Yes) - { + match this.coerce(tgt_expr.into(), ty, target, AllowTwoPhase::No, ExprIsRead::Yes) { Ok(res) => res, Err(_) => { this.result @@ -1220,7 +1297,10 @@ impl<'db> InferenceContext<'_, 'db> { } fn infer_expr_array(&mut self, array: &Array, expected: &Expectation<'db>) -> Ty<'db> { - let elem_ty = match expected.to_option(&mut self.table).as_ref().map(|t| t.kind()) { + let elem_ty = match expected + .to_option(&mut self.table) + .map(|t| self.table.try_structurally_resolve_type(t).kind()) + { Some(TyKind::Array(st, _) | TyKind::Slice(st)) => st, _ => self.table.next_ty_var(), }; @@ -1236,7 +1316,13 @@ impl<'db> InferenceContext<'_, 'db> { let mut coerce = CoerceMany::with_coercion_sites(elem_ty, elements); for &expr in elements.iter() { let cur_elem_ty = self.infer_expr_inner(expr, &expected, ExprIsRead::Yes); - coerce.coerce(self, &ObligationCause::new(), expr, cur_elem_ty); + coerce.coerce( + self, + &ObligationCause::new(), + expr, + cur_elem_ty, + ExprIsRead::Yes, + ); } ( coerce.complete(self), @@ -1274,7 +1360,7 @@ impl<'db> InferenceContext<'_, 'db> { let return_expr_ty = self.infer_expr_inner(expr, &Expectation::HasType(ret_ty), ExprIsRead::Yes); let mut coerce_many = self.return_coercion.take().unwrap(); - coerce_many.coerce(self, &ObligationCause::new(), expr, return_expr_ty); + coerce_many.coerce(self, &ObligationCause::new(), expr, return_expr_ty, ExprIsRead::Yes); self.return_coercion = Some(coerce_many); } @@ -1285,7 +1371,13 @@ impl<'db> InferenceContext<'_, 'db> { self.infer_return(expr); } else { let mut coerce = self.return_coercion.take().unwrap(); - coerce.coerce_forced_unit(self, ret, &ObligationCause::new(), true); + coerce.coerce_forced_unit( + self, + ret, + &ObligationCause::new(), + true, + ExprIsRead::Yes, + ); self.return_coercion = Some(coerce); } } @@ -1350,103 +1442,6 @@ impl<'db> InferenceContext<'_, 'db> { } } - fn infer_overloadable_binop( - &mut self, - lhs: ExprId, - op: BinaryOp, - rhs: ExprId, - tgt_expr: ExprId, - ) -> Ty<'db> { - let lhs_expectation = Expectation::none(); - let is_read = if matches!(op, BinaryOp::Assignment { .. }) { - ExprIsRead::Yes - } else { - ExprIsRead::No - }; - let lhs_ty = self.infer_expr(lhs, &lhs_expectation, is_read); - let rhs_ty = self.table.next_ty_var(); - - let trait_func = lang_items_for_bin_op(op).and_then(|(name, lang_item)| { - let trait_id = self.resolve_lang_item(lang_item)?.as_trait()?; - let func = trait_id.trait_items(self.db).method_by_name(&name)?; - Some((trait_id, func)) - }); - let func = match trait_func { - Some((_, it)) => it, - None => { - // HACK: `rhs_ty` is a general inference variable with no clue at all at this - // point. Passing `lhs_ty` as both operands just to check if `lhs_ty` is a builtin - // type applicable to `op`. - let ret_ty = if self.is_builtin_binop(lhs_ty, lhs_ty, op) { - // Assume both operands are builtin so we can continue inference. No guarantee - // on the correctness, rustc would complain as necessary lang items don't seem - // to exist anyway. - self.enforce_builtin_binop_types(lhs_ty, rhs_ty, op) - } else { - self.err_ty() - }; - - self.infer_expr_coerce(rhs, &Expectation::has_type(rhs_ty), ExprIsRead::Yes); - - return ret_ty; - } - }; - - // HACK: We can use this substitution for the function because the function itself doesn't - // have its own generic parameters. - let args = GenericArgs::new_from_iter(self.interner(), [lhs_ty.into(), rhs_ty.into()]); - - self.write_method_resolution(tgt_expr, func, args); - - let method_ty = self.db.value_ty(func.into()).unwrap().instantiate(self.interner(), args); - self.register_obligations_for_call(method_ty); - - self.infer_expr_coerce(rhs, &Expectation::has_type(rhs_ty), ExprIsRead::Yes); - - let ret_ty = match method_ty.callable_sig(self.interner()) { - Some(sig) => { - let sig = sig.skip_binder(); - let p_left = sig.inputs_and_output.as_slice()[0]; - if matches!(op, BinaryOp::CmpOp(..) | BinaryOp::Assignment { .. }) - && let TyKind::Ref(lt, _, mtbl) = p_left.kind() - { - self.write_expr_adj( - lhs, - Box::new([Adjustment { - kind: Adjust::Borrow(AutoBorrow::Ref(lt, mtbl)), - target: p_left, - }]), - ); - } - let p_right = sig.inputs_and_output.as_slice()[1]; - if matches!(op, BinaryOp::CmpOp(..)) - && let TyKind::Ref(lt, _, mtbl) = p_right.kind() - { - self.write_expr_adj( - rhs, - Box::new([Adjustment { - kind: Adjust::Borrow(AutoBorrow::Ref(lt, mtbl)), - target: p_right, - }]), - ); - } - sig.output() - } - None => self.err_ty(), - }; - - let ret_ty = self.process_remote_user_written_ty(ret_ty); - - if self.is_builtin_binop(lhs_ty, rhs_ty, op) { - // use knowledge of built-in binary ops, which can sometimes help inference - let builtin_ret = self.enforce_builtin_binop_types(lhs_ty, rhs_ty, op); - self.unify(builtin_ret, ret_ty); - builtin_ret - } else { - ret_ty - } - } - fn infer_block( &mut self, expr: ExprId, @@ -1548,20 +1543,13 @@ impl<'db> InferenceContext<'_, 'db> { // we don't even make an attempt at coercion this.table.new_maybe_never_var() } else if let Some(t) = expected.only_has_type(&mut this.table) { - let coerce_never = if this - .expr_guaranteed_to_constitute_read_for_never(expr, ExprIsRead::Yes) - { - CoerceNever::Yes - } else { - CoerceNever::No - }; if this .coerce( expr.into(), this.types.unit, t, AllowTwoPhase::No, - coerce_never, + ExprIsRead::Yes, ) .is_err() { @@ -1591,7 +1579,7 @@ impl<'db> InferenceContext<'_, 'db> { name: &Name, ) -> Option<(Ty<'db>, Either, Vec>, bool)> { let interner = self.interner(); - let mut autoderef = self.table.autoderef(receiver_ty); + let mut autoderef = self.table.autoderef_with_tracking(receiver_ty); let mut private_field = None; let res = autoderef.by_ref().find_map(|(derefed_ty, _)| { let (field_id, parameters) = match derefed_ty.kind() { @@ -1640,14 +1628,16 @@ impl<'db> InferenceContext<'_, 'db> { Some(match res { Some((field_id, ty)) => { - let adjustments = autoderef.adjust_steps(); + let adjustments = + self.table.register_infer_ok(autoderef.adjust_steps_as_infer_ok()); let ty = self.process_remote_user_written_ty(ty); (ty, field_id, adjustments, true) } None => { let (field_id, subst) = private_field?; - let adjustments = autoderef.adjust_steps(); + let adjustments = + self.table.register_infer_ok(autoderef.adjust_steps_as_infer_ok()); let ty = self.db.field_types(field_id.parent)[field_id.local_id] .instantiate(self.interner(), subst); let ty = self.process_remote_user_written_ty(ty); @@ -1666,6 +1656,7 @@ impl<'db> InferenceContext<'_, 'db> { ) -> Ty<'db> { // Field projections don't constitute reads. let receiver_ty = self.infer_expr_inner(receiver, &Expectation::none(), ExprIsRead::No); + let receiver_ty = self.table.structurally_resolve_type(receiver_ty); if name.is_missing() { // Bail out early, don't even try to look up field. Also, we don't issue an unresolved @@ -1689,46 +1680,39 @@ impl<'db> InferenceContext<'_, 'db> { None => { // no field found, lets attempt to resolve it like a function so that IDE things // work out while people are typing - let canonicalized_receiver = self.canonicalize(receiver_ty); - let resolved = method_resolution::lookup_method( - &canonicalized_receiver, - &mut self.table, - Self::get_traits_in_scope(&self.resolver, &self.traits_in_scope) - .as_ref() - .left_or_else(|&it| it), - VisibleFromModule::Filter(self.resolver.module()), - name, + let resolved = self.lookup_method_including_private( + receiver_ty, + name.clone(), + None, + receiver, + tgt_expr, ); self.push_diagnostic(InferenceDiagnostic::UnresolvedField { expr: tgt_expr, receiver: receiver_ty, name: name.clone(), - method_with_same_name_exists: resolved.is_some(), + method_with_same_name_exists: resolved.is_ok(), }); match resolved { - Some((adjust, func, _)) => { - let (ty, adjustments) = adjust.apply(&mut self.table, receiver_ty); - let args = self.substs_for_method_call(tgt_expr, func.into(), None); - self.write_expr_adj(receiver, adjustments.into_boxed_slice()); - self.write_method_resolution(tgt_expr, func, args); - - self.check_method_call( - tgt_expr, - &[], - self.db - .value_ty(func.into()) - .unwrap() - .instantiate(self.interner(), args), - ty, - expected, - ) + Ok((func, _is_visible)) => { + self.check_method_call(tgt_expr, &[], func.sig, receiver_ty, expected) } - None => self.err_ty(), + Err(_) => self.err_ty(), } } } } + fn instantiate_erroneous_method(&mut self, def_id: FunctionId) -> MethodCallee<'db> { + // FIXME: Using fresh infer vars for the method args isn't optimal, + // we can do better by going thorough the full probe/confirm machinery. + let args = self.table.fresh_args_for_item(def_id.into()); + let sig = self.db.callable_item_signature(def_id.into()).instantiate(self.interner(), args); + let sig = + self.infcx().instantiate_binder_with_fresh_vars(BoundRegionConversionTime::FnCall, sig); + MethodCallee { def_id, args, sig } + } + fn infer_call( &mut self, tgt_expr: ExprId, @@ -1737,13 +1721,14 @@ impl<'db> InferenceContext<'_, 'db> { expected: &Expectation<'db>, ) -> Ty<'db> { let callee_ty = self.infer_expr(callee, &Expectation::none(), ExprIsRead::Yes); + let callee_ty = self.table.try_structurally_resolve_type(callee_ty); let interner = self.interner(); - let mut derefs = self.table.autoderef(callee_ty); + let mut derefs = InferenceContextAutoderef::new_from_inference_context(self, callee_ty); let (res, derefed_callee) = loop { let Some((callee_deref_ty, _)) = derefs.next() else { break (None, callee_ty); }; - if let Some(res) = derefs.table.callable_sig(callee_deref_ty, args.len()) { + if let Some(res) = derefs.ctx().table.callable_sig(callee_deref_ty, args.len()) { break (Some(res), callee_deref_ty); } }; @@ -1753,7 +1738,8 @@ impl<'db> InferenceContext<'_, 'db> { || res.is_none(); let (param_tys, ret_ty) = match res { Some((func, params, ret_ty)) => { - let mut adjustments = derefs.adjust_steps(); + let infer_ok = derefs.adjust_steps_as_infer_ok(); + let mut adjustments = self.table.register_infer_ok(infer_ok); if let Some(fn_x) = func { self.write_fn_trait_method_resolution( fn_x, @@ -1819,7 +1805,7 @@ impl<'db> InferenceContext<'_, 'db> { indices_to_skip, is_varargs, ); - self.table.normalize_associated_types_in(ret_ty) + ret_ty } fn infer_method_call( @@ -1834,56 +1820,26 @@ impl<'db> InferenceContext<'_, 'db> { let receiver_ty = self.infer_expr_inner(receiver, &Expectation::none(), ExprIsRead::Yes); let receiver_ty = self.table.try_structurally_resolve_type(receiver_ty); - if matches!(receiver_ty.kind(), TyKind::Error(_) | TyKind::Infer(InferTy::TyVar(_))) { - // Don't probe on error type, or on a fully unresolved infer var. - // FIXME: Emit an error if we're probing on an infer var (type annotations needed). - for &arg in args { - // Make sure we infer and record the arguments. - self.infer_expr_no_expect(arg, ExprIsRead::Yes); - } - return receiver_ty; - } - - let canonicalized_receiver = self.canonicalize(receiver_ty); - - let resolved = method_resolution::lookup_method( - &canonicalized_receiver, - &mut self.table, - Self::get_traits_in_scope(&self.resolver, &self.traits_in_scope) - .as_ref() - .left_or_else(|&it| it), - VisibleFromModule::Filter(self.resolver.module()), - method_name, + let resolved = self.lookup_method_including_private( + receiver_ty, + method_name.clone(), + generic_args, + receiver, + tgt_expr, ); match resolved { - Some((adjust, func, visible)) => { + Ok((func, visible)) => { if !visible { self.push_diagnostic(InferenceDiagnostic::PrivateAssocItem { id: tgt_expr.into(), - item: func.into(), + item: func.def_id.into(), }) } - - let (ty, adjustments) = adjust.apply(&mut self.table, receiver_ty); - self.write_expr_adj(receiver, adjustments.into_boxed_slice()); - - let gen_args = self.substs_for_method_call(tgt_expr, func.into(), generic_args); - self.write_method_resolution(tgt_expr, func, gen_args); - let interner = DbInterner::new_with(self.db, None, None); - self.check_method_call( - tgt_expr, - args, - self.db - .value_ty(func.into()) - .expect("we have a function def") - .instantiate(interner, gen_args), - ty, - expected, - ) + self.check_method_call(tgt_expr, args, func.sig, receiver_ty, expected) } // Failed to resolve, report diagnostic and try to resolve as call to field access or // assoc function - None => { + Err(_) => { let field_with_same_name_exists = match self.lookup_field(receiver_ty, method_name) { Some((ty, field_id, adjustments, _public)) => { @@ -1894,65 +1850,65 @@ impl<'db> InferenceContext<'_, 'db> { None => None, }; - let assoc_func_with_same_name = method_resolution::iterate_method_candidates( - &canonicalized_receiver, - &mut self.table, - Self::get_traits_in_scope(&self.resolver, &self.traits_in_scope) - .as_ref() - .left_or_else(|&it| it), - VisibleFromModule::Filter(self.resolver.module()), - Some(method_name), - method_resolution::LookupMode::Path, - |_ty, item, visible| match item { - hir_def::AssocItemId::FunctionId(function_id) if visible => { - Some(function_id) - } - _ => None, - }, - ); + let assoc_func_with_same_name = self.with_method_resolution(|ctx| { + if !matches!( + receiver_ty.kind(), + TyKind::Infer(InferTy::TyVar(_)) | TyKind::Error(_) + ) { + ctx.probe_for_name( + method_resolution::Mode::Path, + method_name.clone(), + receiver_ty, + ) + } else { + Err(MethodError::ErrorReported) + } + }); + let assoc_func_with_same_name = match assoc_func_with_same_name { + Ok(method_resolution::Pick { + item: CandidateId::FunctionId(def_id), .. + }) + | Err(MethodError::PrivateMatch(method_resolution::Pick { + item: CandidateId::FunctionId(def_id), + .. + })) => Some(self.instantiate_erroneous_method(def_id)), + _ => None, + }; self.push_diagnostic(InferenceDiagnostic::UnresolvedMethodCall { expr: tgt_expr, receiver: receiver_ty, name: method_name.clone(), field_with_same_name: field_with_same_name_exists, - assoc_func_with_same_name, + assoc_func_with_same_name: assoc_func_with_same_name.map(|it| it.def_id), }); let recovered = match assoc_func_with_same_name { - Some(f) => { - let args = self.substs_for_method_call(tgt_expr, f.into(), generic_args); - let interner = DbInterner::new_with(self.db, None, None); - let f = self - .db - .value_ty(f.into()) - .expect("we have a function def") - .instantiate(interner, args); - let sig = f.callable_sig(self.interner()).expect("we have a function def"); - Some((f, sig, true)) - } + Some(it) => Some(( + Ty::new_fn_def( + self.interner(), + CallableDefId::FunctionId(it.def_id).into(), + it.args, + ), + it.sig, + true, + )), None => field_with_same_name_exists.and_then(|field_ty| { let callable_sig = field_ty.callable_sig(self.interner())?; - Some((field_ty, callable_sig, false)) + Some((field_ty, callable_sig.skip_binder(), false)) }), }; match recovered { - Some((callee_ty, sig, strip_first)) => { - let sig = sig.skip_binder(); - self.check_call( - tgt_expr, - args, - callee_ty, - sig.inputs_and_output - .inputs() - .get(strip_first as usize..) - .unwrap_or(&[]), - sig.output(), - &[], - true, - expected, - ) - } + Some((callee_ty, sig, strip_first)) => self.check_call( + tgt_expr, + args, + callee_ty, + sig.inputs_and_output.inputs().get(strip_first as usize..).unwrap_or(&[]), + sig.output(), + &[], + true, + expected, + ), None => { for &arg in args.iter() { self.infer_expr_no_expect(arg, ExprIsRead::Yes); @@ -1968,38 +1924,20 @@ impl<'db> InferenceContext<'_, 'db> { &mut self, tgt_expr: ExprId, args: &[ExprId], - method_ty: Ty<'db>, + sig: FnSig<'db>, receiver_ty: Ty<'db>, expected: &Expectation<'db>, ) -> Ty<'db> { - self.register_obligations_for_call(method_ty); - let ((formal_receiver_ty, param_tys), ret_ty, is_varargs) = - match method_ty.callable_sig(self.interner()) { - Some(sig) => { - let sig = sig.skip_binder(); - ( - if !sig.inputs_and_output.inputs().is_empty() { - ( - sig.inputs_and_output.as_slice()[0], - sig.inputs_and_output.inputs()[1..].to_vec(), - ) - } else { - (self.types.error, Vec::new()) - }, - sig.output(), - sig.c_variadic, - ) - } - None => { - let formal_receiver_ty = self.table.next_ty_var(); - let ret_ty = self.table.next_ty_var(); - ((formal_receiver_ty, Vec::new()), ret_ty, true) - } - }; + let (formal_receiver_ty, param_tys) = if !sig.inputs_and_output.inputs().is_empty() { + (sig.inputs_and_output.as_slice()[0], &sig.inputs_and_output.inputs()[1..]) + } else { + (self.types.error, &[] as _) + }; + let ret_ty = sig.output(); self.table.unify(formal_receiver_ty, receiver_ty); - self.check_call_arguments(tgt_expr, ¶m_tys, ret_ty, expected, args, &[], is_varargs); - self.table.normalize_associated_types_in(ret_ty) + self.check_call_arguments(tgt_expr, param_tys, ret_ty, expected, args, &[], sig.c_variadic); + ret_ty } /// Generic function that factors out common logic from function calls, @@ -2110,20 +2048,13 @@ impl<'db> InferenceContext<'_, 'db> { // fulfillment error to be more accurate. let coerced_ty = this.table.resolve_vars_with_obligations(coerced_ty); - let coerce_never = if this - .expr_guaranteed_to_constitute_read_for_never(provided_arg, ExprIsRead::Yes) - { - CoerceNever::Yes - } else { - CoerceNever::No - }; let coerce_error = this .coerce( provided_arg.into(), checked_ty, coerced_ty, AllowTwoPhase::Yes, - coerce_never, + ExprIsRead::Yes, ) .err(); if coerce_error.is_some() { @@ -2204,144 +2135,19 @@ impl<'db> InferenceContext<'_, 'db> { if !args_count_matches {} } - fn substs_for_method_call( - &mut self, - expr: ExprId, - def: GenericDefId, - generic_args: Option<&HirGenericArgs>, - ) -> GenericArgs<'db> { - struct LowererCtx<'a, 'b, 'db> { - ctx: &'a mut InferenceContext<'b, 'db>, - expr: ExprId, - } - - impl<'db> GenericArgsLowerer<'db> for LowererCtx<'_, '_, 'db> { - fn report_len_mismatch( - &mut self, - def: GenericDefId, - provided_count: u32, - expected_count: u32, - kind: IncorrectGenericsLenKind, - ) { - self.ctx.push_diagnostic(InferenceDiagnostic::MethodCallIncorrectGenericsLen { - expr: self.expr, - provided_count, - expected_count, - kind, - def, - }); - } - - fn report_arg_mismatch( - &mut self, - param_id: GenericParamId, - arg_idx: u32, - has_self_arg: bool, - ) { - self.ctx.push_diagnostic(InferenceDiagnostic::MethodCallIncorrectGenericsOrder { - expr: self.expr, - param_id, - arg_idx, - has_self_arg, - }); - } - - fn provided_kind( - &mut self, - param_id: GenericParamId, - param: GenericParamDataRef<'_>, - arg: &HirGenericArg, - ) -> GenericArg<'db> { - match (param, arg) { - ( - GenericParamDataRef::LifetimeParamData(_), - HirGenericArg::Lifetime(lifetime), - ) => self.ctx.make_body_lifetime(*lifetime).into(), - (GenericParamDataRef::TypeParamData(_), HirGenericArg::Type(type_ref)) => { - self.ctx.make_body_ty(*type_ref).into() - } - (GenericParamDataRef::ConstParamData(_), HirGenericArg::Const(konst)) => { - let GenericParamId::ConstParamId(const_id) = param_id else { - unreachable!("non-const param ID for const param"); - }; - let const_ty = self.ctx.db.const_param_ty_ns(const_id); - self.ctx.make_body_const(*konst, const_ty).into() - } - _ => unreachable!("unmatching param kinds were passed to `provided_kind()`"), - } - } - - fn provided_type_like_const( - &mut self, - const_ty: Ty<'db>, - arg: TypeLikeConst<'_>, - ) -> Const<'db> { - match arg { - TypeLikeConst::Path(path) => self.ctx.make_path_as_body_const(path, const_ty), - TypeLikeConst::Infer => self.ctx.table.next_const_var(), - } - } - - fn inferred_kind( - &mut self, - _def: GenericDefId, - param_id: GenericParamId, - _param: GenericParamDataRef<'_>, - _infer_args: bool, - _preceding_args: &[GenericArg<'db>], - ) -> GenericArg<'db> { - // Always create an inference var, even when `infer_args == false`. This helps with diagnostics, - // and I think it's also required in the presence of `impl Trait` (that must be inferred). - self.ctx.table.next_var_for_param(param_id) - } - - fn parent_arg(&mut self, param_id: GenericParamId) -> GenericArg<'db> { - self.ctx.table.next_var_for_param(param_id) - } - - fn report_elided_lifetimes_in_path( - &mut self, - _def: GenericDefId, - _expected_count: u32, - _hard_error: bool, - ) { - unreachable!("we set `LifetimeElisionKind::Infer`") - } - - fn report_elision_failure(&mut self, _def: GenericDefId, _expected_count: u32) { - unreachable!("we set `LifetimeElisionKind::Infer`") - } - - fn report_missing_lifetime(&mut self, _def: GenericDefId, _expected_count: u32) { - unreachable!("we set `LifetimeElisionKind::Infer`") - } - } - - substs_from_args_and_bindings( - self.db, - self.body, - generic_args, - def, - true, - LifetimeElisionKind::Infer, - false, - None, - &mut LowererCtx { ctx: self, expr }, - ) - } - fn register_obligations_for_call(&mut self, callable_ty: Ty<'db>) { let callable_ty = self.table.try_structurally_resolve_type(callable_ty); if let TyKind::FnDef(fn_def, parameters) = callable_ty.kind() { - let generic_predicates = - self.db.generic_predicates(GenericDefId::from_callable(self.db, fn_def.0)); - if let Some(predicates) = generic_predicates.instantiate(self.interner(), parameters) { - let interner = self.interner(); - let param_env = self.table.trait_env.env; - self.table.register_predicates(predicates.map(|predicate| { - Obligation::new(interner, ObligationCause::new(), param_env, predicate) - })); - } + let generic_predicates = GenericPredicates::query_all( + self.db, + GenericDefId::from_callable(self.db, fn_def.0), + ); + let param_env = self.table.trait_env.env; + self.table.register_predicates(clauses_as_obligations( + generic_predicates.iter_instantiated_copied(self.interner(), parameters.as_slice()), + ObligationCause::new(), + param_env, + )); // add obligation for trait implementation, if this is a trait method match fn_def.0 { CallableDefId::FunctionId(f) => { @@ -2410,122 +2216,6 @@ impl<'db> InferenceContext<'_, 'db> { indices } - /// Dereferences a single level of immutable referencing. - fn deref_ty_if_possible(&mut self, ty: Ty<'db>) -> Ty<'db> { - let ty = self.table.try_structurally_resolve_type(ty); - match ty.kind() { - TyKind::Ref(_, inner, Mutability::Not) => { - self.table.try_structurally_resolve_type(inner) - } - _ => ty, - } - } - - /// Enforces expectations on lhs type and rhs type depending on the operator and returns the - /// output type of the binary op. - fn enforce_builtin_binop_types(&mut self, lhs: Ty<'db>, rhs: Ty<'db>, op: BinaryOp) -> Ty<'db> { - // Special-case a single layer of referencing, so that things like `5.0 + &6.0f32` work (See rust-lang/rust#57447). - let lhs = self.deref_ty_if_possible(lhs); - let rhs = self.deref_ty_if_possible(rhs); - - let (op, is_assign) = match op { - BinaryOp::Assignment { op: Some(inner) } => (BinaryOp::ArithOp(inner), true), - _ => (op, false), - }; - - let output_ty = match op { - BinaryOp::LogicOp(_) => { - let bool_ = self.types.bool; - self.unify(lhs, bool_); - self.unify(rhs, bool_); - bool_ - } - - BinaryOp::ArithOp(ArithOp::Shl | ArithOp::Shr) => { - // result type is same as LHS always - lhs - } - - BinaryOp::ArithOp(_) => { - // LHS, RHS, and result will have the same type - self.unify(lhs, rhs); - lhs - } - - BinaryOp::CmpOp(_) => { - // LHS and RHS will have the same type - self.unify(lhs, rhs); - self.types.bool - } - - BinaryOp::Assignment { op: None } => { - stdx::never!("Simple assignment operator is not binary op."); - lhs - } - - BinaryOp::Assignment { .. } => unreachable!("handled above"), - }; - - if is_assign { self.types.unit } else { output_ty } - } - - fn is_builtin_binop(&mut self, lhs: Ty<'db>, rhs: Ty<'db>, op: BinaryOp) -> bool { - // Special-case a single layer of referencing, so that things like `5.0 + &6.0f32` work (See rust-lang/rust#57447). - let lhs = self.deref_ty_if_possible(lhs); - let rhs = self.deref_ty_if_possible(rhs); - - let op = match op { - BinaryOp::Assignment { op: Some(inner) } => BinaryOp::ArithOp(inner), - _ => op, - }; - - match op { - BinaryOp::LogicOp(_) => true, - - BinaryOp::ArithOp(ArithOp::Shl | ArithOp::Shr) => { - lhs.is_integral() && rhs.is_integral() - } - - BinaryOp::ArithOp( - ArithOp::Add | ArithOp::Sub | ArithOp::Mul | ArithOp::Div | ArithOp::Rem, - ) => { - lhs.is_integral() && rhs.is_integral() - || lhs.is_floating_point() && rhs.is_floating_point() - } - - BinaryOp::ArithOp(ArithOp::BitAnd | ArithOp::BitOr | ArithOp::BitXor) => { - lhs.is_integral() && rhs.is_integral() - || lhs.is_floating_point() && rhs.is_floating_point() - || matches!((lhs.kind(), rhs.kind()), (TyKind::Bool, TyKind::Bool)) - } - - BinaryOp::CmpOp(_) => { - let is_scalar = |kind| { - matches!( - kind, - TyKind::Bool - | TyKind::Char - | TyKind::Int(_) - | TyKind::Uint(_) - | TyKind::Float(_) - | TyKind::FnDef(..) - | TyKind::FnPtr(..) - | TyKind::RawPtr(..) - | TyKind::Infer(InferTy::IntVar(_) | InferTy::FloatVar(_)) - ) - }; - is_scalar(lhs.kind()) && is_scalar(rhs.kind()) - } - - BinaryOp::Assignment { op: None } => { - stdx::never!("Simple assignment operator is not binary op."); - false - } - - BinaryOp::Assignment { .. } => unreachable!("handled above"), - } - } - pub(super) fn with_breakable_ctx( &mut self, kind: BreakableKind, diff --git a/crates/hir-ty/src/infer/mutability.rs b/crates/hir-ty/src/infer/mutability.rs index 71a9c94bf5e5..a257547e09c2 100644 --- a/crates/hir-ty/src/infer/mutability.rs +++ b/crates/hir-ty/src/infer/mutability.rs @@ -1,25 +1,15 @@ //! Finds if an expression is an immutable context or a mutable context, which is used in selecting //! between `Deref` and `DerefMut` or `Index` and `IndexMut` or similar. -use hir_def::{ - hir::{ - Array, AsmOperand, BinaryOp, BindingAnnotation, Expr, ExprId, Pat, PatId, Statement, - UnaryOp, - }, - lang_item::LangItem, +use hir_def::hir::{ + Array, AsmOperand, BinaryOp, BindingAnnotation, Expr, ExprId, Pat, PatId, Statement, UnaryOp, }; -use hir_expand::name::Name; -use intern::sym; use rustc_ast_ir::Mutability; -use rustc_type_ir::inherent::IntoKind; -use crate::next_solver::infer::traits::{Obligation, ObligationCause}; -use crate::next_solver::{GenericArgs, TraitRef}; use crate::{ - Adjust, Adjustment, AutoBorrow, OverloadedDeref, - infer::{Expectation, InferenceContext, expr::ExprIsRead}, + Adjust, AutoBorrow, OverloadedDeref, + infer::{InferenceContext, place_op::PlaceOp}, lower::lower_mutability, - next_solver::TyKind, }; impl<'db> InferenceContext<'_, 'db> { @@ -28,13 +18,33 @@ impl<'db> InferenceContext<'_, 'db> { } fn infer_mut_expr(&mut self, tgt_expr: ExprId, mut mutability: Mutability) { + let krate = self.krate(); if let Some(adjustments) = self.result.expr_adjustments.get_mut(&tgt_expr) { - for adj in adjustments.iter_mut().rev() { + let mut adjustments = adjustments.iter_mut().rev().peekable(); + while let Some(adj) = adjustments.next() { match &mut adj.kind { Adjust::NeverToAny | Adjust::Deref(None) | Adjust::Pointer(_) => (), - Adjust::Deref(Some(d)) => *d = OverloadedDeref(Some(mutability)), + Adjust::Deref(Some(d)) => { + if mutability == Mutability::Mut { + let source_ty = match adjustments.peek() { + Some(prev_adj) => prev_adj.target, + None => self.result.type_of_expr[tgt_expr], + }; + if let Some(infer_ok) = Self::try_mutable_overloaded_place_op( + &self.table, + krate, + source_ty, + None, + PlaceOp::Deref, + ) { + self.table.register_predicates(infer_ok.obligations); + } + *d = OverloadedDeref(Some(mutability)); + } + } Adjust::Borrow(b) => match b { - AutoBorrow::Ref(_, m) | AutoBorrow::RawPtr(m) => mutability = *m, + AutoBorrow::Ref(m) => mutability = (*m).into(), + AutoBorrow::RawPtr(m) => mutability = *m, }, } } @@ -128,75 +138,15 @@ impl<'db> InferenceContext<'_, 'db> { self.infer_mut_not_expr_iter(fields.iter().map(|it| it.expr).chain(*spread)) } &Expr::Index { base, index } => { - if mutability == Mutability::Mut - && let Some((f, _)) = self.result.method_resolutions.get_mut(&tgt_expr) - && let Some(index_trait) = - LangItem::IndexMut.resolve_trait(self.db, self.table.trait_env.krate) - && let Some(index_fn) = index_trait - .trait_items(self.db) - .method_by_name(&Name::new_symbol_root(sym::index_mut)) - { - *f = index_fn; - let mut base_ty = None; - let base_adjustments = - self.result.expr_adjustments.get_mut(&base).and_then(|it| it.last_mut()); - if let Some(Adjustment { - kind: Adjust::Borrow(AutoBorrow::Ref(_, mutability)), - target, - }) = base_adjustments - { - if let TyKind::Ref(_, ty, _) = target.kind() { - base_ty = Some(ty); - } - *mutability = Mutability::Mut; - } - - // Apply `IndexMut` obligation for non-assignee expr - if let Some(base_ty) = base_ty { - let index_ty = if let Some(ty) = self.result.type_of_expr.get(index) { - *ty - } else { - self.infer_expr(index, &Expectation::none(), ExprIsRead::Yes) - }; - let trait_ref = TraitRef::new( - self.interner(), - index_trait.into(), - GenericArgs::new_from_iter( - self.interner(), - [base_ty.into(), index_ty.into()], - ), - ); - self.table.register_predicate(Obligation::new( - self.interner(), - ObligationCause::new(), - self.table.trait_env.env, - trait_ref, - )); - } + if mutability == Mutability::Mut { + self.convert_place_op_to_mutable(PlaceOp::Index, tgt_expr, base, Some(index)); } self.infer_mut_expr(base, mutability); self.infer_mut_expr(index, Mutability::Not); } Expr::UnaryOp { expr, op: UnaryOp::Deref } => { - let mut mutability = mutability; - if let Some((f, _)) = self.result.method_resolutions.get_mut(&tgt_expr) - && mutability == Mutability::Mut - && let Some(deref_trait) = - LangItem::DerefMut.resolve_trait(self.db, self.table.trait_env.krate) - { - let ty = self.result.type_of_expr.get(*expr); - let is_mut_ptr = ty.is_some_and(|ty| { - let ty = self.table.shallow_resolve(*ty); - matches!(ty.kind(), TyKind::RawPtr(_, Mutability::Mut)) - }); - if is_mut_ptr { - mutability = Mutability::Not; - } else if let Some(deref_fn) = deref_trait - .trait_items(self.db) - .method_by_name(&Name::new_symbol_root(sym::deref_mut)) - { - *f = deref_fn; - } + if mutability == Mutability::Mut { + self.convert_place_op_to_mutable(PlaceOp::Deref, tgt_expr, *expr, None); } self.infer_mut_expr(*expr, mutability); } diff --git a/crates/hir-ty/src/infer/op.rs b/crates/hir-ty/src/infer/op.rs new file mode 100644 index 000000000000..57d49008fb75 --- /dev/null +++ b/crates/hir-ty/src/infer/op.rs @@ -0,0 +1,468 @@ +//! Inference of binary and unary operators. + +use std::collections::hash_map; + +use hir_def::{GenericParamId, TraitId, hir::ExprId, lang_item::LangItem}; +use intern::{Symbol, sym}; +use rustc_ast_ir::Mutability; +use rustc_type_ir::inherent::{IntoKind, Ty as _}; +use syntax::ast::{ArithOp, BinaryOp, UnaryOp}; +use tracing::debug; + +use crate::{ + Adjust, Adjustment, AutoBorrow, + infer::{AllowTwoPhase, AutoBorrowMutability, Expectation, InferenceContext, expr::ExprIsRead}, + method_resolution::{MethodCallee, TreatNotYetDefinedOpaques}, + next_solver::{ + GenericArgs, TraitRef, Ty, TyKind, + fulfill::NextSolverError, + infer::traits::{Obligation, ObligationCause}, + obligation_ctxt::ObligationCtxt, + }, +}; + +impl<'a, 'db> InferenceContext<'a, 'db> { + /// Checks a `a = b` + pub(crate) fn infer_assign_op_expr( + &mut self, + expr: ExprId, + op: ArithOp, + lhs: ExprId, + rhs: ExprId, + ) -> Ty<'db> { + let (lhs_ty, rhs_ty, return_ty) = + self.infer_overloaded_binop(expr, lhs, rhs, BinaryOp::Assignment { op: Some(op) }); + + let category = BinOpCategory::from(op); + let ty = if !lhs_ty.is_ty_var() + && !rhs_ty.is_ty_var() + && is_builtin_binop(lhs_ty, rhs_ty, category) + { + self.enforce_builtin_binop_types(lhs_ty, rhs_ty, category); + self.types.unit + } else { + return_ty + }; + + self.check_lhs_assignable(lhs); + + ty + } + + /// Checks a potentially overloaded binary operator. + pub(crate) fn infer_binop_expr( + &mut self, + expr: ExprId, + op: BinaryOp, + lhs_expr: ExprId, + rhs_expr: ExprId, + ) -> Ty<'db> { + debug!( + "check_binop(expr.hir_id={:?}, expr={:?}, op={:?}, lhs_expr={:?}, rhs_expr={:?})", + expr, expr, op, lhs_expr, rhs_expr + ); + + match op { + BinaryOp::LogicOp(_) => { + // && and || are a simple case. + self.infer_expr_coerce( + lhs_expr, + &Expectation::HasType(self.types.bool), + ExprIsRead::Yes, + ); + let lhs_diverges = self.diverges; + self.infer_expr_coerce( + rhs_expr, + &Expectation::HasType(self.types.bool), + ExprIsRead::Yes, + ); + + // Depending on the LHS' value, the RHS can never execute. + self.diverges = lhs_diverges; + + self.types.bool + } + _ => { + // Otherwise, we always treat operators as if they are + // overloaded. This is the way to be most flexible w/r/t + // types that get inferred. + let (lhs_ty, rhs_ty, return_ty) = + self.infer_overloaded_binop(expr, lhs_expr, rhs_expr, op); + + // Supply type inference hints if relevant. Probably these + // hints should be enforced during select as part of the + // `consider_unification_despite_ambiguity` routine, but this + // more convenient for now. + // + // The basic idea is to help type inference by taking + // advantage of things we know about how the impls for + // scalar types are arranged. This is important in a + // scenario like `1_u32 << 2`, because it lets us quickly + // deduce that the result type should be `u32`, even + // though we don't know yet what type 2 has and hence + // can't pin this down to a specific impl. + let category = BinOpCategory::from(op); + if !lhs_ty.is_ty_var() + && !rhs_ty.is_ty_var() + && is_builtin_binop(lhs_ty, rhs_ty, category) + { + let builtin_return_ty = + self.enforce_builtin_binop_types(lhs_ty, rhs_ty, category); + self.demand_eqtype(builtin_return_ty, return_ty); + builtin_return_ty + } else { + return_ty + } + } + } + } + + fn enforce_builtin_binop_types( + &mut self, + lhs_ty: Ty<'db>, + rhs_ty: Ty<'db>, + category: BinOpCategory, + ) -> Ty<'db> { + debug_assert!(is_builtin_binop(lhs_ty, rhs_ty, category)); + + // Special-case a single layer of referencing, so that things like `5.0 + &6.0f32` work. + // (See https://github.com/rust-lang/rust/issues/57447.) + let (lhs_ty, rhs_ty) = (deref_ty_if_possible(lhs_ty), deref_ty_if_possible(rhs_ty)); + + match category { + BinOpCategory::Shortcircuit => { + self.demand_suptype(self.types.bool, lhs_ty); + self.demand_suptype(self.types.bool, rhs_ty); + self.types.bool + } + + BinOpCategory::Shift => { + // result type is same as LHS always + lhs_ty + } + + BinOpCategory::Math | BinOpCategory::Bitwise => { + // both LHS and RHS and result will have the same type + self.demand_suptype(lhs_ty, rhs_ty); + lhs_ty + } + + BinOpCategory::Comparison => { + // both LHS and RHS and result will have the same type + self.demand_suptype(lhs_ty, rhs_ty); + self.types.bool + } + } + } + + fn infer_overloaded_binop( + &mut self, + expr: ExprId, + lhs_expr: ExprId, + rhs_expr: ExprId, + op: BinaryOp, + ) -> (Ty<'db>, Ty<'db>, Ty<'db>) { + debug!("infer_overloaded_binop(expr.hir_id={:?}, op={:?})", expr, op); + + let lhs_ty = match op { + BinaryOp::Assignment { .. } => { + // rust-lang/rust#52126: We have to use strict + // equivalence on the LHS of an assign-op like `+=`; + // overwritten or mutably-borrowed places cannot be + // coerced to a supertype. + self.infer_expr_no_expect(lhs_expr, ExprIsRead::Yes) + } + _ => { + // Find a suitable supertype of the LHS expression's type, by coercing to + // a type variable, to pass as the `Self` to the trait, avoiding invariant + // trait matching creating lifetime constraints that are too strict. + // e.g., adding `&'a T` and `&'b T`, given `&'x T: Add<&'x T>`, will result + // in `&'a T <: &'x T` and `&'b T <: &'x T`, instead of `'a = 'b = 'x`. + let lhs_ty = self.infer_expr_no_expect(lhs_expr, ExprIsRead::No); + let fresh_var = self.table.next_ty_var(); + self.demand_coerce(lhs_expr, lhs_ty, fresh_var, AllowTwoPhase::No, ExprIsRead::No) + } + }; + let lhs_ty = self.table.resolve_vars_with_obligations(lhs_ty); + + // N.B., as we have not yet type-checked the RHS, we don't have the + // type at hand. Make a variable to represent it. The whole reason + // for this indirection is so that, below, we can check the expr + // using this variable as the expected type, which sometimes lets + // us do better coercions than we would be able to do otherwise, + // particularly for things like `String + &String`. + let rhs_ty_var = self.table.next_ty_var(); + let result = self.lookup_op_method( + lhs_ty, + Some((rhs_expr, rhs_ty_var)), + self.lang_item_for_bin_op(op), + ); + + // see `NB` above + let rhs_ty = + self.infer_expr_coerce(rhs_expr, &Expectation::HasType(rhs_ty_var), ExprIsRead::No); + let rhs_ty = self.table.resolve_vars_with_obligations(rhs_ty); + + let return_ty = match result { + Ok(method) => { + let by_ref_binop = !is_op_by_value(op); + if (matches!(op, BinaryOp::Assignment { .. }) || by_ref_binop) + && let TyKind::Ref(_, _, mutbl) = + method.sig.inputs_and_output.inputs()[0].kind() + { + let mutbl = AutoBorrowMutability::new(mutbl, AllowTwoPhase::Yes); + let autoref = Adjustment { + kind: Adjust::Borrow(AutoBorrow::Ref(mutbl)), + target: method.sig.inputs_and_output.inputs()[0], + }; + self.write_expr_adj(lhs_expr, Box::new([autoref])); + } + if by_ref_binop + && let TyKind::Ref(_, _, mutbl) = + method.sig.inputs_and_output.inputs()[1].kind() + { + // Allow two-phase borrows for binops in initial deployment + // since they desugar to methods + let mutbl = AutoBorrowMutability::new(mutbl, AllowTwoPhase::Yes); + + let autoref = Adjustment { + kind: Adjust::Borrow(AutoBorrow::Ref(mutbl)), + target: method.sig.inputs_and_output.inputs()[1], + }; + // HACK(eddyb) Bypass checks due to reborrows being in + // some cases applied on the RHS, on top of which we need + // to autoref, which is not allowed by write_expr_adj. + // self.write_expr_adj(rhs_expr, Box::new([autoref])); + match self.result.expr_adjustments.entry(rhs_expr) { + hash_map::Entry::Occupied(mut entry) => { + let mut adjustments = Vec::from(std::mem::take(entry.get_mut())); + adjustments.reserve_exact(1); + adjustments.push(autoref); + entry.insert(adjustments.into_boxed_slice()); + } + hash_map::Entry::Vacant(entry) => { + entry.insert(Box::new([autoref])); + } + }; + } + self.write_method_resolution(expr, method.def_id, method.args); + + method.sig.output() + } + Err(_errors) => { + // FIXME: Report diagnostic. + self.types.error + } + }; + + (lhs_ty, rhs_ty, return_ty) + } + + pub(crate) fn infer_user_unop( + &mut self, + ex: ExprId, + operand_ty: Ty<'db>, + op: UnaryOp, + ) -> Ty<'db> { + match self.lookup_op_method(operand_ty, None, self.lang_item_for_unop(op)) { + Ok(method) => { + self.write_method_resolution(ex, method.def_id, method.args); + method.sig.output() + } + Err(_errors) => { + // FIXME: Report diagnostic. + self.types.error + } + } + } + + fn lookup_op_method( + &mut self, + lhs_ty: Ty<'db>, + opt_rhs: Option<(ExprId, Ty<'db>)>, + (opname, trait_did): (Symbol, Option), + ) -> Result, Vec>> { + let Some(trait_did) = trait_did else { + // Bail if the operator trait is not defined. + return Err(vec![]); + }; + + debug!( + "lookup_op_method(lhs_ty={:?}, opname={:?}, trait_did={:?})", + lhs_ty, opname, trait_did + ); + + let opt_rhs_ty = opt_rhs.map(|it| it.1); + let cause = ObligationCause::new(); + + // We don't consider any other candidates if this lookup fails + // so we can freely treat opaque types as inference variables here + // to allow more code to compile. + let treat_opaques = TreatNotYetDefinedOpaques::AsInfer; + let method = self.table.lookup_method_for_operator( + cause.clone(), + opname, + trait_did, + lhs_ty, + opt_rhs_ty, + treat_opaques, + ); + match method { + Some(ok) => { + let method = self.table.register_infer_ok(ok); + self.table.select_obligations_where_possible(); + Ok(method) + } + None => { + // Guide inference for the RHS expression if it's provided -- + // this will allow us to better error reporting, at the expense + // of making some error messages a bit more specific. + if let Some((rhs_expr, rhs_ty)) = opt_rhs + && rhs_ty.is_ty_var() + { + self.infer_expr_coerce(rhs_expr, &Expectation::HasType(rhs_ty), ExprIsRead::No); + } + + // Construct an obligation `self_ty : Trait` + let args = GenericArgs::for_item( + self.interner(), + trait_did.into(), + |param_idx, param_id, _| match param_id { + GenericParamId::LifetimeParamId(_) | GenericParamId::ConstParamId(_) => { + unreachable!("did not expect operand trait to have lifetime/const args") + } + GenericParamId::TypeParamId(_) => { + if param_idx == 0 { + lhs_ty.into() + } else { + opt_rhs_ty.expect("expected RHS for binop").into() + } + } + }, + ); + let obligation = Obligation::new( + self.interner(), + cause, + self.table.trait_env.env, + TraitRef::new_from_args(self.interner(), trait_did.into(), args), + ); + let mut ocx = ObligationCtxt::new(self.infcx()); + ocx.register_obligation(obligation); + Err(ocx.evaluate_obligations_error_on_ambiguity()) + } + } + } + + fn lang_item_for_bin_op(&self, op: BinaryOp) -> (Symbol, Option) { + let (method_name, trait_lang_item) = + crate::lang_items::lang_items_for_bin_op(op).expect("invalid operator provided"); + (method_name, trait_lang_item.resolve_trait(self.db, self.krate())) + } + + fn lang_item_for_unop(&self, op: UnaryOp) -> (Symbol, Option) { + let (method_name, trait_lang_item) = match op { + UnaryOp::Not => (sym::not, LangItem::Not), + UnaryOp::Neg => (sym::neg, LangItem::Neg), + UnaryOp::Deref => panic!("Deref is not overloadable"), + }; + (method_name, trait_lang_item.resolve_trait(self.db, self.krate())) + } +} + +// Binary operator categories. These categories summarize the behavior +// with respect to the builtin operations supported. +#[derive(Clone, Copy)] +enum BinOpCategory { + /// &&, || -- cannot be overridden + Shortcircuit, + + /// <<, >> -- when shifting a single integer, rhs can be any + /// integer type. For simd, types must match. + Shift, + + /// +, -, etc -- takes equal types, produces same type as input, + /// applicable to ints/floats/simd + Math, + + /// &, |, ^ -- takes equal types, produces same type as input, + /// applicable to ints/floats/simd/bool + Bitwise, + + /// ==, !=, etc -- takes equal types, produces bools, except for simd, + /// which produce the input type + Comparison, +} + +impl From for BinOpCategory { + fn from(op: BinaryOp) -> BinOpCategory { + match op { + BinaryOp::LogicOp(_) => BinOpCategory::Shortcircuit, + BinaryOp::ArithOp(op) | BinaryOp::Assignment { op: Some(op) } => op.into(), + BinaryOp::CmpOp(_) => BinOpCategory::Comparison, + BinaryOp::Assignment { op: None } => unreachable!( + "assignment is lowered into `Expr::Assignment`, not into `Expr::BinaryOp`" + ), + } + } +} + +impl From for BinOpCategory { + fn from(op: ArithOp) -> BinOpCategory { + use ArithOp::*; + match op { + Shl | Shr => BinOpCategory::Shift, + Add | Sub | Mul | Div | Rem => BinOpCategory::Math, + BitXor | BitAnd | BitOr => BinOpCategory::Bitwise, + } + } +} + +/// Returns `true` if the binary operator takes its arguments by value. +fn is_op_by_value(op: BinaryOp) -> bool { + !matches!(op, BinaryOp::CmpOp(_)) +} + +/// Dereferences a single level of immutable referencing. +fn deref_ty_if_possible(ty: Ty<'_>) -> Ty<'_> { + match ty.kind() { + TyKind::Ref(_, ty, Mutability::Not) => ty, + _ => ty, + } +} + +/// Returns `true` if this is a built-in arithmetic operation (e.g., +/// u32 + u32, i16x4 == i16x4) and false if these types would have to be +/// overloaded to be legal. There are two reasons that we distinguish +/// builtin operations from overloaded ones (vs trying to drive +/// everything uniformly through the trait system and intrinsics or +/// something like that): +/// +/// 1. Builtin operations can trivially be evaluated in constants. +/// 2. For comparison operators applied to SIMD types the result is +/// not of type `bool`. For example, `i16x4 == i16x4` yields a +/// type like `i16x4`. This means that the overloaded trait +/// `PartialEq` is not applicable. +/// +/// Reason #2 is the killer. I tried for a while to always use +/// overloaded logic and just check the types in constants/codegen after +/// the fact, and it worked fine, except for SIMD types. -nmatsakis +fn is_builtin_binop<'db>(lhs: Ty<'db>, rhs: Ty<'db>, category: BinOpCategory) -> bool { + // Special-case a single layer of referencing, so that things like `5.0 + &6.0f32` work. + // (See https://github.com/rust-lang/rust/issues/57447.) + let (lhs, rhs) = (deref_ty_if_possible(lhs), deref_ty_if_possible(rhs)); + + match category { + BinOpCategory::Shortcircuit => true, + BinOpCategory::Shift => lhs.is_integral() && rhs.is_integral(), + BinOpCategory::Math => { + lhs.is_integral() && rhs.is_integral() + || lhs.is_floating_point() && rhs.is_floating_point() + } + BinOpCategory::Bitwise => { + lhs.is_integral() && rhs.is_integral() + || lhs.is_floating_point() && rhs.is_floating_point() + || lhs.is_bool() && rhs.is_bool() + } + BinOpCategory::Comparison => lhs.is_scalar() && rhs.is_scalar(), + } +} diff --git a/crates/hir-ty/src/infer/pat.rs b/crates/hir-ty/src/infer/pat.rs index 8019844b5df3..257224b0693d 100644 --- a/crates/hir-ty/src/infer/pat.rs +++ b/crates/hir-ty/src/infer/pat.rs @@ -16,8 +16,7 @@ use crate::{ DeclContext, DeclOrigin, InferenceDiagnostic, consteval::{self, try_const_usize, usize_const}, infer::{ - AllowTwoPhase, BindingMode, Expectation, InferenceContext, TypeMismatch, - coerce::CoerceNever, expr::ExprIsRead, + AllowTwoPhase, BindingMode, Expectation, InferenceContext, TypeMismatch, expr::ExprIsRead, }, lower::lower_mutability, next_solver::{GenericArgs, Ty, TyKind}, @@ -306,7 +305,7 @@ impl<'db> InferenceContext<'_, 'db> { expected, ty_inserted_vars, AllowTwoPhase::No, - CoerceNever::Yes, + ExprIsRead::No, ) { Ok(coerced_ty) => { self.write_pat_ty(pat, coerced_ty); @@ -374,16 +373,17 @@ impl<'db> InferenceContext<'_, 'db> { Pat::Expr(expr) => { let old_inside_assign = std::mem::replace(&mut self.inside_assignment, false); // LHS of assignment doesn't constitute reads. + let expr_is_read = ExprIsRead::No; let result = - self.infer_expr_coerce(*expr, &Expectation::has_type(expected), ExprIsRead::No); + self.infer_expr_coerce(*expr, &Expectation::has_type(expected), expr_is_read); // We are returning early to avoid the unifiability check below. let lhs_ty = self.insert_type_vars_shallow(result); let ty = match self.coerce( - pat.into(), + (*expr).into(), expected, lhs_ty, AllowTwoPhase::No, - CoerceNever::Yes, + expr_is_read, ) { Ok(ty) => ty, Err(_) => { diff --git a/crates/hir-ty/src/infer/path.rs b/crates/hir-ty/src/infer/path.rs index 9ade8420138d..6e3d15893f74 100644 --- a/crates/hir-ty/src/infer/path.rs +++ b/crates/hir-ty/src/infer/path.rs @@ -13,11 +13,12 @@ use crate::{ InferenceDiagnostic, ValueTyDefId, generics::generics, infer::diagnostics::InferenceTyLoweringContext as TyLoweringContext, - lower::LifetimeElisionKind, - method_resolution::{self, VisibleFromModule}, + lower::{GenericPredicates, LifetimeElisionKind}, + method_resolution::{self, CandidateId, MethodError}, next_solver::{ GenericArg, GenericArgs, TraitRef, Ty, infer::traits::{Obligation, ObligationCause}, + util::clauses_as_obligations, }, }; @@ -31,7 +32,7 @@ impl<'db> InferenceContext<'_, 'db> { } ValuePathResolution::NonGeneric(ty) => return Some(ty), }; - let args = self.process_remote_user_written_ty(substs); + let args = self.insert_type_vars(substs); self.add_required_obligations_for_value_path(generic_def, args); @@ -221,14 +222,14 @@ impl<'db> InferenceContext<'_, 'db> { def: GenericDefId, subst: GenericArgs<'db>, ) { - let predicates = self.db.generic_predicates(def); let interner = self.interner(); + let predicates = GenericPredicates::query_all(self.db, def); let param_env = self.table.trait_env.env; - if let Some(predicates) = predicates.instantiate(self.interner(), subst) { - self.table.register_predicates(predicates.map(|predicate| { - Obligation::new(interner, ObligationCause::new(), param_env, predicate) - })); - } + self.table.register_predicates(clauses_as_obligations( + predicates.iter_instantiated_copied(interner, subst.as_slice()), + ObligationCause::new(), + param_env, + )); // We need to add `Self: Trait` obligation when `def` is a trait assoc item. let container = match def { @@ -265,7 +266,7 @@ impl<'db> InferenceContext<'_, 'db> { match item { AssocItemId::FunctionId(func) => { if segment.name == &self.db.function_signature(func).name { - Some(AssocItemId::FunctionId(func)) + Some(CandidateId::FunctionId(func)) } else { None } @@ -273,7 +274,7 @@ impl<'db> InferenceContext<'_, 'db> { AssocItemId::ConstId(konst) => { if self.db.const_signature(konst).name.as_ref() == Some(segment.name) { - Some(AssocItemId::ConstId(konst)) + Some(CandidateId::ConstId(konst)) } else { None } @@ -282,9 +283,8 @@ impl<'db> InferenceContext<'_, 'db> { } })?; let def = match item { - AssocItemId::FunctionId(f) => ValueNs::FunctionId(f), - AssocItemId::ConstId(c) => ValueNs::ConstId(c), - AssocItemId::TypeAliasId(_) => unreachable!(), + CandidateId::FunctionId(f) => ValueNs::FunctionId(f), + CandidateId::ConstId(c) => ValueNs::ConstId(c), }; self.write_assoc_resolution(id, item, trait_ref.args); @@ -305,39 +305,23 @@ impl<'db> InferenceContext<'_, 'db> { return Some(result); } - let canonical_ty = self.canonicalize(ty); - - let mut not_visible = None; - let res = method_resolution::iterate_method_candidates( - &canonical_ty, - &mut self.table, - Self::get_traits_in_scope(&self.resolver, &self.traits_in_scope) - .as_ref() - .left_or_else(|&it| it), - VisibleFromModule::Filter(self.resolver.module()), - Some(name), - method_resolution::LookupMode::Path, - |_ty, item, visible| { - if visible { - Some((item, true)) - } else { - if not_visible.is_none() { - not_visible = Some((item, false)); - } - None + let res = self.with_method_resolution(|ctx| { + ctx.probe_for_name(method_resolution::Mode::Path, name.clone(), ty) + }); + let (item, visible) = match res { + Ok(res) => (res.item, true), + Err(error) => match error { + MethodError::PrivateMatch(candidate_id) => (candidate_id.item, false), + _ => { + self.push_diagnostic(InferenceDiagnostic::UnresolvedAssocItem { id }); + return None; } }, - ); - let res = res.or(not_visible); - if res.is_none() { - self.push_diagnostic(InferenceDiagnostic::UnresolvedAssocItem { id }); - } - let (item, visible) = res?; + }; let (def, container) = match item { - AssocItemId::FunctionId(f) => (ValueNs::FunctionId(f), f.lookup(self.db).container), - AssocItemId::ConstId(c) => (ValueNs::ConstId(c), c.lookup(self.db).container), - AssocItemId::TypeAliasId(_) => unreachable!(), + CandidateId::FunctionId(f) => (ValueNs::FunctionId(f), f.lookup(self.db).container), + CandidateId::ConstId(c) => (ValueNs::ConstId(c), c.lookup(self.db).container), }; let substs = match container { ItemContainerId::ImplId(impl_id) => { @@ -372,6 +356,10 @@ impl<'db> InferenceContext<'_, 'db> { self.write_assoc_resolution(id, item, substs); if !visible { + let item = match item { + CandidateId::FunctionId(it) => it.into(), + CandidateId::ConstId(it) => it.into(), + }; self.push_diagnostic(InferenceDiagnostic::PrivateAssocItem { id, item }); } Some((def, substs)) diff --git a/crates/hir-ty/src/infer/place_op.rs b/crates/hir-ty/src/infer/place_op.rs new file mode 100644 index 000000000000..50018bb23bf3 --- /dev/null +++ b/crates/hir-ty/src/infer/place_op.rs @@ -0,0 +1,329 @@ +//! Inference of *place operators*: deref and indexing (operators that create places, as opposed to values). + +use base_db::Crate; +use hir_def::{hir::ExprId, lang_item::LangItem}; +use intern::sym; +use rustc_ast_ir::Mutability; +use rustc_type_ir::inherent::{IntoKind, Ty as _}; +use tracing::debug; + +use crate::{ + Adjust, Adjustment, AutoBorrow, PointerCast, + autoderef::InferenceContextAutoderef, + infer::{AllowTwoPhase, AutoBorrowMutability, InferenceContext, unify::InferenceTable}, + method_resolution::{MethodCallee, TreatNotYetDefinedOpaques}, + next_solver::{ + ClauseKind, Ty, TyKind, + infer::{ + InferOk, + traits::{Obligation, ObligationCause}, + }, + }, +}; + +#[derive(Debug, Copy, Clone)] +pub(super) enum PlaceOp { + Deref, + Index, +} + +impl<'a, 'db> InferenceContext<'a, 'db> { + pub(super) fn try_overloaded_deref( + &self, + base_ty: Ty<'db>, + ) -> Option>> { + self.try_overloaded_place_op(base_ty, None, PlaceOp::Deref) + } + + /// For the overloaded place expressions (`*x`, `x[3]`), the trait + /// returns a type of `&T`, but the actual type we assign to the + /// *expression* is `T`. So this function just peels off the return + /// type by one layer to yield `T`. + fn make_overloaded_place_return_type(&self, method: MethodCallee<'db>) -> Ty<'db> { + // extract method return type, which will be &T; + let ret_ty = method.sig.output(); + + // method returns &T, but the type as visible to user is T, so deref + ret_ty.builtin_deref(true).unwrap() + } + + /// Type-check `*oprnd_expr` with `oprnd_expr` type-checked already. + pub(super) fn lookup_derefing( + &mut self, + expr: ExprId, + oprnd_expr: ExprId, + oprnd_ty: Ty<'db>, + ) -> Option> { + if let Some(ty) = oprnd_ty.builtin_deref(true) { + return Some(ty); + } + + let ok = self.try_overloaded_deref(oprnd_ty)?; + let method = self.table.register_infer_ok(ok); + if let TyKind::Ref(_, _, Mutability::Not) = method.sig.inputs_and_output.inputs()[0].kind() + { + self.write_expr_adj( + oprnd_expr, + Box::new([Adjustment { + kind: Adjust::Borrow(AutoBorrow::Ref(AutoBorrowMutability::Not)), + target: method.sig.inputs_and_output.inputs()[0], + }]), + ); + } else { + panic!("input to deref is not a ref?"); + } + let ty = self.make_overloaded_place_return_type(method); + self.write_method_resolution(expr, method.def_id, method.args); + Some(ty) + } + + /// Type-check `*base_expr[index_expr]` with `base_expr` and `index_expr` type-checked already. + pub(super) fn lookup_indexing( + &mut self, + expr: ExprId, + base_expr: ExprId, + base_ty: Ty<'db>, + idx_ty: Ty<'db>, + ) -> Option<(/*index type*/ Ty<'db>, /*element type*/ Ty<'db>)> { + // FIXME(#18741) -- this is almost but not quite the same as the + // autoderef that normal method probing does. They could likely be + // consolidated. + + let mut autoderef = InferenceContextAutoderef::new_from_inference_context(self, base_ty); + let mut result = None; + while result.is_none() && autoderef.next().is_some() { + result = Self::try_index_step(expr, base_expr, &mut autoderef, idx_ty); + } + result + } + + /// To type-check `base_expr[index_expr]`, we progressively autoderef + /// (and otherwise adjust) `base_expr`, looking for a type which either + /// supports builtin indexing or overloaded indexing. + /// This loop implements one step in that search; the autoderef loop + /// is implemented by `lookup_indexing`. + fn try_index_step( + expr: ExprId, + base_expr: ExprId, + autoderef: &mut InferenceContextAutoderef<'_, 'a, 'db>, + index_ty: Ty<'db>, + ) -> Option<(/*index type*/ Ty<'db>, /*element type*/ Ty<'db>)> { + let ty = autoderef.final_ty(); + let adjusted_ty = autoderef.ctx().table.structurally_resolve_type(ty); + debug!( + "try_index_step(expr={:?}, base_expr={:?}, adjusted_ty={:?}, \ + index_ty={:?})", + expr, base_expr, adjusted_ty, index_ty + ); + + for unsize in [false, true] { + let mut self_ty = adjusted_ty; + if unsize { + // We only unsize arrays here. + if let TyKind::Array(element_ty, ct) = adjusted_ty.kind() { + let ctx = autoderef.ctx(); + ctx.table.register_predicate(Obligation::new( + ctx.interner(), + ObligationCause::new(), + ctx.table.trait_env.env, + ClauseKind::ConstArgHasType(ct, ctx.types.usize), + )); + self_ty = Ty::new_slice(ctx.interner(), element_ty); + } else { + continue; + } + } + + // If some lookup succeeds, write callee into table and extract index/element + // type from the method signature. + // If some lookup succeeded, install method in table + let input_ty = autoderef.ctx().table.next_ty_var(); + let method = + autoderef.ctx().try_overloaded_place_op(self_ty, Some(input_ty), PlaceOp::Index); + + if let Some(result) = method { + debug!("try_index_step: success, using overloaded indexing"); + let method = autoderef.ctx().table.register_infer_ok(result); + + let infer_ok = autoderef.adjust_steps_as_infer_ok(); + let mut adjustments = autoderef.ctx().table.register_infer_ok(infer_ok); + if let TyKind::Ref(region, _, Mutability::Not) = + method.sig.inputs_and_output.inputs()[0].kind() + { + adjustments.push(Adjustment { + kind: Adjust::Borrow(AutoBorrow::Ref(AutoBorrowMutability::Not)), + target: Ty::new_imm_ref(autoderef.ctx().interner(), region, adjusted_ty), + }); + } else { + panic!("input to index is not a ref?"); + } + if unsize { + adjustments.push(Adjustment { + kind: Adjust::Pointer(PointerCast::Unsize), + target: method.sig.inputs_and_output.inputs()[0], + }); + } + autoderef.ctx().write_expr_adj(base_expr, adjustments.into_boxed_slice()); + + autoderef.ctx().write_method_resolution(expr, method.def_id, method.args); + + return Some((input_ty, autoderef.ctx().make_overloaded_place_return_type(method))); + } + } + + None + } + + /// Try to resolve an overloaded place op. We only deal with the immutable + /// variant here (Deref/Index). In some contexts we would need the mutable + /// variant (DerefMut/IndexMut); those would be later converted by + /// `convert_place_derefs_to_mutable`. + pub(super) fn try_overloaded_place_op( + &self, + base_ty: Ty<'db>, + opt_rhs_ty: Option>, + op: PlaceOp, + ) -> Option>> { + debug!("try_overloaded_place_op({:?},{:?})", base_ty, op); + + let (Some(imm_tr), imm_op) = (match op { + PlaceOp::Deref => (LangItem::Deref.resolve_trait(self.db, self.krate()), sym::deref), + PlaceOp::Index => (LangItem::Index.resolve_trait(self.db, self.krate()), sym::index), + }) else { + // Bail if `Deref` or `Index` isn't defined. + return None; + }; + + // FIXME(trait-system-refactor-initiative#231): we may want to treat + // opaque types as rigid here to support `impl Deref>`. + let treat_opaques = TreatNotYetDefinedOpaques::AsInfer; + self.table.lookup_method_for_operator( + ObligationCause::new(), + imm_op, + imm_tr, + base_ty, + opt_rhs_ty, + treat_opaques, + ) + } + + pub(super) fn try_mutable_overloaded_place_op( + table: &InferenceTable<'db>, + krate: Crate, + base_ty: Ty<'db>, + opt_rhs_ty: Option>, + op: PlaceOp, + ) -> Option>> { + debug!("try_mutable_overloaded_place_op({:?},{:?})", base_ty, op); + + let (Some(mut_tr), mut_op) = (match op { + PlaceOp::Deref => (LangItem::DerefMut.resolve_trait(table.db, krate), sym::deref_mut), + PlaceOp::Index => (LangItem::IndexMut.resolve_trait(table.db, krate), sym::index_mut), + }) else { + // Bail if `DerefMut` or `IndexMut` isn't defined. + return None; + }; + + // We have to replace the operator with the mutable variant for the + // program to compile, so we don't really have a choice here and want + // to just try using `DerefMut` even if its not in the item bounds + // of the opaque. + let treat_opaques = TreatNotYetDefinedOpaques::AsInfer; + table.lookup_method_for_operator( + ObligationCause::new(), + mut_op, + mut_tr, + base_ty, + opt_rhs_ty, + treat_opaques, + ) + } + + pub(super) fn convert_place_op_to_mutable( + &mut self, + op: PlaceOp, + expr: ExprId, + base_expr: ExprId, + index_expr: Option, + ) { + debug!("convert_place_op_to_mutable({:?}, {:?}, {:?})", op, expr, base_expr); + if !self.result.method_resolutions.contains_key(&expr) { + debug!("convert_place_op_to_mutable - builtin, nothing to do"); + return; + } + + // Need to deref because overloaded place ops take self by-reference. + let base_ty = self + .expr_ty_after_adjustments(base_expr) + .builtin_deref(false) + .expect("place op takes something that is not a ref"); + + let arg_ty = match op { + PlaceOp::Deref => None, + PlaceOp::Index => { + // We would need to recover the `T` used when we resolve `<_ as Index>::index` + // in try_index_step. This is the arg at index 1. + // + // FIXME: rustc does not use the type of `index_expr` with the following explanation. + // + // Note: we should *not* use `expr_ty` of index_expr here because autoderef + // during coercions can cause type of index_expr to differ from `T` (#72002). + // We also could not use `expr_ty_adjusted` of index_expr because reborrowing + // during coercions can also cause type of index_expr to differ from `T`, + // which can potentially cause regionck failure (#74933). + Some(self.expr_ty_after_adjustments( + index_expr.expect("`PlaceOp::Index` should have `index_expr`"), + )) + } + }; + let method = + Self::try_mutable_overloaded_place_op(&self.table, self.krate(), base_ty, arg_ty, op); + let method = match method { + Some(ok) => self.table.register_infer_ok(ok), + // Couldn't find the mutable variant of the place op, keep the + // current, immutable version. + None => return, + }; + debug!("convert_place_op_to_mutable: method={:?}", method); + self.result.method_resolutions.insert(expr, (method.def_id, method.args)); + + let TyKind::Ref(region, _, Mutability::Mut) = + method.sig.inputs_and_output.inputs()[0].kind() + else { + panic!("input to mutable place op is not a mut ref?"); + }; + + // Convert the autoref in the base expr to mutable with the correct + // region and mutability. + let base_expr_ty = self.expr_ty(base_expr); + let interner = self.interner(); + if let Some(adjustments) = self.result.expr_adjustments.get_mut(&base_expr) { + let mut source = base_expr_ty; + for adjustment in &mut adjustments[..] { + if let Adjust::Borrow(AutoBorrow::Ref(..)) = adjustment.kind { + debug!("convert_place_op_to_mutable: converting autoref {:?}", adjustment); + let mutbl = AutoBorrowMutability::Mut { + // Deref/indexing can be desugared to a method call, + // so maybe we could use two-phase here. + // See the documentation of AllowTwoPhase for why that's + // not the case today. + allow_two_phase_borrow: AllowTwoPhase::No, + }; + adjustment.kind = Adjust::Borrow(AutoBorrow::Ref(mutbl)); + adjustment.target = Ty::new_ref(interner, region, source, mutbl.into()); + } + source = adjustment.target; + } + + // If we have an autoref followed by unsizing at the end, fix the unsize target. + if let [ + .., + Adjustment { kind: Adjust::Borrow(AutoBorrow::Ref(..)), .. }, + Adjustment { kind: Adjust::Pointer(PointerCast::Unsize), ref mut target }, + ] = adjustments[..] + { + *target = method.sig.inputs_and_output.inputs()[0]; + } + } + } +} diff --git a/crates/hir-ty/src/infer/unify.rs b/crates/hir-ty/src/infer/unify.rs index 59e8d84190f0..fb195d45685f 100644 --- a/crates/hir-ty/src/infer/unify.rs +++ b/crates/hir-ty/src/infer/unify.rs @@ -7,9 +7,8 @@ use hir_expand::name::Name; use intern::sym; use rustc_hash::FxHashSet; use rustc_type_ir::{ - DebruijnIndex, InferConst, InferTy, RegionVid, TyVid, TypeFoldable, TypeFolder, - TypeSuperFoldable, TypeVisitableExt, UpcastFrom, - inherent::{Const as _, IntoKind, Ty as _}, + TyVid, TypeFoldable, TypeVisitableExt, UpcastFrom, + inherent::{Const as _, GenericArg as _, IntoKind, SliceLike, Ty as _}, solve::{Certainty, GoalSource}, }; use smallvec::SmallVec; @@ -18,15 +17,14 @@ use triomphe::Arc; use crate::{ TraitEnvironment, db::HirDatabase, - infer::InferenceContext, next_solver::{ - self, AliasTy, Binder, Canonical, ClauseKind, Const, ConstKind, DbInterner, - ErrorGuaranteed, GenericArg, GenericArgs, Predicate, PredicateKind, Region, RegionKind, - SolverDefId, TraitRef, Ty, TyKind, TypingMode, + AliasTy, Canonical, ClauseKind, Const, DbInterner, ErrorGuaranteed, GenericArg, + GenericArgs, Goal, Predicate, PredicateKind, Region, SolverDefId, Term, TraitRef, Ty, + TyKind, TypingMode, fulfill::{FulfillmentCtxt, NextSolverError}, infer::{ DbInternerInferExt, InferCtxt, InferOk, InferResult, - at::ToTrace, + at::{At, ToTrace}, snapshot::CombinedSnapshot, traits::{Obligation, ObligationCause, PredicateObligation}, }, @@ -38,15 +36,6 @@ use crate::{ }, }; -impl<'db> InferenceContext<'_, 'db> { - pub(super) fn canonicalize(&mut self, t: T) -> rustc_type_ir::Canonical, T> - where - T: rustc_type_ir::TypeFoldable>, - { - self.table.canonicalize(t) - } -} - struct NestedObligationsForSelfTy<'a, 'db> { ctx: &'a InferenceTable<'db>, self_ty: TyVid, @@ -292,10 +281,7 @@ impl<'db> InferenceTable<'db> { T: TypeFoldable> + Clone, { let ty = self.resolve_vars_with_obligations(ty); - self.infer_ctxt - .at(&ObligationCause::new(), self.trait_env.env) - .deeply_normalize(ty.clone()) - .unwrap_or(ty) + self.at(&ObligationCause::new()).deeply_normalize(ty.clone()).unwrap_or(ty) } /// Works almost same as [`Self::normalize_associated_types_in`], but this also resolves shallow @@ -316,19 +302,19 @@ impl<'db> InferenceTable<'db> { .unwrap_or(alias) } - pub(crate) fn next_ty_var(&mut self) -> Ty<'db> { + pub(crate) fn next_ty_var(&self) -> Ty<'db> { self.infer_ctxt.next_ty_var() } - pub(crate) fn next_const_var(&mut self) -> Const<'db> { + pub(crate) fn next_const_var(&self) -> Const<'db> { self.infer_ctxt.next_const_var() } - pub(crate) fn next_int_var(&mut self) -> Ty<'db> { + pub(crate) fn next_int_var(&self) -> Ty<'db> { self.infer_ctxt.next_int_var() } - pub(crate) fn next_float_var(&mut self) -> Ty<'db> { + pub(crate) fn next_float_var(&self) -> Ty<'db> { self.infer_ctxt.next_float_var() } @@ -338,101 +324,12 @@ impl<'db> InferenceTable<'db> { var } - pub(crate) fn next_region_var(&mut self) -> Region<'db> { + pub(crate) fn next_region_var(&self) -> Region<'db> { self.infer_ctxt.next_region_var() } - pub(crate) fn next_var_for_param(&mut self, id: GenericParamId) -> GenericArg<'db> { - match id { - GenericParamId::TypeParamId(_) => self.next_ty_var().into(), - GenericParamId::ConstParamId(_) => self.next_const_var().into(), - GenericParamId::LifetimeParamId(_) => self.next_region_var().into(), - } - } - - pub(crate) fn resolve_with_fallback( - &mut self, - t: T, - fallback_ty: &mut dyn FnMut(DebruijnIndex, InferTy) -> Ty<'db>, - fallback_const: &mut dyn FnMut(DebruijnIndex, InferConst) -> Const<'db>, - fallback_region: &mut dyn FnMut(DebruijnIndex, RegionVid) -> Region<'db>, - ) -> T - where - T: TypeFoldable>, - { - struct Resolver<'a, 'db> { - table: &'a mut InferenceTable<'db>, - binder: DebruijnIndex, - fallback_ty: &'a mut dyn FnMut(DebruijnIndex, InferTy) -> Ty<'db>, - fallback_const: &'a mut dyn FnMut(DebruijnIndex, InferConst) -> Const<'db>, - fallback_region: &'a mut dyn FnMut(DebruijnIndex, RegionVid) -> Region<'db>, - } - - impl<'db> TypeFolder> for Resolver<'_, 'db> { - fn cx(&self) -> DbInterner<'db> { - self.table.interner() - } - - fn fold_binder(&mut self, t: Binder<'db, T>) -> Binder<'db, T> - where - T: TypeFoldable>, - { - self.binder.shift_in(1); - let result = t.super_fold_with(self); - self.binder.shift_out(1); - result - } - - fn fold_ty(&mut self, t: Ty<'db>) -> Ty<'db> { - if !t.has_infer() { - return t; - } - - if let TyKind::Infer(infer) = t.kind() { - (self.fallback_ty)(self.binder, infer) - } else { - t.super_fold_with(self) - } - } - - fn fold_const(&mut self, c: Const<'db>) -> Const<'db> { - if !c.has_infer() { - return c; - } - - if let ConstKind::Infer(infer) = c.kind() { - (self.fallback_const)(self.binder, infer) - } else { - c.super_fold_with(self) - } - } - - fn fold_region(&mut self, r: Region<'db>) -> Region<'db> { - if let RegionKind::ReVar(infer) = r.kind() { - (self.fallback_region)(self.binder, infer) - } else { - r - } - } - } - - t.fold_with(&mut Resolver { - table: self, - binder: DebruijnIndex::ZERO, - fallback_ty, - fallback_const, - fallback_region, - }) - } - - pub(crate) fn instantiate_canonical( - &mut self, - canonical: rustc_type_ir::Canonical, T>, - ) -> T - where - T: rustc_type_ir::TypeFoldable>, - { - self.infer_ctxt.instantiate_canonical(&canonical).0 + pub(crate) fn next_var_for_param(&self, id: GenericParamId) -> GenericArg<'db> { + self.infer_ctxt.next_var_for_param(id) } pub(crate) fn resolve_completely(&mut self, value: T) -> T @@ -456,7 +353,11 @@ impl<'db> InferenceTable<'db> { /// Unify two relatable values (e.g. `Ty`) and return new trait goals arising from it, so the /// caller needs to deal with them. pub(crate) fn try_unify>(&mut self, t1: T, t2: T) -> InferResult<'db, ()> { - self.infer_ctxt.at(&ObligationCause::new(), self.trait_env.env).eq(t1, t2) + self.at(&ObligationCause::new()).eq(t1, t2) + } + + pub(crate) fn at<'a>(&'a self, cause: &'a ObligationCause) -> At<'a, 'db> { + self.infer_ctxt.at(cause, self.trait_env.env) } pub(crate) fn shallow_resolve(&self, ty: Ty<'db>) -> Ty<'db> { @@ -486,15 +387,6 @@ impl<'db> InferenceTable<'db> { self.infer_ctxt.fresh_args_for_item(def) } - /// Like `fresh_args_for_item()`, but first uses the args from `first`. - pub(crate) fn fill_rest_fresh_args( - &self, - def_id: SolverDefId, - first: impl IntoIterator>, - ) -> GenericArgs<'db> { - self.infer_ctxt.fill_rest_fresh_args(def_id, first) - } - /// Try to resolve `ty` to a structural type, normalizing aliases. /// /// In case there is still ambiguity, the returned type may be an inference @@ -535,17 +427,6 @@ impl<'db> InferenceTable<'db> { self.fulfillment_cx = snapshot.obligations; } - #[tracing::instrument(skip_all)] - pub(crate) fn run_in_snapshot( - &mut self, - f: impl FnOnce(&mut InferenceTable<'db>) -> T, - ) -> T { - let snapshot = self.snapshot(); - let result = f(self); - self.rollback_to(snapshot); - result - } - pub(crate) fn commit_if_ok( &mut self, f: impl FnOnce(&mut InferenceTable<'db>) -> Result, @@ -566,22 +447,19 @@ impl<'db> InferenceTable<'db> { /// choice (during e.g. method resolution or deref). #[tracing::instrument(level = "debug", skip(self))] pub(crate) fn try_obligation(&mut self, predicate: Predicate<'db>) -> NextTraitSolveResult { - let goal = next_solver::Goal { param_env: self.trait_env.env, predicate }; + let goal = Goal { param_env: self.trait_env.env, predicate }; let canonicalized = self.canonicalize(goal); next_trait_solve_canonical_in_ctxt(&self.infer_ctxt, canonicalized) } pub(crate) fn register_obligation(&mut self, predicate: Predicate<'db>) { - let goal = next_solver::Goal { param_env: self.trait_env.env, predicate }; + let goal = Goal { param_env: self.trait_env.env, predicate }; self.register_obligation_in_env(goal) } #[tracing::instrument(level = "debug", skip(self))] - fn register_obligation_in_env( - &mut self, - goal: next_solver::Goal<'db, next_solver::Predicate<'db>>, - ) { + fn register_obligation_in_env(&mut self, goal: Goal<'db, Predicate<'db>>) { let result = next_trait_solve_in_ctxt(&self.infer_ctxt, goal); tracing::debug!(?result); match result { @@ -619,7 +497,7 @@ impl<'db> InferenceTable<'db> { self.fulfillment_cx.register_predicate_obligation(&self.infer_ctxt, obligation); } - pub(super) fn register_predicates(&mut self, obligations: I) + pub(crate) fn register_predicates(&mut self, obligations: I) where I: IntoIterator>, { @@ -628,6 +506,23 @@ impl<'db> InferenceTable<'db> { }); } + /// checking later, during regionck, that `arg` is well-formed. + pub(crate) fn register_wf_obligation(&mut self, term: Term<'db>, cause: ObligationCause) { + self.register_predicate(Obligation::new( + self.interner(), + cause, + self.trait_env.env, + ClauseKind::WellFormed(term), + )); + } + + /// Registers obligations that all `args` are well-formed. + pub(crate) fn add_wf_bounds(&mut self, args: GenericArgs<'db>) { + for term in args.iter().filter_map(|it| it.as_term()) { + self.register_wf_obligation(term, ObligationCause::new()); + } + } + pub(crate) fn callable_sig( &mut self, ty: Ty<'db>, @@ -714,26 +609,20 @@ impl<'db> InferenceTable<'db> { } /// Whenever you lower a user-written type, you should call this. - pub(crate) fn process_user_written_ty(&mut self, ty: T) -> T - where - T: TypeFoldable>, - { + pub(crate) fn process_user_written_ty(&mut self, ty: Ty<'db>) -> Ty<'db> { self.process_remote_user_written_ty(ty) // FIXME: Register a well-formed obligation. } /// The difference of this method from `process_user_written_ty()` is that this method doesn't register a well-formed obligation, /// while `process_user_written_ty()` should (but doesn't currently). - pub(crate) fn process_remote_user_written_ty(&mut self, ty: T) -> T - where - T: TypeFoldable>, - { + pub(crate) fn process_remote_user_written_ty(&mut self, ty: Ty<'db>) -> Ty<'db> { let ty = self.insert_type_vars(ty); // See https://github.com/rust-lang/rust/blob/cdb45c87e2cd43495379f7e867e3cc15dcee9f93/compiler/rustc_hir_typeck/src/fn_ctxt/mod.rs#L487-L495: // Even though the new solver only lazily normalizes usually, here we eagerly normalize so that not everything needs // to normalize before inspecting the `TyKind`. // FIXME(next-solver): We should not deeply normalize here, only shallowly. - self.normalize_associated_types_in(ty) + self.try_structurally_resolve_type(ty) } /// Replaces ConstScalar::Unknown by a new type var, so we can maybe still infer it. @@ -852,7 +741,7 @@ mod resolve_completely { { let value = if self.should_normalize { let cause = ObligationCause::new(); - let at = self.ctx.infer_ctxt.at(&cause, self.ctx.trait_env.env); + let at = self.ctx.at(&cause); let universes = vec![None; outer_exclusive_binder(value).as_usize()]; match deeply_normalize_with_skipped_universes_and_ambiguous_coroutine_goals( at, value, universes, diff --git a/crates/hir-ty/src/lang_items.rs b/crates/hir-ty/src/lang_items.rs index 3ef7f50c9a2e..d0d0aa7a9039 100644 --- a/crates/hir-ty/src/lang_items.rs +++ b/crates/hir-ty/src/lang_items.rs @@ -1,8 +1,7 @@ //! Functions to detect special lang items use hir_def::{AdtId, lang_item::LangItem, signatures::StructFlags}; -use hir_expand::name::Name; -use intern::sym; +use intern::{Symbol, sym}; use crate::db::HirDatabase; @@ -11,48 +10,48 @@ pub fn is_box(db: &dyn HirDatabase, adt: AdtId) -> bool { db.struct_signature(id).flags.contains(StructFlags::IS_BOX) } -pub fn lang_items_for_bin_op(op: syntax::ast::BinaryOp) -> Option<(Name, LangItem)> { +pub fn lang_items_for_bin_op(op: syntax::ast::BinaryOp) -> Option<(Symbol, LangItem)> { use syntax::ast::{ArithOp, BinaryOp, CmpOp, Ordering}; Some(match op { BinaryOp::LogicOp(_) => return None, BinaryOp::ArithOp(aop) => match aop { - ArithOp::Add => (Name::new_symbol_root(sym::add), LangItem::Add), - ArithOp::Mul => (Name::new_symbol_root(sym::mul), LangItem::Mul), - ArithOp::Sub => (Name::new_symbol_root(sym::sub), LangItem::Sub), - ArithOp::Div => (Name::new_symbol_root(sym::div), LangItem::Div), - ArithOp::Rem => (Name::new_symbol_root(sym::rem), LangItem::Rem), - ArithOp::Shl => (Name::new_symbol_root(sym::shl), LangItem::Shl), - ArithOp::Shr => (Name::new_symbol_root(sym::shr), LangItem::Shr), - ArithOp::BitXor => (Name::new_symbol_root(sym::bitxor), LangItem::BitXor), - ArithOp::BitOr => (Name::new_symbol_root(sym::bitor), LangItem::BitOr), - ArithOp::BitAnd => (Name::new_symbol_root(sym::bitand), LangItem::BitAnd), + ArithOp::Add => (sym::add, LangItem::Add), + ArithOp::Mul => (sym::mul, LangItem::Mul), + ArithOp::Sub => (sym::sub, LangItem::Sub), + ArithOp::Div => (sym::div, LangItem::Div), + ArithOp::Rem => (sym::rem, LangItem::Rem), + ArithOp::Shl => (sym::shl, LangItem::Shl), + ArithOp::Shr => (sym::shr, LangItem::Shr), + ArithOp::BitXor => (sym::bitxor, LangItem::BitXor), + ArithOp::BitOr => (sym::bitor, LangItem::BitOr), + ArithOp::BitAnd => (sym::bitand, LangItem::BitAnd), }, BinaryOp::Assignment { op: Some(aop) } => match aop { - ArithOp::Add => (Name::new_symbol_root(sym::add_assign), LangItem::AddAssign), - ArithOp::Mul => (Name::new_symbol_root(sym::mul_assign), LangItem::MulAssign), - ArithOp::Sub => (Name::new_symbol_root(sym::sub_assign), LangItem::SubAssign), - ArithOp::Div => (Name::new_symbol_root(sym::div_assign), LangItem::DivAssign), - ArithOp::Rem => (Name::new_symbol_root(sym::rem_assign), LangItem::RemAssign), - ArithOp::Shl => (Name::new_symbol_root(sym::shl_assign), LangItem::ShlAssign), - ArithOp::Shr => (Name::new_symbol_root(sym::shr_assign), LangItem::ShrAssign), - ArithOp::BitXor => (Name::new_symbol_root(sym::bitxor_assign), LangItem::BitXorAssign), - ArithOp::BitOr => (Name::new_symbol_root(sym::bitor_assign), LangItem::BitOrAssign), - ArithOp::BitAnd => (Name::new_symbol_root(sym::bitand_assign), LangItem::BitAndAssign), + ArithOp::Add => (sym::add_assign, LangItem::AddAssign), + ArithOp::Mul => (sym::mul_assign, LangItem::MulAssign), + ArithOp::Sub => (sym::sub_assign, LangItem::SubAssign), + ArithOp::Div => (sym::div_assign, LangItem::DivAssign), + ArithOp::Rem => (sym::rem_assign, LangItem::RemAssign), + ArithOp::Shl => (sym::shl_assign, LangItem::ShlAssign), + ArithOp::Shr => (sym::shr_assign, LangItem::ShrAssign), + ArithOp::BitXor => (sym::bitxor_assign, LangItem::BitXorAssign), + ArithOp::BitOr => (sym::bitor_assign, LangItem::BitOrAssign), + ArithOp::BitAnd => (sym::bitand_assign, LangItem::BitAndAssign), }, BinaryOp::CmpOp(cop) => match cop { - CmpOp::Eq { negated: false } => (Name::new_symbol_root(sym::eq), LangItem::PartialEq), - CmpOp::Eq { negated: true } => (Name::new_symbol_root(sym::ne), LangItem::PartialEq), + CmpOp::Eq { negated: false } => (sym::eq, LangItem::PartialEq), + CmpOp::Eq { negated: true } => (sym::ne, LangItem::PartialEq), CmpOp::Ord { ordering: Ordering::Less, strict: false } => { - (Name::new_symbol_root(sym::le), LangItem::PartialOrd) + (sym::le, LangItem::PartialOrd) } CmpOp::Ord { ordering: Ordering::Less, strict: true } => { - (Name::new_symbol_root(sym::lt), LangItem::PartialOrd) + (sym::lt, LangItem::PartialOrd) } CmpOp::Ord { ordering: Ordering::Greater, strict: false } => { - (Name::new_symbol_root(sym::ge), LangItem::PartialOrd) + (sym::ge, LangItem::PartialOrd) } CmpOp::Ord { ordering: Ordering::Greater, strict: true } => { - (Name::new_symbol_root(sym::gt), LangItem::PartialOrd) + (sym::gt, LangItem::PartialOrd) } }, BinaryOp::Assignment { op: None } => return None, diff --git a/crates/hir-ty/src/lib.rs b/crates/hir-ty/src/lib.rs index fdacc1d899dc..b29c7d252b50 100644 --- a/crates/hir-ty/src/lib.rs +++ b/crates/hir-ty/src/lib.rs @@ -89,13 +89,12 @@ pub use infer::{ could_coerce, could_unify, could_unify_deeply, }; pub use lower::{ - LifetimeElisionKind, TyDefId, TyLoweringContext, ValueTyDefId, + GenericPredicates, ImplTraits, LifetimeElisionKind, TyDefId, TyLoweringContext, ValueTyDefId, associated_type_shorthand_candidates, diagnostics::*, }; -pub use method_resolution::check_orphan_rules; pub use next_solver::interner::{attach_db, attach_db_allow_change, with_attached_db}; pub use target_feature::TargetFeatures; -pub use traits::TraitEnvironment; +pub use traits::{TraitEnvironment, check_orphan_rules}; pub use utils::{ TargetFeatureIsSafeInTarget, Unsafety, all_super_traits, direct_super_traits, is_fn_unsafe_to_call, target_feature_is_safe_in_target, diff --git a/crates/hir-ty/src/lower.rs b/crates/hir-ty/src/lower.rs index a181ae0157cc..63a50a59eeae 100644 --- a/crates/hir-ty/src/lower.rs +++ b/crates/hir-ty/src/lower.rs @@ -8,12 +8,9 @@ pub(crate) mod diagnostics; pub(crate) mod path; -use std::{ - cell::OnceCell, - iter, mem, - ops::{self, Deref, Not as _}, -}; +use std::{cell::OnceCell, iter, mem}; +use arrayvec::ArrayVec; use base_db::Crate; use either::Either; use hir_def::{ @@ -45,7 +42,7 @@ use rustc_type_ir::{ AliasTyKind, BoundVarIndexKind, ConstKind, DebruijnIndex, ExistentialPredicate, ExistentialProjection, ExistentialTraitRef, FnSig, OutlivesPredicate, TyKind::{self}, - TypeVisitableExt, + TypeVisitableExt, Upcast, inherent::{GenericArg as _, GenericArgs as _, IntoKind as _, Region as _, SliceLike, Ty as _}, }; use salsa::plumbing::AsId; @@ -56,7 +53,7 @@ use triomphe::{Arc, ThinArc}; use crate::{ FnAbi, ImplTraitId, TraitEnvironment, TyLoweringDiagnostic, TyLoweringDiagnosticKind, consteval::intern_const_ref, - db::HirDatabase, + db::{HirDatabase, InternedOpaqueTyId}, generics::{Generics, generics, trait_self_param_idx}, next_solver::{ AliasTy, Binder, BoundExistentialPredicates, Clause, Clauses, Const, DbInterner, @@ -75,7 +72,7 @@ pub struct ImplTraits<'db> { #[derive(PartialEq, Eq, Debug, Hash)] pub struct ImplTrait<'db> { - pub(crate) predicates: Vec>, + pub(crate) predicates: Box<[Clause<'db>]>, } pub type ImplTraitIdx<'db> = Idx>; @@ -473,7 +470,7 @@ impl<'db, 'a> TyLoweringContext<'db, 'a> { let idx = self .impl_trait_mode .opaque_type_data - .alloc(ImplTrait { predicates: Vec::default() }); + .alloc(ImplTrait { predicates: Box::default() }); let impl_trait_id = origin.either( |f| ImplTraitId::ReturnTypeImplTrait(f, idx), @@ -916,8 +913,7 @@ impl<'db, 'a> TyLoweringContext<'db, 'a> { }); predicates.extend(sized_clause); } - predicates.shrink_to_fit(); - predicates + predicates.into_boxed_slice() }); ImplTrait { predicates } } @@ -982,50 +978,89 @@ pub(crate) fn impl_trait_with_diagnostics_query<'db>( Some((trait_ref, create_diagnostics(ctx.diagnostics))) } -pub(crate) fn return_type_impl_traits<'db>( - db: &'db dyn HirDatabase, - def: hir_def::FunctionId, -) -> Option>>> { - // FIXME unify with fn_sig_for_fn instead of doing lowering twice, maybe - let data = db.function_signature(def); - let resolver = def.resolver(db); - let mut ctx_ret = - TyLoweringContext::new(db, &resolver, &data.store, def.into(), LifetimeElisionKind::Infer) - .with_impl_trait_mode(ImplTraitLoweringMode::Opaque); - if let Some(ret_type) = data.ret_type { - let _ret = ctx_ret.lower_ty(ret_type); +impl<'db> ImplTraitId<'db> { + #[inline] + pub fn predicates(self, db: &'db dyn HirDatabase) -> EarlyBinder<'db, &'db [Clause<'db>]> { + let (impl_traits, idx) = match self { + ImplTraitId::ReturnTypeImplTrait(owner, idx) => { + (ImplTraits::return_type_impl_traits(db, owner), idx) + } + ImplTraitId::TypeAliasImplTrait(owner, idx) => { + (ImplTraits::type_alias_impl_traits(db, owner), idx) + } + }; + impl_traits + .as_deref() + .expect("owner should have opaque type") + .as_ref() + .map_bound(|it| &*it.impl_traits[idx].predicates) } - let return_type_impl_traits = - ImplTraits { impl_traits: ctx_ret.impl_trait_mode.opaque_type_data }; - if return_type_impl_traits.impl_traits.is_empty() { - None - } else { - Some(Arc::new(EarlyBinder::bind(return_type_impl_traits))) +} + +impl InternedOpaqueTyId { + #[inline] + pub fn predicates<'db>(self, db: &'db dyn HirDatabase) -> EarlyBinder<'db, &'db [Clause<'db>]> { + self.loc(db).predicates(db) } } -pub(crate) fn type_alias_impl_traits<'db>( - db: &'db dyn HirDatabase, - def: hir_def::TypeAliasId, -) -> Option>>> { - let data = db.type_alias_signature(def); - let resolver = def.resolver(db); - let mut ctx = TyLoweringContext::new( - db, - &resolver, - &data.store, - def.into(), - LifetimeElisionKind::AnonymousReportError, - ) - .with_impl_trait_mode(ImplTraitLoweringMode::Opaque); - if let Some(type_ref) = data.ty { - let _ty = ctx.lower_ty(type_ref); +#[salsa::tracked] +impl<'db> ImplTraits<'db> { + #[salsa::tracked(returns(ref), unsafe(non_update_return_type))] + pub(crate) fn return_type_impl_traits( + db: &'db dyn HirDatabase, + def: hir_def::FunctionId, + ) -> Option>>> { + // FIXME unify with fn_sig_for_fn instead of doing lowering twice, maybe + let data = db.function_signature(def); + let resolver = def.resolver(db); + let mut ctx_ret = TyLoweringContext::new( + db, + &resolver, + &data.store, + def.into(), + LifetimeElisionKind::Infer, + ) + .with_impl_trait_mode(ImplTraitLoweringMode::Opaque); + if let Some(ret_type) = data.ret_type { + let _ret = ctx_ret.lower_ty(ret_type); + } + let mut return_type_impl_traits = + ImplTraits { impl_traits: ctx_ret.impl_trait_mode.opaque_type_data }; + if return_type_impl_traits.impl_traits.is_empty() { + None + } else { + return_type_impl_traits.impl_traits.shrink_to_fit(); + Some(Box::new(EarlyBinder::bind(return_type_impl_traits))) + } } - let type_alias_impl_traits = ImplTraits { impl_traits: ctx.impl_trait_mode.opaque_type_data }; - if type_alias_impl_traits.impl_traits.is_empty() { - None - } else { - Some(Arc::new(EarlyBinder::bind(type_alias_impl_traits))) + + #[salsa::tracked(returns(ref), unsafe(non_update_return_type))] + pub(crate) fn type_alias_impl_traits( + db: &'db dyn HirDatabase, + def: hir_def::TypeAliasId, + ) -> Option>>> { + let data = db.type_alias_signature(def); + let resolver = def.resolver(db); + let mut ctx = TyLoweringContext::new( + db, + &resolver, + &data.store, + def.into(), + LifetimeElisionKind::AnonymousReportError, + ) + .with_impl_trait_mode(ImplTraitLoweringMode::Opaque); + if let Some(type_ref) = data.ty { + let _ty = ctx.lower_ty(type_ref); + } + let mut type_alias_impl_traits = + ImplTraits { impl_traits: ctx.impl_trait_mode.opaque_type_data }; + if type_alias_impl_traits.impl_traits.is_empty() { + None + } else { + type_alias_impl_traits.impl_traits.shrink_to_fit(); + Some(Box::new(EarlyBinder::bind(type_alias_impl_traits))) + } } } @@ -1331,12 +1366,13 @@ pub(crate) fn field_types_with_diagnostics_query<'db>( /// following bounds are disallowed: `T: Foo, U: Foo`, but /// these are fine: `T: Foo, U: Foo<()>`. #[tracing::instrument(skip(db), ret)] -pub(crate) fn generic_predicates_for_param_query<'db>( +#[salsa::tracked(returns(ref), unsafe(non_update_return_type), cycle_result = generic_predicates_for_param_cycle_result)] +pub(crate) fn generic_predicates_for_param<'db>( db: &'db dyn HirDatabase, def: GenericDefId, param_id: TypeOrConstParamId, assoc_name: Option, -) -> GenericPredicates<'db> { +) -> EarlyBinder<'db, Box<[Clause<'db>]>> { let generics = generics(db, def); let interner = DbInterner::new_with(db, None, None); let resolver = def.resolver(db); @@ -1436,44 +1472,140 @@ pub(crate) fn generic_predicates_for_param_query<'db>( predicates.extend(implicitly_sized_predicates); }; } - GenericPredicates(predicates.is_empty().not().then(|| predicates.into())) + EarlyBinder::bind(predicates.into_boxed_slice()) } -pub(crate) fn generic_predicates_for_param_cycle_result( - _db: &dyn HirDatabase, +pub(crate) fn generic_predicates_for_param_cycle_result<'db>( + _db: &'db dyn HirDatabase, _def: GenericDefId, _param_id: TypeOrConstParamId, _assoc_name: Option, -) -> GenericPredicates<'_> { - GenericPredicates(None) +) -> EarlyBinder<'db, Box<[Clause<'db>]>> { + EarlyBinder::bind(Box::new([])) +} + +#[inline] +pub(crate) fn type_alias_bounds<'db>( + db: &'db dyn HirDatabase, + type_alias: TypeAliasId, +) -> EarlyBinder<'db, &'db [Clause<'db>]> { + type_alias_bounds_with_diagnostics(db, type_alias).0.as_ref().map_bound(|it| &**it) +} + +#[salsa::tracked(returns(ref), unsafe(non_update_return_type))] +pub fn type_alias_bounds_with_diagnostics<'db>( + db: &'db dyn HirDatabase, + type_alias: TypeAliasId, +) -> (EarlyBinder<'db, Box<[Clause<'db>]>>, Diagnostics) { + let type_alias_data = db.type_alias_signature(type_alias); + let resolver = hir_def::resolver::HasResolver::resolver(type_alias, db); + let mut ctx = TyLoweringContext::new( + db, + &resolver, + &type_alias_data.store, + type_alias.into(), + LifetimeElisionKind::AnonymousReportError, + ); + let interner = ctx.interner; + let def_id = type_alias.into(); + + let item_args = GenericArgs::identity_for_item(interner, def_id); + let interner_ty = Ty::new_projection_from_args(interner, def_id, item_args); + + let mut bounds = Vec::new(); + for bound in &type_alias_data.bounds { + ctx.lower_type_bound(bound, interner_ty, false).for_each(|pred| { + bounds.push(pred); + }); + } + + if !ctx.unsized_types.contains(&interner_ty) { + let sized_trait = LangItem::Sized + .resolve_trait(ctx.db, interner.krate.expect("Must have interner.krate")); + if let Some(sized_trait) = sized_trait { + let trait_ref = TraitRef::new_from_args( + interner, + sized_trait.into(), + GenericArgs::new_from_iter(interner, [interner_ty.into()]), + ); + bounds.push(trait_ref.upcast(interner)); + }; + } + + (EarlyBinder::bind(bounds.into_boxed_slice()), create_diagnostics(ctx.diagnostics)) } #[derive(Debug, Clone, PartialEq, Eq, Hash)] -pub struct GenericPredicates<'db>(Option]>>); +pub struct GenericPredicates<'db> { + // The order is the following: first, if `parent_is_trait == true`, comes the implicit trait predicate for the + // parent. Then come the explicit predicates for the parent, then the explicit trait predicate for the child, + // then the implicit trait predicate for the child, if `is_trait` is `true`. + predicates: EarlyBinder<'db, Box<[Clause<'db>]>>, + own_predicates_start: u32, + is_trait: bool, + parent_is_trait: bool, +} + +#[salsa::tracked] +impl<'db> GenericPredicates<'db> { + /// Resolve the where clause(s) of an item with generics. + /// + /// Diagnostics are computed only for this item's predicates, not for parents. + #[salsa::tracked(returns(ref), unsafe(non_update_return_type))] + pub fn query_with_diagnostics( + db: &'db dyn HirDatabase, + def: GenericDefId, + ) -> (GenericPredicates<'db>, Diagnostics) { + generic_predicates_filtered_by(db, def, PredicateFilter::All, |_| true) + } +} impl<'db> GenericPredicates<'db> { #[inline] - pub fn instantiate( - &self, - interner: DbInterner<'db>, - args: GenericArgs<'db>, - ) -> Option>> { - self.0 - .as_ref() - .map(|it| EarlyBinder::bind(it.iter().copied()).iter_instantiated(interner, args)) + pub fn query(db: &'db dyn HirDatabase, def: GenericDefId) -> &'db GenericPredicates<'db> { + &Self::query_with_diagnostics(db, def).0 } #[inline] - pub fn instantiate_identity(&self) -> Option>> { - self.0.as_ref().map(|it| it.iter().copied()) + pub fn query_all( + db: &'db dyn HirDatabase, + def: GenericDefId, + ) -> EarlyBinder<'db, &'db [Clause<'db>]> { + Self::query(db, def).all_predicates() + } + + #[inline] + pub fn query_own( + db: &'db dyn HirDatabase, + def: GenericDefId, + ) -> EarlyBinder<'db, &'db [Clause<'db>]> { + Self::query(db, def).own_predicates() + } + + #[inline] + pub fn query_explicit( + db: &'db dyn HirDatabase, + def: GenericDefId, + ) -> EarlyBinder<'db, &'db [Clause<'db>]> { + Self::query(db, def).explicit_predicates() } -} -impl<'db> ops::Deref for GenericPredicates<'db> { - type Target = [Clause<'db>]; + #[inline] + pub fn all_predicates(&self) -> EarlyBinder<'db, &[Clause<'db>]> { + self.predicates.as_ref().map_bound(|it| &**it) + } - fn deref(&self) -> &Self::Target { - self.0.as_deref().unwrap_or(&[]) + #[inline] + pub fn own_predicates(&self) -> EarlyBinder<'db, &[Clause<'db>]> { + self.predicates.as_ref().map_bound(|it| &it[self.own_predicates_start as usize..]) + } + + /// Returns the predicates, minus the implicit `Self: Trait` predicate for a trait. + #[inline] + pub fn explicit_predicates(&self) -> EarlyBinder<'db, &[Clause<'db>]> { + self.predicates.as_ref().map_bound(|it| { + &it[usize::from(self.parent_is_trait)..it.len() - usize::from(self.is_trait)] + }) } } @@ -1591,37 +1723,12 @@ pub(crate) fn trait_environment_query<'db>( TraitEnvironment::new(resolver.krate(), None, traits_in_scope.into_boxed_slice(), env) } -#[derive(Copy, Clone, Debug)] +#[derive(Copy, Clone, Debug, PartialEq, Eq)] pub(crate) enum PredicateFilter { SelfTrait, All, } -/// Resolve the where clause(s) of an item with generics. -#[tracing::instrument(skip(db))] -pub(crate) fn generic_predicates_query<'db>( - db: &'db dyn HirDatabase, - def: GenericDefId, -) -> GenericPredicates<'db> { - generic_predicates_filtered_by(db, def, PredicateFilter::All, |_| true).0 -} - -pub(crate) fn generic_predicates_without_parent_query<'db>( - db: &'db dyn HirDatabase, - def: GenericDefId, -) -> GenericPredicates<'db> { - generic_predicates_filtered_by(db, def, PredicateFilter::All, |d| d == def).0 -} - -/// Resolve the where clause(s) of an item with generics, -/// except the ones inherited from the parent -pub(crate) fn generic_predicates_without_parent_with_diagnostics_query<'db>( - db: &'db dyn HirDatabase, - def: GenericDefId, -) -> (GenericPredicates<'db>, Diagnostics) { - generic_predicates_filtered_by(db, def, PredicateFilter::All, |d| d == def) -} - /// Resolve the where clause(s) of an item with generics, /// with a given filter #[tracing::instrument(skip(db, filter), ret)] @@ -1644,15 +1751,35 @@ where def, LifetimeElisionKind::AnonymousReportError, ); + let sized_trait = LangItem::Sized.resolve_trait(db, resolver.krate()); let mut predicates = Vec::new(); - for maybe_parent_generics in + let all_generics = std::iter::successors(Some(&generics), |generics| generics.parent_generics()) - { - ctx.store = maybe_parent_generics.store(); - for pred in maybe_parent_generics.where_predicates() { - tracing::debug!(?pred); - if filter(maybe_parent_generics.def()) { + .collect::>(); + let mut is_trait = false; + let mut parent_is_trait = false; + if all_generics.len() > 1 { + add_implicit_trait_predicate( + interner, + all_generics.last().unwrap().def(), + predicate_filter, + &mut predicates, + &mut parent_is_trait, + ); + } + // We need to lower parent predicates first - see the comment below lowering of implicit `Sized` predicates + // for why. + let mut own_predicates_start = 0; + for &maybe_parent_generics in all_generics.iter().rev() { + let current_def_predicates_start = predicates.len(); + // Collect only diagnostics from the child, not including parents. + ctx.diagnostics.clear(); + + if filter(maybe_parent_generics.def()) { + ctx.store = maybe_parent_generics.store(); + for pred in maybe_parent_generics.where_predicates() { + tracing::debug!(?pred); predicates.extend(ctx.lower_where_predicate( pred, false, @@ -1660,66 +1787,110 @@ where predicate_filter, )); } - } - } - let explicitly_unsized_tys = ctx.unsized_types; + if let Some(sized_trait) = sized_trait { + let mut add_sized_clause = |param_idx, param_id, param_data| { + let ( + GenericParamId::TypeParamId(param_id), + GenericParamDataRef::TypeParamData(param_data), + ) = (param_id, param_data) + else { + return; + }; - let sized_trait = LangItem::Sized.resolve_trait(db, resolver.krate()); - if let Some(sized_trait) = sized_trait { - let mut add_sized_clause = |param_idx, param_id, param_data| { - let ( - GenericParamId::TypeParamId(param_id), - GenericParamDataRef::TypeParamData(param_data), - ) = (param_id, param_data) - else { - return; - }; + if param_data.provenance == TypeParamProvenance::TraitSelf { + return; + } - if param_data.provenance == TypeParamProvenance::TraitSelf { - return; + let param_ty = Ty::new_param(interner, param_id, param_idx); + if ctx.unsized_types.contains(¶m_ty) { + return; + } + let trait_ref = TraitRef::new_from_args( + interner, + sized_trait.into(), + GenericArgs::new_from_iter(interner, [param_ty.into()]), + ); + let clause = Clause(Predicate::new( + interner, + Binder::dummy(rustc_type_ir::PredicateKind::Clause( + rustc_type_ir::ClauseKind::Trait(TraitPredicate { + trait_ref, + polarity: rustc_type_ir::PredicatePolarity::Positive, + }), + )), + )); + predicates.push(clause); + }; + if generics.parent_generics().is_some_and(|parent| filter(parent.def())) { + generics.iter_parent().enumerate().for_each( + |(param_idx, (param_id, param_data))| { + add_sized_clause(param_idx as u32, param_id, param_data); + }, + ); + } + if filter(def) { + let parent_params_len = generics.len_parent(); + generics.iter_self().enumerate().for_each( + |(param_idx, (param_id, param_data))| { + add_sized_clause( + (param_idx + parent_params_len) as u32, + param_id, + param_data, + ); + }, + ); + } } - let param_ty = Ty::new_param(interner, param_id, param_idx); - if explicitly_unsized_tys.contains(¶m_ty) { - return; - } - let trait_ref = TraitRef::new_from_args( - interner, - sized_trait.into(), - GenericArgs::new_from_iter(interner, [param_ty.into()]), - ); - let clause = Clause(Predicate::new( - interner, - Binder::dummy(rustc_type_ir::PredicateKind::Clause( - rustc_type_ir::ClauseKind::Trait(TraitPredicate { - trait_ref, - polarity: rustc_type_ir::PredicatePolarity::Positive, - }), - )), - )); - predicates.push(clause); - }; - if generics.parent_generics().is_some_and(|parent| filter(parent.def())) { - generics.iter_parent().enumerate().for_each(|(param_idx, (param_id, param_data))| { - add_sized_clause(param_idx as u32, param_id, param_data); - }); + // We do not clear `ctx.unsized_types`, as the `?Sized` clause of a child (e.g. an associated type) can + // be declared on the parent (e.g. the trait). It is nevertheless fine to register the implicit `Sized` + // predicates before lowering the child, as a child cannot define a `?Sized` predicate for its parent. + // But we do have to lower the parent first. } - if filter(def) { - let parent_params_len = generics.len_parent(); - generics.iter_self().enumerate().for_each(|(param_idx, (param_id, param_data))| { - add_sized_clause((param_idx + parent_params_len) as u32, param_id, param_data); - }); + + if maybe_parent_generics.def() == def { + own_predicates_start = current_def_predicates_start as u32; } } - // FIXME: rustc gathers more predicates by recursing through resulting trait predicates. - // See https://github.com/rust-lang/rust/blob/76c5ed2847cdb26ef2822a3a165d710f6b772217/compiler/rustc_hir_analysis/src/collect/predicates_of.rs#L689-L715 + add_implicit_trait_predicate(interner, def, predicate_filter, &mut predicates, &mut is_trait); - ( - GenericPredicates(predicates.is_empty().not().then(|| predicates.into())), - create_diagnostics(ctx.diagnostics), - ) + let diagnostics = create_diagnostics(ctx.diagnostics); + let predicates = GenericPredicates { + own_predicates_start, + is_trait, + parent_is_trait, + predicates: EarlyBinder::bind(predicates.into_boxed_slice()), + }; + return (predicates, diagnostics); + + fn add_implicit_trait_predicate<'db>( + interner: DbInterner<'db>, + def: GenericDefId, + predicate_filter: PredicateFilter, + predicates: &mut Vec>, + set_is_trait: &mut bool, + ) { + // For traits, add `Self: Trait` predicate. This is + // not part of the predicates that a user writes, but it + // is something that one must prove in order to invoke a + // method or project an associated type. + // + // In the chalk setup, this predicate is not part of the + // "predicates" for a trait item. But it is useful in + // rustc because if you directly (e.g.) invoke a trait + // method like `Trait::method(...)`, you must naturally + // prove that the trait applies to the types that were + // used, and adding the predicate into this list ensures + // that this is done. + if let GenericDefId::TraitId(def_id) = def + && predicate_filter == PredicateFilter::All + { + *set_is_trait = true; + predicates.push(TraitRef::identity(interner, def_id.into()).upcast(interner)); + } + } } /// Generate implicit `: Sized` predicates for all generics that has no `?Sized` bound. @@ -2112,7 +2283,8 @@ fn named_associated_type_shorthand_candidates<'db, R>( |pred| pred != def && pred == GenericDefId::TraitId(trait_ref.def_id.0), ) .0 - .deref() + .predicates + .instantiate_identity() { tracing::debug!(?pred); let sup_trait_ref = match pred.kind().skip_binder() { @@ -2158,10 +2330,11 @@ fn named_associated_type_shorthand_candidates<'db, R>( } let predicates = - db.generic_predicates_for_param(def, param_id.into(), assoc_name.clone()); + generic_predicates_for_param(db, def, param_id.into(), assoc_name.clone()); predicates - .iter() - .find_map(|pred| match (*pred).kind().skip_binder() { + .as_ref() + .iter_identity_copied() + .find_map(|pred| match pred.kind().skip_binder() { rustc_type_ir::ClauseKind::Trait(trait_predicate) => Some(trait_predicate), _ => None, }) diff --git a/crates/hir-ty/src/lower/path.rs b/crates/hir-ty/src/lower/path.rs index 9ba0da6f4964..6d3ce74aed9b 100644 --- a/crates/hir-ty/src/lower/path.rs +++ b/crates/hir-ty/src/lower/path.rs @@ -774,7 +774,7 @@ impl<'a, 'b, 'db> PathLoweringContext<'a, 'b, 'db> { } } - fn parent_arg(&mut self, param_id: GenericParamId) -> GenericArg<'db> { + fn parent_arg(&mut self, _param_idx: u32, param_id: GenericParamId) -> GenericArg<'db> { match param_id { GenericParamId::TypeParamId(_) => { Ty::new_error(self.ctx.ctx.interner, ErrorGuaranteed).into() @@ -992,7 +992,7 @@ pub(crate) trait GenericArgsLowerer<'db> { preceding_args: &[GenericArg<'db>], ) -> GenericArg<'db>; - fn parent_arg(&mut self, param_id: GenericParamId) -> GenericArg<'db>; + fn parent_arg(&mut self, param_idx: u32, param_id: GenericParamId) -> GenericArg<'db>; } /// Returns true if there was an error. @@ -1129,7 +1129,9 @@ pub(crate) fn substs_from_args_and_bindings<'db>( let mut substs = Vec::with_capacity(def_generics.len()); - substs.extend(def_generics.iter_parent_id().map(|id| ctx.parent_arg(id))); + substs.extend( + def_generics.iter_parent_id().enumerate().map(|(idx, id)| ctx.parent_arg(idx as u32, id)), + ); let mut args = args_slice.iter().enumerate().peekable(); let mut params = def_generics.iter_self().peekable(); diff --git a/crates/hir-ty/src/method_resolution.rs b/crates/hir-ty/src/method_resolution.rs index 1e3089736205..799bfb3b4d15 100644 --- a/crates/hir-ty/src/method_resolution.rs +++ b/crates/hir-ty/src/method_resolution.rs @@ -2,683 +2,349 @@ //! For details about how this works in rustc, see the method lookup page in the //! [rustc guide](https://rust-lang.github.io/rustc-guide/method-lookup.html) //! and the corresponding code mostly in rustc_hir_analysis/check/method/probe.rs. -use std::ops::ControlFlow; + +mod confirm; +mod probe; + +use either::Either; +use hir_expand::name::Name; +use span::Edition; +use tracing::{debug, instrument}; use base_db::Crate; use hir_def::{ - AdtId, AssocItemId, BlockId, ConstId, FunctionId, HasModule, ImplId, ItemContainerId, Lookup, - ModuleId, TraitId, TypeAliasId, + AssocItemId, BlockId, ConstId, FunctionId, GenericParamId, HasModule, ImplId, ItemContainerId, + ModuleId, TraitId, + expr_store::path::GenericArgs as HirGenericArgs, + hir::ExprId, nameres::{DefMap, block_def_map, crate_def_map}, - signatures::{ConstFlags, EnumFlags, FnFlags, StructFlags, TraitFlags, TypeAliasFlags}, + resolver::Resolver, }; -use hir_expand::name::Name; -use intern::sym; -use rustc_ast_ir::Mutability; +use intern::{Symbol, sym}; use rustc_hash::{FxHashMap, FxHashSet}; use rustc_type_ir::{ - FloatTy, IntTy, TypeVisitableExt, UintTy, - inherent::{ - AdtDef, BoundExistentialPredicates, GenericArgs as _, IntoKind, SliceLike, Ty as _, - }, + TypeVisitableExt, + fast_reject::{TreatParams, simplify_type}, + inherent::{BoundExistentialPredicates, IntoKind, SliceLike}, }; -use smallvec::{SmallVec, smallvec}; -use stdx::never; +use stdx::impl_from; use triomphe::Arc; use crate::{ - TraitEnvironment, - autoderef::{self, AutoderefKind}, + TraitEnvironment, all_super_traits, db::HirDatabase, - infer::{Adjust, Adjustment, OverloadedDeref, PointerCast, unify::InferenceTable}, - lang_items::is_box, + infer::{InferenceContext, unify::InferenceTable}, + lower::GenericPredicates, next_solver::{ - Canonical, DbInterner, ErrorGuaranteed, GenericArgs, Goal, Predicate, Region, SolverDefId, - TraitRef, Ty, TyKind, TypingMode, + Binder, ClauseKind, DbInterner, FnSig, GenericArgs, PredicateKind, SimplifiedType, + SolverDefId, TraitRef, Ty, TyKind, TypingMode, infer::{ - DbInternerInferExt, InferCtxt, + BoundRegionConversionTime, DbInternerInferExt, InferCtxt, InferOk, select::ImplSource, - traits::{Obligation, ObligationCause, PredicateObligation}, + traits::{Obligation, ObligationCause, PredicateObligations}, }, obligation_ctxt::ObligationCtxt, + util::clauses_as_obligations, }, - traits::next_trait_solve_canonical_in_ctxt, - utils::all_super_traits, }; -/// This is used as a key for indexing impls. -#[derive(Debug, Copy, Clone, PartialEq, Eq, Hash, PartialOrd, Ord)] -pub enum TyFingerprint { - // These are lang item impls: - Str, - Slice, - Array, - Never, - Ref(Mutability), - RawPtr(Mutability), - Bool, - Char, - Int(IntTy), - Uint(UintTy), - Float(FloatTy), - // These can have user-defined impls: - Adt(hir_def::AdtId), - Dyn(TraitId), - ForeignType(TypeAliasId), - // These only exist for trait impls - Unit, - Unnameable, - Function(u32), -} - -impl TyFingerprint { - /// Creates a TyFingerprint for looking up an inherent impl. Only certain - /// types can have inherent impls: if we have some `struct S`, we can have - /// an `impl S`, but not `impl &S`. Hence, this will return `None` for - /// reference types and such. - pub fn for_inherent_impl<'db>(ty: Ty<'db>) -> Option { - let fp = match ty.kind() { - TyKind::Str => TyFingerprint::Str, - TyKind::Never => TyFingerprint::Never, - TyKind::Slice(..) => TyFingerprint::Slice, - TyKind::Array(..) => TyFingerprint::Array, - TyKind::Bool => TyFingerprint::Bool, - TyKind::Char => TyFingerprint::Char, - TyKind::Int(int) => TyFingerprint::Int(int), - TyKind::Uint(int) => TyFingerprint::Uint(int), - TyKind::Float(float) => TyFingerprint::Float(float), - TyKind::Adt(adt_def, _) => TyFingerprint::Adt(adt_def.def_id().0), - TyKind::RawPtr(_, mutability) => TyFingerprint::RawPtr(mutability), - TyKind::Foreign(alias_id, ..) => TyFingerprint::ForeignType(alias_id.0), - TyKind::Dynamic(bounds, _) => { - bounds.principal_def_id().map(|trait_| TyFingerprint::Dyn(trait_.0))? - } - _ => return None, - }; - Some(fp) - } - - /// Creates a TyFingerprint for looking up a trait impl. - pub fn for_trait_impl<'db>(ty: Ty<'db>) -> Option { - let fp = match ty.kind() { - TyKind::Str => TyFingerprint::Str, - TyKind::Never => TyFingerprint::Never, - TyKind::Slice(..) => TyFingerprint::Slice, - TyKind::Array(..) => TyFingerprint::Array, - TyKind::Bool => TyFingerprint::Bool, - TyKind::Char => TyFingerprint::Char, - TyKind::Int(int) => TyFingerprint::Int(int), - TyKind::Uint(int) => TyFingerprint::Uint(int), - TyKind::Float(float) => TyFingerprint::Float(float), - TyKind::Adt(adt_def, _) => TyFingerprint::Adt(adt_def.def_id().0), - TyKind::RawPtr(_, mutability) => TyFingerprint::RawPtr(mutability), - TyKind::Foreign(alias_id, ..) => TyFingerprint::ForeignType(alias_id.0), - TyKind::Dynamic(bounds, _) => { - bounds.principal_def_id().map(|trait_| TyFingerprint::Dyn(trait_.0))? - } - TyKind::Ref(_, _, mutability) => TyFingerprint::Ref(mutability), - TyKind::Tuple(subst) => { - let first_ty = subst.as_slice().first(); - match first_ty { - Some(ty) => return TyFingerprint::for_trait_impl(*ty), - None => TyFingerprint::Unit, - } - } - // FIXME(next-solver): Putting `Alias` here is *probably* incorrect, AFAIK it should return `None`. But this breaks - // flyimport, which uses an incorrect but fast method resolution algorithm. Therefore we put it here, - // because this function is only called by flyimport, and anyway we should get rid of `TyFingerprint` - // and switch to `rustc_type_ir`'s `SimplifiedType`. - TyKind::Alias(..) - | TyKind::FnDef(_, _) - | TyKind::Closure(_, _) - | TyKind::Coroutine(..) - | TyKind::CoroutineClosure(..) - | TyKind::CoroutineWitness(..) => TyFingerprint::Unnameable, - TyKind::FnPtr(sig, _) => { - TyFingerprint::Function(sig.skip_binder().inputs_and_output.inner().len() as u32) - } - TyKind::Param(_) - | TyKind::Bound(..) - | TyKind::Placeholder(..) - | TyKind::Infer(_) - | TyKind::Error(_) - | TyKind::Pat(..) - | TyKind::UnsafeBinder(..) => return None, - }; - Some(fp) - } -} +pub use self::probe::{ + Candidate, CandidateKind, CandidateStep, CandidateWithPrivate, Mode, Pick, PickKind, +}; -pub(crate) const ALL_INT_FPS: [TyFingerprint; 12] = [ - TyFingerprint::Int(IntTy::I8), - TyFingerprint::Int(IntTy::I16), - TyFingerprint::Int(IntTy::I32), - TyFingerprint::Int(IntTy::I64), - TyFingerprint::Int(IntTy::I128), - TyFingerprint::Int(IntTy::Isize), - TyFingerprint::Uint(UintTy::U8), - TyFingerprint::Uint(UintTy::U16), - TyFingerprint::Uint(UintTy::U32), - TyFingerprint::Uint(UintTy::U64), - TyFingerprint::Uint(UintTy::U128), - TyFingerprint::Uint(UintTy::Usize), -]; - -pub(crate) const ALL_FLOAT_FPS: [TyFingerprint; 4] = [ - TyFingerprint::Float(FloatTy::F16), - TyFingerprint::Float(FloatTy::F32), - TyFingerprint::Float(FloatTy::F64), - TyFingerprint::Float(FloatTy::F128), -]; - -type TraitFpMap = FxHashMap, Box<[ImplId]>>>; -type TraitFpMapCollector = FxHashMap, Vec>>; - -/// Trait impls defined or available in some crate. -#[derive(Debug, Eq, PartialEq)] -pub struct TraitImpls { - // If the `Option` is `None`, the impl may apply to any self type. - map: TraitFpMap, +#[derive(Debug, Clone)] +pub struct MethodResolutionUnstableFeatures { + arbitrary_self_types: bool, + arbitrary_self_types_pointers: bool, + supertrait_item_shadowing: bool, } -impl TraitImpls { - pub(crate) fn trait_impls_in_crate_query(db: &dyn HirDatabase, krate: Crate) -> Arc { - let _p = tracing::info_span!("trait_impls_in_crate_query", ?krate).entered(); - let mut impls = FxHashMap::default(); - - Self::collect_def_map(db, &mut impls, crate_def_map(db, krate)); - - Arc::new(Self::finish(impls)) - } - - pub(crate) fn trait_impls_in_block_query( - db: &dyn HirDatabase, - block: BlockId, - ) -> Option> { - let _p = tracing::info_span!("trait_impls_in_block_query").entered(); - let mut impls = FxHashMap::default(); - - Self::collect_def_map(db, &mut impls, block_def_map(db, block)); - - if impls.is_empty() { None } else { Some(Arc::new(Self::finish(impls))) } - } - - pub(crate) fn trait_impls_in_deps_query( - db: &dyn HirDatabase, - krate: Crate, - ) -> Arc<[Arc]> { - let _p = tracing::info_span!("trait_impls_in_deps_query", ?krate).entered(); - Arc::from_iter( - db.transitive_deps(krate).into_iter().map(|krate| db.trait_impls_in_crate(krate)), - ) - } - - fn finish(map: TraitFpMapCollector) -> TraitImpls { - TraitImpls { - map: map - .into_iter() - .map(|(k, v)| (k, v.into_iter().map(|(k, v)| (k, v.into_boxed_slice())).collect())) - .collect(), - } - } - - fn collect_def_map(db: &dyn HirDatabase, map: &mut TraitFpMapCollector, def_map: &DefMap) { - for (_module_id, module_data) in def_map.modules() { - for impl_id in module_data.scope.impls() { - // Reservation impls should be ignored during trait resolution, so we never need - // them during type analysis. See rust-lang/rust#64631 for details. - // - // FIXME: Reservation impls should be considered during coherence checks. If we are - // (ever) to implement coherence checks, this filtering should be done by the trait - // solver. - if db.attrs(impl_id.into()).by_key(sym::rustc_reservation_impl).exists() { - continue; - } - let target_trait = match db.impl_trait(impl_id) { - Some(tr) => tr.skip_binder().def_id.0, - None => continue, - }; - let self_ty = db.impl_self_ty(impl_id); - let self_ty_fp = TyFingerprint::for_trait_impl(self_ty.instantiate_identity()); - map.entry(target_trait).or_default().entry(self_ty_fp).or_default().push(impl_id); - } - - // To better support custom derives, collect impls in all unnamed const items. - // const _: () = { ... }; - for konst in module_data.scope.unnamed_consts() { - let body = db.body(konst.into()); - for (_, block_def_map) in body.blocks(db) { - Self::collect_def_map(db, map, block_def_map); - } - } +impl MethodResolutionUnstableFeatures { + pub fn from_def_map(def_map: &DefMap) -> Self { + Self { + arbitrary_self_types: def_map.is_unstable_feature_enabled(&sym::arbitrary_self_types), + arbitrary_self_types_pointers: def_map + .is_unstable_feature_enabled(&sym::arbitrary_self_types_pointers), + supertrait_item_shadowing: def_map + .is_unstable_feature_enabled(&sym::supertrait_item_shadowing), } } - - /// Queries all trait impls for the given type. - pub fn for_self_ty_without_blanket_impls( - &self, - fp: TyFingerprint, - ) -> impl Iterator + '_ { - self.map - .values() - .flat_map(move |impls| impls.get(&Some(fp)).into_iter()) - .flat_map(|it| it.iter().copied()) - } - - /// Queries all impls of the given trait. - pub fn for_trait(&self, trait_: TraitId) -> impl Iterator + '_ { - self.map - .get(&trait_) - .into_iter() - .flat_map(|map| map.values().flat_map(|v| v.iter().copied())) - } - - /// Queries all impls of `trait_` that may apply to `self_ty`. - pub fn for_trait_and_self_ty( - &self, - trait_: TraitId, - self_ty: TyFingerprint, - ) -> impl Iterator + '_ { - self.map - .get(&trait_) - .into_iter() - .flat_map(move |map| map.get(&Some(self_ty)).into_iter().chain(map.get(&None))) - .flat_map(|v| v.iter().copied()) - } - - /// Queries whether `self_ty` has potentially applicable implementations of `trait_`. - pub fn has_impls_for_trait_and_self_ty(&self, trait_: TraitId, self_ty: TyFingerprint) -> bool { - self.for_trait_and_self_ty(trait_, self_ty).next().is_some() - } - - pub fn all_impls(&self) -> impl Iterator + '_ { - self.map.values().flat_map(|map| map.values().flat_map(|v| v.iter().copied())) - } } -/// Inherent impls defined in some crate. -/// -/// Inherent impls can only be defined in the crate that also defines the self type of the impl -/// (note that some primitives are considered to be defined by both libcore and liballoc). -/// -/// This makes inherent impl lookup easier than trait impl lookup since we only have to consider a -/// single crate. -#[derive(Debug, Eq, PartialEq)] -pub struct InherentImpls { - map: FxHashMap>, - invalid_impls: Vec, +pub struct MethodResolutionContext<'a, 'db> { + pub infcx: &'a InferCtxt<'db>, + pub resolver: &'a Resolver<'db>, + pub env: &'a TraitEnvironment<'db>, + pub traits_in_scope: &'a FxHashSet, + pub edition: Edition, + pub unstable_features: &'a MethodResolutionUnstableFeatures, } -impl InherentImpls { - pub(crate) fn inherent_impls_in_crate_query(db: &dyn HirDatabase, krate: Crate) -> Arc { - let _p = tracing::info_span!("inherent_impls_in_crate_query", ?krate).entered(); - let mut impls = Self { map: FxHashMap::default(), invalid_impls: Vec::default() }; - - let crate_def_map = crate_def_map(db, krate); - impls.collect_def_map(db, crate_def_map); - impls.shrink_to_fit(); - - Arc::new(impls) - } - - pub(crate) fn inherent_impls_in_block_query( - db: &dyn HirDatabase, - block: BlockId, - ) -> Option> { - let _p = tracing::info_span!("inherent_impls_in_block_query").entered(); - let mut impls = Self { map: FxHashMap::default(), invalid_impls: Vec::default() }; - - let block_def_map = block_def_map(db, block); - impls.collect_def_map(db, block_def_map); - impls.shrink_to_fit(); +#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)] +pub enum CandidateId { + FunctionId(FunctionId), + ConstId(ConstId), +} +impl_from!(FunctionId, ConstId for CandidateId); - if impls.map.is_empty() && impls.invalid_impls.is_empty() { - None - } else { - Some(Arc::new(impls)) +impl CandidateId { + fn container(self, db: &dyn HirDatabase) -> ItemContainerId { + match self { + CandidateId::FunctionId(id) => id.loc(db).container, + CandidateId::ConstId(id) => id.loc(db).container, } } +} - fn shrink_to_fit(&mut self) { - self.map.values_mut().for_each(Vec::shrink_to_fit); - self.map.shrink_to_fit(); - } +#[derive(Clone, Copy, Debug)] +pub(crate) struct MethodCallee<'db> { + /// Impl method ID, for inherent methods, or trait method ID, otherwise. + pub def_id: FunctionId, + pub args: GenericArgs<'db>, - fn collect_def_map(&mut self, db: &dyn HirDatabase, def_map: &DefMap) { - for (_module_id, module_data) in def_map.modules() { - for impl_id in module_data.scope.impls() { - let data = db.impl_signature(impl_id); - if data.target_trait.is_some() { - continue; - } + /// Instantiated method signature, i.e., it has been + /// instantiated, normalized, and has had late-bound + /// lifetimes replaced with inference variables. + pub sig: FnSig<'db>, +} - let self_ty = db.impl_self_ty(impl_id); - let self_ty = self_ty.instantiate_identity(); +#[derive(Debug)] +pub enum MethodError<'db> { + /// Did not find an applicable method. + NoMatch, - match is_inherent_impl_coherent(db, def_map, impl_id, self_ty) { - true => { - // `fp` should only be `None` in error cases (either erroneous code or incomplete name resolution) - if let Some(fp) = TyFingerprint::for_inherent_impl(self_ty) { - self.map.entry(fp).or_default().push(impl_id); - } - } - false => self.invalid_impls.push(impl_id), - } - } + /// Multiple methods might apply. + Ambiguity(Vec), - // To better support custom derives, collect impls in all unnamed const items. - // const _: () = { ... }; - for konst in module_data.scope.unnamed_consts() { - let body = db.body(konst.into()); - for (_, block_def_map) in body.blocks(db) { - self.collect_def_map(db, block_def_map); - } - } - } - } + /// Found an applicable method, but it is not visible. + PrivateMatch(Pick<'db>), - pub fn for_self_ty<'db>(&self, self_ty: Ty<'db>) -> &[ImplId] { - match TyFingerprint::for_inherent_impl(self_ty) { - Some(fp) => self.map.get(&fp).map(|vec| vec.as_ref()).unwrap_or(&[]), - None => &[], - } - } + /// Found a `Self: Sized` bound where `Self` is a trait object. + IllegalSizedBound { candidates: Vec, needs_mut: bool }, - pub fn all_impls(&self) -> impl Iterator + '_ { - self.map.values().flat_map(|v| v.iter().copied()) - } + /// Error has already been emitted, no need to emit another one. + ErrorReported, +} - pub fn invalid_impls(&self) -> &[ImplId] { - &self.invalid_impls - } +// A pared down enum describing just the places from which a method +// candidate can arise. Used for error reporting only. +#[derive(Copy, Clone, Debug, Eq, PartialEq)] +pub enum CandidateSource { + Impl(ImplId), + Trait(TraitId), } -pub(crate) fn incoherent_inherent_impl_crates( - db: &dyn HirDatabase, - krate: Crate, - fp: TyFingerprint, -) -> SmallVec<[Crate; 2]> { - let _p = tracing::info_span!("incoherent_inherent_impl_crates").entered(); - let mut res = SmallVec::new(); +impl<'a, 'db> InferenceContext<'a, 'db> { + /// Performs method lookup. If lookup is successful, it will return the callee + /// and store an appropriate adjustment for the self-expr. In some cases it may + /// report an error (e.g., invoking the `drop` method). + #[instrument(level = "debug", skip(self))] + pub(crate) fn lookup_method_including_private( + &mut self, + self_ty: Ty<'db>, + name: Name, + generic_args: Option<&HirGenericArgs>, + receiver: ExprId, + call_expr: ExprId, + ) -> Result<(MethodCallee<'db>, bool), MethodError<'db>> { + let (pick, is_visible) = match self.lookup_probe(name, self_ty) { + Ok(it) => (it, true), + Err(MethodError::PrivateMatch(it)) => { + // FIXME: Report error. + (it, false) + } + Err(err) => return Err(err), + }; - // should pass crate for finger print and do reverse deps + let result = self.confirm_method(&pick, self_ty, call_expr, generic_args); + debug!("result = {:?}", result); - for krate in db.transitive_deps(krate) { - let impls = db.inherent_impls_in_crate(krate); - if impls.map.get(&fp).is_some_and(|v| !v.is_empty()) { - res.push(krate); + if result.illegal_sized_bound { + // FIXME: Report an error. } - } - res -} + self.write_expr_adj(receiver, result.adjustments); + self.write_method_resolution(call_expr, result.callee.def_id, result.callee.args); -pub fn def_crates<'db>( - db: &'db dyn HirDatabase, - ty: Ty<'db>, - cur_crate: Crate, -) -> Option> { - match ty.kind() { - TyKind::Adt(adt_def, _) => { - let def_id = adt_def.def_id().0; - let rustc_has_incoherent_inherent_impls = match def_id { - hir_def::AdtId::StructId(id) => db - .struct_signature(id) - .flags - .contains(StructFlags::RUSTC_HAS_INCOHERENT_INHERENT_IMPLS), - hir_def::AdtId::UnionId(id) => db - .union_signature(id) - .flags - .contains(StructFlags::RUSTC_HAS_INCOHERENT_INHERENT_IMPLS), - hir_def::AdtId::EnumId(id) => db - .enum_signature(id) - .flags - .contains(EnumFlags::RUSTC_HAS_INCOHERENT_INHERENT_IMPLS), - }; - Some(if rustc_has_incoherent_inherent_impls { - db.incoherent_inherent_impl_crates(cur_crate, TyFingerprint::Adt(def_id)) - } else { - smallvec![def_id.module(db).krate()] - }) - } - TyKind::Foreign(alias) => { - let alias = alias.0; - Some( - if db - .type_alias_signature(alias) - .flags - .contains(TypeAliasFlags::RUSTC_HAS_INCOHERENT_INHERENT_IMPL) - { - db.incoherent_inherent_impl_crates(cur_crate, TyFingerprint::ForeignType(alias)) - } else { - smallvec![alias.module(db).krate()] - }, - ) - } - TyKind::Dynamic(bounds, _) => { - let trait_id = bounds.principal_def_id()?.0; - Some( - if db - .trait_signature(trait_id) - .flags - .contains(TraitFlags::RUSTC_HAS_INCOHERENT_INHERENT_IMPLS) - { - db.incoherent_inherent_impl_crates(cur_crate, TyFingerprint::Dyn(trait_id)) - } else { - smallvec![trait_id.module(db).krate()] - }, - ) - } - // for primitives, there may be impls in various places (core and alloc - // mostly). We just check the whole crate graph for crates with impls - // (cached behind a query). - TyKind::Bool - | TyKind::Char - | TyKind::Int(_) - | TyKind::Uint(_) - | TyKind::Float(_) - | TyKind::Str - | TyKind::Slice(_) - | TyKind::Array(..) - | TyKind::RawPtr(..) => Some(db.incoherent_inherent_impl_crates( - cur_crate, - TyFingerprint::for_inherent_impl(ty).expect("fingerprint for primitive"), - )), - _ => None, + Ok((result.callee, is_visible)) } -} -/// Look up the method with the given name. -pub(crate) fn lookup_method<'db>( - ty: &Canonical<'db, Ty<'db>>, - table: &mut InferenceTable<'db>, - traits_in_scope: &FxHashSet, - visible_from_module: VisibleFromModule, - name: &Name, -) -> Option<(ReceiverAdjustments, FunctionId, bool)> { - let mut not_visible = None; - let res = iterate_method_candidates( - ty, - table, - traits_in_scope, - visible_from_module, - Some(name), - LookupMode::MethodCall, - |adjustments, f, visible| match f { - AssocItemId::FunctionId(f) if visible => Some((adjustments, f, true)), - AssocItemId::FunctionId(f) if not_visible.is_none() => { - not_visible = Some((adjustments, f, false)); - None - } - _ => None, - }, - ); - res.or(not_visible) -} - -/// Whether we're looking up a dotted method call (like `v.len()`) or a path -/// (like `Vec::new`). -#[derive(Copy, Clone, Debug, PartialEq, Eq)] -pub enum LookupMode { - /// Looking up a method call like `v.len()`: We only consider candidates - /// that have a `self` parameter, and do autoderef. - MethodCall, - /// Looking up a path like `Vec::new` or `Vec::default`: We consider all - /// candidates including associated constants, but don't do autoderef. - Path, -} - -#[derive(Clone, Copy)] -pub enum VisibleFromModule { - /// Filter for results that are visible from the given module - Filter(ModuleId), - /// Include impls from the given block. - IncludeBlock(BlockId), - /// Do nothing special in regards visibility - None, -} - -impl From> for VisibleFromModule { - fn from(module: Option) -> Self { - match module { - Some(module) => Self::Filter(module), - None => Self::None, - } + #[instrument(level = "debug", skip(self))] + pub(crate) fn lookup_probe( + &self, + method_name: Name, + self_ty: Ty<'db>, + ) -> probe::PickResult<'db> { + self.with_method_resolution(|ctx| { + let pick = ctx.probe_for_name(probe::Mode::MethodCall, method_name, self_ty)?; + Ok(pick) + }) } -} -impl From> for VisibleFromModule { - fn from(block: Option) -> Self { - match block { - Some(block) => Self::IncludeBlock(block), - None => Self::None, - } + pub(crate) fn with_method_resolution( + &self, + f: impl FnOnce(&MethodResolutionContext<'_, 'db>) -> R, + ) -> R { + let traits_in_scope = self.get_traits_in_scope(); + let traits_in_scope = match &traits_in_scope { + Either::Left(it) => it, + Either::Right(it) => *it, + }; + let ctx = MethodResolutionContext { + infcx: &self.table.infer_ctxt, + resolver: &self.resolver, + env: &self.table.trait_env, + traits_in_scope, + edition: self.edition, + unstable_features: &self.unstable_features, + }; + f(&ctx) } } -#[derive(Debug, Clone)] -pub enum AutorefOrPtrAdjustment { - Autoref(Mutability), - ToConstPtr, -} - -#[derive(Debug, Clone, Default)] -pub struct ReceiverAdjustments { - autoref: Option, - autoderefs: usize, - unsize_array: bool, -} - -impl ReceiverAdjustments { - pub(crate) fn apply<'db>( +/// Used by [FnCtxt::lookup_method_for_operator] with `-Znext-solver`. +/// +/// With `AsRigid` we error on `impl Opaque: NotInItemBounds` while +/// `AsInfer` just treats it as ambiguous and succeeds. This is necessary +/// as we want [FnCtxt::check_expr_call] to treat not-yet-defined opaque +/// types as rigid to support `impl Deref` and +/// `Box`. +/// +/// We only want to treat opaque types as rigid if we need to eagerly choose +/// between multiple candidates. We otherwise treat them as ordinary inference +/// variable to avoid rejecting otherwise correct code. +#[derive(Debug)] +#[expect(dead_code)] +pub(super) enum TreatNotYetDefinedOpaques { + AsInfer, + AsRigid, +} + +impl<'db> InferenceTable<'db> { + /// `lookup_method_in_trait` is used for overloaded operators. + /// It does a very narrow slice of what the normal probe/confirm path does. + /// In particular, it doesn't really do any probing: it simply constructs + /// an obligation for a particular trait with the given self type and checks + /// whether that trait is implemented. + #[instrument(level = "debug", skip(self))] + pub(super) fn lookup_method_for_operator( &self, - table: &mut InferenceTable<'db>, - mut ty: Ty<'db>, - ) -> (Ty<'db>, Vec>) { - let mut adjust = Vec::new(); - let mut autoderef = table.autoderef(ty); - autoderef.next(); - for _ in 0..self.autoderefs { - match autoderef.next() { - None => { - never!("autoderef not possible for {:?}", ty); - ty = Ty::new_error(table.interner(), ErrorGuaranteed); - break; - } - Some((new_ty, _)) => { - ty = new_ty; - let mutbl = match self.autoref { - Some(AutorefOrPtrAdjustment::Autoref(m)) => Some(m), - Some(AutorefOrPtrAdjustment::ToConstPtr) => Some(Mutability::Not), - // FIXME should we know the mutability here, when autoref is `None`? - None => None, - }; - adjust.push(Adjustment { - kind: Adjust::Deref(match autoderef.steps().last().unwrap().1 { - AutoderefKind::Overloaded => Some(OverloadedDeref(mutbl)), - AutoderefKind::Builtin => None, - }), - target: ty, - }); - } - } - } - if let Some(autoref) = &self.autoref { - let lt = table.next_region_var(); - match autoref { - AutorefOrPtrAdjustment::Autoref(m) => { - let a = Adjustment::borrow(table.interner(), *m, ty, lt); - ty = a.target; - adjust.push(a); + cause: ObligationCause, + method_name: Symbol, + trait_def_id: TraitId, + self_ty: Ty<'db>, + opt_rhs_ty: Option>, + treat_opaques: TreatNotYetDefinedOpaques, + ) -> Option>> { + // Construct a trait-reference `self_ty : Trait` + let args = GenericArgs::for_item( + self.interner(), + trait_def_id.into(), + |param_idx, param_id, _| match param_id { + GenericParamId::LifetimeParamId(_) | GenericParamId::ConstParamId(_) => { + unreachable!("did not expect operator trait to have lifetime/const") } - AutorefOrPtrAdjustment::ToConstPtr => { - if let TyKind::RawPtr(pointee, Mutability::Mut) = ty.kind() { - let a = Adjustment { - kind: Adjust::Pointer(PointerCast::MutToConstPointer), - target: Ty::new_ptr(table.interner(), pointee, Mutability::Not), - }; - ty = a.target; - adjust.push(a); + GenericParamId::TypeParamId(_) => { + if param_idx == 0 { + self_ty.into() + } else if let Some(rhs_ty) = opt_rhs_ty { + assert_eq!(param_idx, 1, "did not expect >1 param on operator trait"); + rhs_ty.into() } else { - never!("`ToConstPtr` target is not a raw mutable pointer"); + // FIXME: We should stop passing `None` for the failure case + // when probing for call exprs. I.e. `opt_rhs_ty` should always + // be set when it needs to be. + self.next_var_for_param(param_id) } } - }; - } - if self.unsize_array { - ty = 'it: { - if let TyKind::Ref(l, inner, m) = ty.kind() - && let TyKind::Array(inner, _) = inner.kind() - { - break 'it Ty::new_ref( - table.interner(), - l, - Ty::new_slice(table.interner(), inner), - m, - ); - } - // FIXME: report diagnostic if array unsizing happens without indirection. - ty - }; - adjust.push(Adjustment { kind: Adjust::Pointer(PointerCast::Unsize), target: ty }); - } - (ty, adjust) - } + }, + ); + + let obligation = Obligation::new( + self.interner(), + cause, + self.trait_env.env, + TraitRef::new_from_args(self.interner(), trait_def_id.into(), args), + ); + + // Now we want to know if this can be matched + let matches_trait = match treat_opaques { + TreatNotYetDefinedOpaques::AsInfer => self.infer_ctxt.predicate_may_hold(&obligation), + TreatNotYetDefinedOpaques::AsRigid => { + self.infer_ctxt.predicate_may_hold_opaque_types_jank(&obligation) + } + }; - fn with_autoref(&self, a: AutorefOrPtrAdjustment) -> ReceiverAdjustments { - Self { autoref: Some(a), ..*self } - } -} + if !matches_trait { + debug!("--> Cannot match obligation"); + // Cannot be matched, no such method resolution is possible. + return None; + } + + // Trait must have a method named `m_name` and it should not have + // type parameters or early-bound regions. + let interner = self.interner(); + // We use `Ident::with_dummy_span` since no built-in operator methods have + // any macro-specific hygiene, so the span's context doesn't really matter. + let Some(method_item) = + trait_def_id.trait_items(self.db).method_by_name(&Name::new_symbol_root(method_name)) + else { + panic!("expected associated item for operator trait") + }; -// This would be nicer if it just returned an iterator, but that runs into -// lifetime problems, because we need to borrow temp `CrateImplDefs`. -// FIXME add a context type here? -pub(crate) fn iterate_method_candidates<'db, T>( - ty: &Canonical<'db, Ty<'db>>, - table: &mut InferenceTable<'db>, - traits_in_scope: &FxHashSet, - visible_from_module: VisibleFromModule, - name: Option<&Name>, - mode: LookupMode, - mut callback: impl FnMut(ReceiverAdjustments, AssocItemId, bool) -> Option, -) -> Option { - let mut slot = None; - _ = iterate_method_candidates_dyn_impl( - ty, - table, - traits_in_scope, - visible_from_module, - name, - mode, - &mut |adj, item, visible| { - assert!(slot.is_none()); - if let Some(it) = callback(adj, item, visible) { - slot = Some(it); - return ControlFlow::Break(()); - } - ControlFlow::Continue(()) - }, - ); - slot + let def_id = method_item; + + debug!("lookup_in_trait_adjusted: method_item={:?}", method_item); + let mut obligations = PredicateObligations::new(); + + // Instantiate late-bound regions and instantiate the trait + // parameters into the method type to get the actual method type. + // + // N.B., instantiate late-bound regions before normalizing the + // function signature so that normalization does not need to deal + // with bound regions. + let fn_sig = + self.db.callable_item_signature(method_item.into()).instantiate(interner, args); + let fn_sig = self + .infer_ctxt + .instantiate_binder_with_fresh_vars(BoundRegionConversionTime::FnCall, fn_sig); + + // Register obligations for the parameters. This will include the + // `Self` parameter, which in turn has a bound of the main trait, + // so this also effectively registers `obligation` as well. (We + // used to register `obligation` explicitly, but that resulted in + // double error messages being reported.) + // + // Note that as the method comes from a trait, it should not have + // any late-bound regions appearing in its bounds. + let bounds = GenericPredicates::query_all(self.db, method_item.into()); + let bounds = clauses_as_obligations( + bounds.iter_instantiated_copied(interner, args.as_slice()), + ObligationCause::new(), + self.trait_env.env, + ); + + obligations.extend(bounds); + + // Also add an obligation for the method type being well-formed. + debug!( + "lookup_method_in_trait: matched method fn_sig={:?} obligation={:?}", + fn_sig, obligation + ); + for ty in fn_sig.inputs_and_output { + obligations.push(Obligation::new( + interner, + obligation.cause.clone(), + self.trait_env.env, + Binder::dummy(PredicateKind::Clause(ClauseKind::WellFormed(ty.into()))), + )); + } + + let callee = MethodCallee { def_id, args, sig: fn_sig }; + debug!("callee = {:?}", callee); + + Some(InferOk { obligations, value: callee }) + } } pub fn lookup_impl_const<'db>( @@ -690,7 +356,7 @@ pub fn lookup_impl_const<'db>( let interner = infcx.interner; let db = interner.db; - let trait_id = match const_id.lookup(db).container { + let trait_id = match const_id.loc(db).container { ItemContainerId::TraitId(id) => id, _ => return (const_id, subs), }; @@ -719,7 +385,7 @@ pub fn is_dyn_method<'db>( ) -> Option { let db = interner.db; - let ItemContainerId::TraitId(trait_id) = func.lookup(db).container else { + let ItemContainerId::TraitId(trait_id) = func.loc(db).container else { return None; }; let trait_params = db.generic_params(trait_id.into()).len(); @@ -755,7 +421,7 @@ pub(crate) fn lookup_impl_method_query<'db>( let interner = DbInterner::new_with(db, Some(env.krate), env.block); let infcx = interner.infer_ctxt().build(TypingMode::PostAnalysis); - let ItemContainerId::TraitId(trait_id) = func.lookup(db).container else { + let ItemContainerId::TraitId(trait_id) = func.loc(db).container else { return (func, fn_subst); }; let trait_params = db.generic_params(trait_id.into()).len(); @@ -833,981 +499,337 @@ pub(crate) fn find_matching_impl<'db>( } } -fn is_inherent_impl_coherent<'db>( - db: &'db dyn HirDatabase, - def_map: &DefMap, - impl_id: ImplId, - self_ty: Ty<'db>, -) -> bool { - let self_ty = self_ty.kind(); - let impl_allowed = match self_ty { - TyKind::Tuple(_) - | TyKind::FnDef(_, _) - | TyKind::Array(_, _) - | TyKind::Never - | TyKind::RawPtr(_, _) - | TyKind::Ref(_, _, _) - | TyKind::Slice(_) - | TyKind::Str - | TyKind::Bool - | TyKind::Char - | TyKind::Int(_) - | TyKind::Uint(_) - | TyKind::Float(_) => def_map.is_rustc_coherence_is_core(), - - TyKind::Adt(adt_def, _) => adt_def.def_id().0.module(db).krate() == def_map.krate(), - TyKind::Dynamic(it, _) => it - .principal_def_id() - .is_some_and(|trait_id| trait_id.0.module(db).krate() == def_map.krate()), +#[salsa::tracked(returns(ref))] +fn crates_containing_incoherent_inherent_impls(db: &dyn HirDatabase) -> Box<[Crate]> { + // We assume that only sysroot crates contain `#[rustc_has_incoherent_inherent_impls]` + // impls, since this is an internal feature and only std uses it. + db.all_crates().iter().copied().filter(|krate| krate.data(db).origin.is_lang()).collect() +} +pub fn incoherent_inherent_impls(db: &dyn HirDatabase, self_ty: SimplifiedType) -> &[ImplId] { + let has_incoherent_impls = match self_ty.def() { + Some(def_id) => match def_id.try_into() { + Ok(def_id) => { + db.attrs(def_id).by_key(sym::rustc_has_incoherent_inherent_impls).exists() + } + Err(()) => true, + }, _ => true, }; - impl_allowed || { - let rustc_has_incoherent_inherent_impls = match self_ty { - TyKind::Tuple(_) - | TyKind::FnDef(_, _) - | TyKind::Array(_, _) - | TyKind::Never - | TyKind::RawPtr(_, _) - | TyKind::Ref(_, _, _) - | TyKind::Slice(_) - | TyKind::Str - | TyKind::Bool - | TyKind::Char - | TyKind::Int(_) - | TyKind::Uint(_) - | TyKind::Float(_) => true, - - TyKind::Adt(adt_def, _) => match adt_def.def_id().0 { - hir_def::AdtId::StructId(id) => db - .struct_signature(id) - .flags - .contains(StructFlags::RUSTC_HAS_INCOHERENT_INHERENT_IMPLS), - hir_def::AdtId::UnionId(id) => db - .union_signature(id) - .flags - .contains(StructFlags::RUSTC_HAS_INCOHERENT_INHERENT_IMPLS), - hir_def::AdtId::EnumId(it) => db - .enum_signature(it) - .flags - .contains(EnumFlags::RUSTC_HAS_INCOHERENT_INHERENT_IMPLS), - }, - TyKind::Dynamic(it, _) => it.principal_def_id().is_some_and(|trait_id| { - db.trait_signature(trait_id.0) - .flags - .contains(TraitFlags::RUSTC_HAS_INCOHERENT_INHERENT_IMPLS) - }), - - _ => false, - }; - let items = impl_id.impl_items(db); - rustc_has_incoherent_inherent_impls - && !items.items.is_empty() - && items.items.iter().all(|&(_, assoc)| match assoc { - AssocItemId::FunctionId(it) => { - db.function_signature(it).flags.contains(FnFlags::RUSTC_ALLOW_INCOHERENT_IMPL) - } - AssocItemId::ConstId(it) => { - db.const_signature(it).flags.contains(ConstFlags::RUSTC_ALLOW_INCOHERENT_IMPL) - } - AssocItemId::TypeAliasId(it) => db - .type_alias_signature(it) - .flags - .contains(TypeAliasFlags::RUSTC_ALLOW_INCOHERENT_IMPL), - }) - } -} - -/// Checks whether the impl satisfies the orphan rules. -/// -/// Given `impl Trait for T0`, an `impl`` is valid only if at least one of the following is true: -/// - Trait is a local trait -/// - All of -/// - At least one of the types `T0..=Tn`` must be a local type. Let `Ti`` be the first such type. -/// - No uncovered type parameters `P1..=Pn` may appear in `T0..Ti`` (excluding `Ti`) -pub fn check_orphan_rules<'db>(db: &'db dyn HirDatabase, impl_: ImplId) -> bool { - let Some(impl_trait) = db.impl_trait(impl_) else { - // not a trait impl - return true; + return if !has_incoherent_impls { + &[] + } else { + incoherent_inherent_impls_query(db, (), self_ty) }; - let local_crate = impl_.lookup(db).container.krate(); - let is_local = |tgt_crate| tgt_crate == local_crate; - - let trait_ref = impl_trait.instantiate_identity(); - let trait_id = trait_ref.def_id.0; - if is_local(trait_id.module(db).krate()) { - // trait to be implemented is local - return true; - } + #[salsa::tracked(returns(ref))] + fn incoherent_inherent_impls_query( + db: &dyn HirDatabase, + _force_query_input_to_be_interned: (), + self_ty: SimplifiedType, + ) -> Box<[ImplId]> { + let _p = tracing::info_span!("incoherent_inherent_impl_crates").entered(); - let unwrap_fundamental = |mut ty: Ty<'db>| { - // Unwrap all layers of fundamental types with a loop. - loop { - match ty.kind() { - TyKind::Ref(_, referenced, _) => ty = referenced, - TyKind::Adt(adt_def, subs) => { - let AdtId::StructId(s) = adt_def.def_id().0 else { - break ty; - }; - let struct_signature = db.struct_signature(s); - if struct_signature.flags.contains(StructFlags::FUNDAMENTAL) { - let next = subs.types().next(); - match next { - Some(it) => ty = it, - None => break ty, - } - } else { - break ty; - } - } - _ => break ty, - } - } - }; - // - At least one of the types `T0..=Tn`` must be a local type. Let `Ti`` be the first such type. - - // FIXME: param coverage - // - No uncovered type parameters `P1..=Pn` may appear in `T0..Ti`` (excluding `Ti`) - let is_not_orphan = trait_ref.args.types().any(|ty| match unwrap_fundamental(ty).kind() { - TyKind::Adt(adt_def, _) => is_local(adt_def.def_id().0.module(db).krate()), - TyKind::Error(_) => true, - TyKind::Dynamic(it, _) => { - it.principal_def_id().is_some_and(|trait_id| is_local(trait_id.0.module(db).krate())) + let mut result = Vec::new(); + for &krate in crates_containing_incoherent_inherent_impls(db) { + let impls = InherentImpls::for_crate(db, krate); + result.extend_from_slice(impls.for_self_ty(&self_ty)); } - _ => false, - }); - #[allow(clippy::let_and_return)] - is_not_orphan + result.into_boxed_slice() + } } -/// To be used from `hir` only. -pub fn iterate_path_candidates<'db>( - ty: &Canonical<'db, Ty<'db>>, - db: &'db dyn HirDatabase, - env: Arc>, - traits_in_scope: &FxHashSet, - visible_from_module: VisibleFromModule, - name: Option<&Name>, - callback: &mut dyn MethodCandidateCallback, -) -> ControlFlow<()> { - iterate_method_candidates_dyn( - ty, - db, - env, - traits_in_scope, - visible_from_module, - name, - LookupMode::Path, - // the adjustments are not relevant for path lookup - callback, - ) +pub fn simplified_type_module(db: &dyn HirDatabase, ty: &SimplifiedType) -> Option { + match ty.def()? { + SolverDefId::AdtId(id) => Some(id.module(db)), + SolverDefId::TypeAliasId(id) => Some(id.module(db)), + SolverDefId::TraitId(id) => Some(id.module(db)), + _ => None, + } } -/// To be used from `hir` only. -pub fn iterate_method_candidates_dyn<'db>( - ty: &Canonical<'db, Ty<'db>>, - db: &'db dyn HirDatabase, - env: Arc>, - traits_in_scope: &FxHashSet, - visible_from_module: VisibleFromModule, - name: Option<&Name>, - mode: LookupMode, - callback: &mut dyn MethodCandidateCallback, -) -> ControlFlow<()> { - iterate_method_candidates_dyn_impl( - ty, - &mut InferenceTable::new(db, env, None), - traits_in_scope, - visible_from_module, - name, - mode, - callback, - ) +#[derive(Debug, PartialEq, Eq)] +pub struct InherentImpls { + map: FxHashMap>, } -fn iterate_method_candidates_dyn_impl<'db>( - ty: &Canonical<'db, Ty<'db>>, - table: &mut InferenceTable<'db>, - traits_in_scope: &FxHashSet, - visible_from_module: VisibleFromModule, - name: Option<&Name>, - mode: LookupMode, - callback: &mut dyn MethodCandidateCallback, -) -> ControlFlow<()> { - let _p = tracing::info_span!( - "iterate_method_candidates_dyn", - ?mode, - ?name, - traits_in_scope_len = traits_in_scope.len() - ) - .entered(); - - match mode { - LookupMode::MethodCall => { - // For method calls, rust first does any number of autoderef, and - // then one autoref (i.e. when the method takes &self or &mut self). - // Note that when we've got a receiver like &S, even if the method - // we find in the end takes &self, we still do the autoderef step - // (just as rustc does an autoderef and then autoref again). - - // We have to be careful about the order we're looking at candidates - // in here. Consider the case where we're resolving `it.clone()` - // where `it: &Vec<_>`. This resolves to the clone method with self - // type `Vec<_>`, *not* `&_`. I.e. we need to consider methods where - // the receiver type exactly matches before cases where we have to - // do autoref. But in the autoderef steps, the `&_` self type comes - // up *before* the `Vec<_>` self type. - // - // On the other hand, we don't want to just pick any by-value method - // before any by-autoref method; it's just that we need to consider - // the methods by autoderef order of *receiver types*, not *self - // types*. - - table.run_in_snapshot(|table| { - let ty = table.instantiate_canonical(*ty); - let deref_chain = autoderef_method_receiver(table, ty); - - deref_chain.into_iter().try_for_each(|(receiver_ty, adj)| { - iterate_method_candidates_with_autoref( - table, - receiver_ty, - adj, - traits_in_scope, - visible_from_module, - name, - callback, - ) - }) - }) - } - LookupMode::Path => { - // No autoderef for path lookups - iterate_method_candidates_for_self_ty( - ty, - table, - traits_in_scope, - visible_from_module, - name, - callback, - ) - } - } -} +#[salsa::tracked] +impl InherentImpls { + #[salsa::tracked(returns(ref))] + pub fn for_crate(db: &dyn HirDatabase, krate: Crate) -> Self { + let _p = tracing::info_span!("inherent_impls_in_crate_query", ?krate).entered(); -#[tracing::instrument(skip_all, fields(name = ?name))] -fn iterate_method_candidates_with_autoref<'db>( - table: &mut InferenceTable<'db>, - receiver_ty: Canonical<'db, Ty<'db>>, - first_adjustment: ReceiverAdjustments, - traits_in_scope: &FxHashSet, - visible_from_module: VisibleFromModule, - name: Option<&Name>, - callback: &mut dyn MethodCandidateCallback, -) -> ControlFlow<()> { - let interner = table.interner(); - - let mut iterate_method_candidates_by_receiver = move |receiver_ty, first_adjustment| { - iterate_method_candidates_by_receiver( - table, - receiver_ty, - first_adjustment, - traits_in_scope, - visible_from_module, - name, - callback, - ) - }; + let crate_def_map = crate_def_map(db, krate); - let mut maybe_reborrowed = first_adjustment.clone(); - if let TyKind::Ref(_, _, m) = receiver_ty.value.kind() { - // Prefer reborrow of references to move - maybe_reborrowed.autoref = Some(AutorefOrPtrAdjustment::Autoref(m)); - maybe_reborrowed.autoderefs += 1; + Self::collect_def_map(db, crate_def_map) } - iterate_method_candidates_by_receiver(receiver_ty, maybe_reborrowed)?; - - let refed = Canonical { - max_universe: receiver_ty.max_universe, - variables: receiver_ty.variables, - value: Ty::new_ref(interner, Region::error(interner), receiver_ty.value, Mutability::Not), - }; - - iterate_method_candidates_by_receiver( - refed, - first_adjustment.with_autoref(AutorefOrPtrAdjustment::Autoref(Mutability::Not)), - )?; - - let ref_muted = Canonical { - max_universe: receiver_ty.max_universe, - variables: receiver_ty.variables, - value: Ty::new_ref(interner, Region::error(interner), receiver_ty.value, Mutability::Mut), - }; - - iterate_method_candidates_by_receiver( - ref_muted, - first_adjustment.with_autoref(AutorefOrPtrAdjustment::Autoref(Mutability::Mut)), - )?; + #[salsa::tracked(returns(ref))] + pub fn for_block(db: &dyn HirDatabase, block: BlockId) -> Option> { + let _p = tracing::info_span!("inherent_impls_in_block_query").entered(); - if let TyKind::RawPtr(ty, Mutability::Mut) = receiver_ty.value.kind() { - let const_ptr_ty = rustc_type_ir::Canonical { - max_universe: rustc_type_ir::UniverseIndex::ZERO, - value: Ty::new_ptr(interner, ty, Mutability::Not), - variables: receiver_ty.variables, - }; - iterate_method_candidates_by_receiver( - const_ptr_ty, - first_adjustment.with_autoref(AutorefOrPtrAdjustment::ToConstPtr), - )?; + let block_def_map = block_def_map(db, block); + let result = Self::collect_def_map(db, block_def_map); + if result.map.is_empty() { None } else { Some(Box::new(result)) } } - - ControlFlow::Continue(()) } -pub trait MethodCandidateCallback { - fn on_inherent_method( - &mut self, - adjustments: ReceiverAdjustments, - item: AssocItemId, - is_visible: bool, - ) -> ControlFlow<()>; +impl InherentImpls { + fn collect_def_map(db: &dyn HirDatabase, def_map: &DefMap) -> Self { + let mut map = FxHashMap::default(); + collect(db, def_map, &mut map); + let mut map = map + .into_iter() + .map(|(self_ty, impls)| (self_ty, impls.into_boxed_slice())) + .collect::>(); + map.shrink_to_fit(); + return Self { map }; + + fn collect( + db: &dyn HirDatabase, + def_map: &DefMap, + map: &mut FxHashMap>, + ) { + for (_module_id, module_data) in def_map.modules() { + for impl_id in module_data.scope.impls() { + let data = db.impl_signature(impl_id); + if data.target_trait.is_some() { + continue; + } - fn on_trait_method( - &mut self, - adjustments: ReceiverAdjustments, - item: AssocItemId, - is_visible: bool, - ) -> ControlFlow<()>; -} + let interner = DbInterner::new_with(db, None, None); + let self_ty = db.impl_self_ty(impl_id); + let self_ty = self_ty.instantiate_identity(); + if let Some(self_ty) = + simplify_type(interner, self_ty, TreatParams::InstantiateWithInfer) + { + map.entry(self_ty).or_default().push(impl_id); + } + } -impl MethodCandidateCallback for F -where - F: FnMut(ReceiverAdjustments, AssocItemId, bool) -> ControlFlow<()>, -{ - fn on_inherent_method( - &mut self, - adjustments: ReceiverAdjustments, - item: AssocItemId, - is_visible: bool, - ) -> ControlFlow<()> { - self(adjustments, item, is_visible) + // To better support custom derives, collect impls in all unnamed const items. + // const _: () = { ... }; + for konst in module_data.scope.unnamed_consts() { + let body = db.body(konst.into()); + for (_, block_def_map) in body.blocks(db) { + collect(db, block_def_map, map); + } + } + } + } } - fn on_trait_method( - &mut self, - adjustments: ReceiverAdjustments, - item: AssocItemId, - is_visible: bool, - ) -> ControlFlow<()> { - self(adjustments, item, is_visible) + pub fn for_self_ty(&self, self_ty: &SimplifiedType) -> &[ImplId] { + self.map.get(self_ty).map(|it| &**it).unwrap_or_default() } -} - -#[tracing::instrument(skip_all, fields(name = ?name))] -fn iterate_method_candidates_by_receiver<'db>( - table: &mut InferenceTable<'db>, - receiver_ty: Canonical<'db, Ty<'db>>, - receiver_adjustments: ReceiverAdjustments, - traits_in_scope: &FxHashSet, - visible_from_module: VisibleFromModule, - name: Option<&Name>, - callback: &mut dyn MethodCandidateCallback, -) -> ControlFlow<()> { - let receiver_ty = table.instantiate_canonical(receiver_ty); - // We're looking for methods with *receiver* type receiver_ty. These could - // be found in any of the derefs of receiver_ty, so we have to go through - // that, including raw derefs. - table.run_in_snapshot(|table| { - let mut autoderef = autoderef::Autoderef::new_no_tracking(table, receiver_ty) - .include_raw_pointers() - .use_receiver_trait(); - while let Some((self_ty, _)) = autoderef.next() { - iterate_inherent_methods( - self_ty, - autoderef.table, - name, - Some(receiver_ty), - Some(receiver_adjustments.clone()), - visible_from_module, - LookupMode::MethodCall, - &mut |adjustments, item, is_visible| { - callback.on_inherent_method(adjustments, item, is_visible) - }, - )? - } - ControlFlow::Continue(()) - })?; - table.run_in_snapshot(|table| { - let mut autoderef = autoderef::Autoderef::new_no_tracking(table, receiver_ty) - .include_raw_pointers() - .use_receiver_trait(); - while let Some((self_ty, _)) = autoderef.next() { - if matches!(self_ty.kind(), TyKind::Infer(rustc_type_ir::TyVar(_))) { - // don't try to resolve methods on unknown types - return ControlFlow::Continue(()); - } - iterate_trait_method_candidates( - self_ty, - autoderef.table, - traits_in_scope, - name, - Some(receiver_ty), - Some(receiver_adjustments.clone()), - LookupMode::MethodCall, - &mut |adjustments, item, is_visible| { - callback.on_trait_method(adjustments, item, is_visible) - }, - )? - } - ControlFlow::Continue(()) - }) + pub fn for_each_crate_and_block( + db: &dyn HirDatabase, + krate: Crate, + block: Option, + for_each: &mut dyn FnMut(&InherentImpls), + ) { + let blocks = std::iter::successors(block, |block| block.loc(db).module.containing_block()); + blocks.filter_map(|block| Self::for_block(db, block).as_deref()).for_each(&mut *for_each); + for_each(Self::for_crate(db, krate)); + } } -#[tracing::instrument(skip_all, fields(name = ?name))] -fn iterate_method_candidates_for_self_ty<'db>( - self_ty: &Canonical<'db, Ty<'db>>, - table: &mut InferenceTable<'db>, - traits_in_scope: &FxHashSet, - visible_from_module: VisibleFromModule, - name: Option<&Name>, - callback: &mut dyn MethodCandidateCallback, -) -> ControlFlow<()> { - table.run_in_snapshot(|table| { - let self_ty = table.instantiate_canonical(*self_ty); - iterate_inherent_methods( - self_ty, - table, - name, - None, - None, - visible_from_module, - LookupMode::Path, - &mut |adjustments, item, is_visible| { - callback.on_inherent_method(adjustments, item, is_visible) - }, - )?; - iterate_trait_method_candidates( - self_ty, - table, - traits_in_scope, - name, - None, - None, - LookupMode::Path, - &mut |adjustments, item, is_visible| { - callback.on_trait_method(adjustments, item, is_visible) - }, - ) - }) +#[derive(Debug, PartialEq)] +struct OneTraitImpls { + non_blanket_impls: FxHashMap>, + blanket_impls: Box<[ImplId]>, } -#[tracing::instrument(skip_all, fields(name = ?name, visible_from_module, receiver_ty))] -fn iterate_trait_method_candidates<'db>( - self_ty: Ty<'db>, - table: &mut InferenceTable<'db>, - traits_in_scope: &FxHashSet, - name: Option<&Name>, - receiver_ty: Option>, - receiver_adjustments: Option, - mode: LookupMode, - callback: &mut dyn FnMut(ReceiverAdjustments, AssocItemId, bool) -> ControlFlow<()>, -) -> ControlFlow<()> { - let db = table.db; - - let canonical_self_ty = table.canonicalize(self_ty); - let krate = table.trait_env.krate; - - 'traits: for &t in traits_in_scope { - let data = db.trait_signature(t); - - // Traits annotated with `#[rustc_skip_during_method_dispatch]` are skipped during - // method resolution, if the receiver is an array, and we're compiling for editions before - // 2021. - // This is to make `[a].into_iter()` not break code with the new `IntoIterator` impl for - // arrays. - if data.flags.contains(TraitFlags::SKIP_ARRAY_DURING_METHOD_DISPATCH) - && matches!(self_ty.kind(), TyKind::Array(..)) - { - // FIXME: this should really be using the edition of the method name's span, in case it - // comes from a macro - if !krate.data(db).edition.at_least_2021() { - continue; - } - } - if data.flags.contains(TraitFlags::SKIP_BOXED_SLICE_DURING_METHOD_DISPATCH) - && matches!( - self_ty.kind(), TyKind::Adt(adt_def, subst) - if is_box(table.db, adt_def.def_id().0) - && matches!(subst.type_at(0).kind(), TyKind::Slice(..)) - ) - { - // FIXME: this should really be using the edition of the method name's span, in case it - // comes from a macro - if !krate.data(db).edition.at_least_2024() { - continue; - } - } +#[derive(Default)] +struct OneTraitImplsBuilder { + non_blanket_impls: FxHashMap>, + blanket_impls: Vec, +} - // we'll be lazy about checking whether the type implements the - // trait, but if we find out it doesn't, we'll skip the rest of the - // iteration - let mut known_implemented = false; - for &(_, item) in t.trait_items(db).items.iter() { - // Don't pass a `visible_from_module` down to `is_valid_candidate`, - // since only inherent methods should be included into visibility checking. - let visible = match is_valid_trait_method_candidate( - table, - t, - name, - receiver_ty, - item, - self_ty, - mode, - ) { - IsValidCandidate::Yes => true, - IsValidCandidate::NotVisible => false, - IsValidCandidate::No => continue, - }; - if !known_implemented { - let goal = generic_implements_goal_ns(table, t, canonical_self_ty); - if next_trait_solve_canonical_in_ctxt(&table.infer_ctxt, goal).no_solution() { - continue 'traits; - } - } - known_implemented = true; - callback(receiver_adjustments.clone().unwrap_or_default(), item, visible)?; - } +impl OneTraitImplsBuilder { + fn finish(self) -> OneTraitImpls { + let mut non_blanket_impls = self + .non_blanket_impls + .into_iter() + .map(|(self_ty, impls)| (self_ty, impls.into_boxed_slice())) + .collect::>(); + non_blanket_impls.shrink_to_fit(); + let blanket_impls = self.blanket_impls.into_boxed_slice(); + OneTraitImpls { non_blanket_impls, blanket_impls } } - ControlFlow::Continue(()) } -#[tracing::instrument(skip_all, fields(name = ?name, visible_from_module, receiver_ty))] -fn iterate_inherent_methods<'db>( - self_ty: Ty<'db>, - table: &mut InferenceTable<'db>, - name: Option<&Name>, - receiver_ty: Option>, - receiver_adjustments: Option, - visible_from_module: VisibleFromModule, - mode: LookupMode, - callback: &mut dyn FnMut(ReceiverAdjustments, AssocItemId, bool) -> ControlFlow<()>, -) -> ControlFlow<()> { - let db = table.db; - let env = table.trait_env.clone(); - - // For trait object types and placeholder types with trait bounds, the methods of the trait and - // its super traits are considered inherent methods. This matters because these methods have - // higher priority than the other traits' methods, which would be considered in - // `iterate_trait_method_candidates()` only after this function. - match self_ty.kind() { - TyKind::Param(_) => { - let env = table.trait_env.clone(); - let traits = - env.traits_in_scope_from_clauses(self_ty).flat_map(|t| all_super_traits(db, t)); - iterate_inherent_trait_methods( - self_ty, - table, - name, - receiver_ty, - receiver_adjustments.clone(), - callback, - traits, - mode, - )?; - } - TyKind::Dynamic(bounds, _) => { - if let Some(principal_trait) = bounds.principal_def_id() { - let traits = all_super_traits(db, principal_trait.0); - iterate_inherent_trait_methods( - self_ty, - table, - name, - receiver_ty, - receiver_adjustments.clone(), - callback, - traits.into_iter(), - mode, - )?; - } - } - _ => {} - } +#[derive(Debug, PartialEq)] +pub struct TraitImpls { + map: FxHashMap, +} - let def_crates = match def_crates(db, self_ty, env.krate) { - Some(k) => k, - None => return ControlFlow::Continue(()), - }; +#[salsa::tracked] +impl TraitImpls { + #[salsa::tracked(returns(ref))] + pub fn for_crate(db: &dyn HirDatabase, krate: Crate) -> Arc { + let _p = tracing::info_span!("inherent_impls_in_crate_query", ?krate).entered(); - let (module, mut block) = match visible_from_module { - VisibleFromModule::Filter(module) => (Some(module), module.containing_block()), - VisibleFromModule::IncludeBlock(block) => (None, Some(block)), - VisibleFromModule::None => (None, None), - }; + let crate_def_map = crate_def_map(db, krate); + let result = Self::collect_def_map(db, crate_def_map); + Arc::new(result) + } - while let Some(block_id) = block { - if let Some(impls) = db.inherent_impls_in_block(block_id) { - impls_for_self_ty( - &impls, - self_ty, - table, - name, - receiver_ty, - receiver_adjustments.clone(), - module, - callback, - )?; - } + #[salsa::tracked(returns(ref))] + pub fn for_block(db: &dyn HirDatabase, block: BlockId) -> Option> { + let _p = tracing::info_span!("inherent_impls_in_block_query").entered(); - block = block_def_map(db, block_id).parent().and_then(|module| module.containing_block()); + let block_def_map = block_def_map(db, block); + let result = Self::collect_def_map(db, block_def_map); + if result.map.is_empty() { None } else { Some(Box::new(result)) } } - for krate in def_crates { - let impls = db.inherent_impls_in_crate(krate); - impls_for_self_ty( - &impls, - self_ty, - table, - name, - receiver_ty, - receiver_adjustments.clone(), - module, - callback, - )?; + #[salsa::tracked(returns(ref))] + pub fn for_crate_and_deps(db: &dyn HirDatabase, krate: Crate) -> Box<[Arc]> { + db.transitive_deps(krate).iter().map(|&dep| Self::for_crate(db, dep).clone()).collect() } - return ControlFlow::Continue(()); +} - #[tracing::instrument(skip_all, fields(name = ?name, visible_from_module, receiver_ty))] - fn iterate_inherent_trait_methods<'db>( - self_ty: Ty<'db>, - table: &mut InferenceTable<'db>, - name: Option<&Name>, - receiver_ty: Option>, - receiver_adjustments: Option, - callback: &mut dyn FnMut(ReceiverAdjustments, AssocItemId, bool) -> ControlFlow<()>, - traits: impl Iterator, - mode: LookupMode, - ) -> ControlFlow<()> { - let db = table.db; - for t in traits { - let data = t.trait_items(db); - for &(_, item) in data.items.iter() { - // We don't pass `visible_from_module` as all trait items should be visible. - let visible = match is_valid_trait_method_candidate( - table, - t, - name, - receiver_ty, - item, - self_ty, - mode, - ) { - IsValidCandidate::Yes => true, - IsValidCandidate::NotVisible => false, - IsValidCandidate::No => continue, - }; - callback(receiver_adjustments.clone().unwrap_or_default(), item, visible)?; - } - } - ControlFlow::Continue(()) - } +impl TraitImpls { + fn collect_def_map(db: &dyn HirDatabase, def_map: &DefMap) -> Self { + let mut map = FxHashMap::default(); + collect(db, def_map, &mut map); + let mut map = map + .into_iter() + .map(|(trait_id, trait_map)| (trait_id, trait_map.finish())) + .collect::>(); + map.shrink_to_fit(); + return Self { map }; + + fn collect( + db: &dyn HirDatabase, + def_map: &DefMap, + map: &mut FxHashMap, + ) { + for (_module_id, module_data) in def_map.modules() { + for impl_id in module_data.scope.impls() { + // Reservation impls should be ignored during trait resolution, so we never need + // them during type analysis. See rust-lang/rust#64631 for details. + // + // FIXME: Reservation impls should be considered during coherence checks. If we are + // (ever) to implement coherence checks, this filtering should be done by the trait + // solver. + if db.attrs(impl_id.into()).by_key(sym::rustc_reservation_impl).exists() { + continue; + } + let trait_ref = match db.impl_trait(impl_id) { + Some(tr) => tr.instantiate_identity(), + None => continue, + }; + let self_ty = trait_ref.self_ty(); + let interner = DbInterner::new_with(db, None, None); + let entry = map.entry(trait_ref.def_id.0).or_default(); + match simplify_type(interner, self_ty, TreatParams::InstantiateWithInfer) { + Some(self_ty) => { + entry.non_blanket_impls.entry(self_ty).or_default().push(impl_id) + } + None => entry.blanket_impls.push(impl_id), + } + } - #[tracing::instrument(skip_all, fields(name = ?name, visible_from_module, receiver_ty))] - fn impls_for_self_ty<'db>( - impls: &InherentImpls, - self_ty: Ty<'db>, - table: &mut InferenceTable<'db>, - name: Option<&Name>, - receiver_ty: Option>, - receiver_adjustments: Option, - visible_from_module: Option, - callback: &mut dyn FnMut(ReceiverAdjustments, AssocItemId, bool) -> ControlFlow<()>, - ) -> ControlFlow<()> { - for &impl_id in impls.for_self_ty(self_ty) { - for &(ref item_name, item) in impl_id.impl_items(table.db).items.iter() { - let visible = match is_valid_impl_method_candidate( - table, - self_ty, - receiver_ty, - visible_from_module, - name, - impl_id, - item, - item_name, - ) { - IsValidCandidate::Yes => true, - IsValidCandidate::NotVisible => false, - IsValidCandidate::No => continue, - }; - callback(receiver_adjustments.clone().unwrap_or_default(), item, visible)?; + // To better support custom derives, collect impls in all unnamed const items. + // const _: () = { ... }; + for konst in module_data.scope.unnamed_consts() { + let body = db.body(konst.into()); + for (_, block_def_map) in body.blocks(db) { + collect(db, block_def_map, map); + } + } } } - ControlFlow::Continue(()) } -} -/// Returns the receiver type for the index trait call. -pub(crate) fn resolve_indexing_op<'db>( - table: &mut InferenceTable<'db>, - ty: Canonical<'db, Ty<'db>>, - index_trait: TraitId, -) -> Option { - let ty = table.instantiate_canonical(ty); - let deref_chain = autoderef_method_receiver(table, ty); - for (ty, adj) in deref_chain { - let goal = generic_implements_goal_ns(table, index_trait, ty); - if !next_trait_solve_canonical_in_ctxt(&table.infer_ctxt, goal).no_solution() { - return Some(adj); - } + pub fn blanket_impls(&self, for_trait: TraitId) -> &[ImplId] { + self.map.get(&for_trait).map(|it| &*it.blanket_impls).unwrap_or_default() } - None -} -// FIXME: Replace this with a `Try` impl once stable -macro_rules! check_that { - ($cond:expr) => { - if !$cond { - return IsValidCandidate::No; - } - }; -} + /// Queries whether `self_ty` has potentially applicable implementations of `trait_`. + pub fn has_impls_for_trait_and_self_ty( + &self, + trait_: TraitId, + self_ty: &SimplifiedType, + ) -> bool { + self.map.get(&trait_).is_some_and(|trait_impls| { + trait_impls.non_blanket_impls.contains_key(self_ty) + || !trait_impls.blanket_impls.is_empty() + }) + } -#[derive(Debug)] -enum IsValidCandidate { - Yes, - No, - NotVisible, -} + pub fn for_trait_and_self_ty(&self, trait_: TraitId, self_ty: &SimplifiedType) -> &[ImplId] { + self.map + .get(&trait_) + .and_then(|map| map.non_blanket_impls.get(self_ty)) + .map(|it| &**it) + .unwrap_or_default() + } -#[tracing::instrument(skip_all, fields(name))] -fn is_valid_impl_method_candidate<'db>( - table: &mut InferenceTable<'db>, - self_ty: Ty<'db>, - receiver_ty: Option>, - visible_from_module: Option, - name: Option<&Name>, - impl_id: ImplId, - item: AssocItemId, - item_name: &Name, -) -> IsValidCandidate { - match item { - AssocItemId::FunctionId(f) => is_valid_impl_fn_candidate( - table, - impl_id, - f, - name, - receiver_ty, - self_ty, - visible_from_module, - item_name, - ), - AssocItemId::ConstId(c) => { - let db = table.db; - check_that!(receiver_ty.is_none()); - check_that!(name.is_none_or(|n| n == item_name)); - - if let Some(from_module) = visible_from_module - && !db.assoc_visibility(c.into()).is_visible_from(db, from_module) - { - cov_mark::hit!(const_candidate_not_visible); - return IsValidCandidate::NotVisible; + pub fn for_trait(&self, trait_: TraitId, mut callback: impl FnMut(&[ImplId])) { + if let Some(impls) = self.map.get(&trait_) { + callback(&impls.blanket_impls); + for impls in impls.non_blanket_impls.values() { + callback(impls); } - let self_ty_matches = table.run_in_snapshot(|table| { - let impl_args = table.fresh_args_for_item(impl_id.into()); - let expected_self_ty = - db.impl_self_ty(impl_id).instantiate(table.interner(), impl_args); - table.unify(expected_self_ty, self_ty) - }); - if !self_ty_matches { - cov_mark::hit!(const_candidate_self_type_mismatch); - return IsValidCandidate::No; - } - IsValidCandidate::Yes } - _ => IsValidCandidate::No, } -} - -/// Checks whether a given `AssocItemId` is applicable for `receiver_ty`. -#[tracing::instrument(skip_all, fields(name))] -fn is_valid_trait_method_candidate<'db>( - table: &mut InferenceTable<'db>, - trait_id: TraitId, - name: Option<&Name>, - receiver_ty: Option>, - item: AssocItemId, - self_ty: Ty<'db>, - mode: LookupMode, -) -> IsValidCandidate { - let db = table.db; - match item { - AssocItemId::FunctionId(fn_id) => { - let data = db.function_signature(fn_id); - - check_that!(name.is_none_or(|n| n == &data.name)); - - table.run_in_snapshot(|table| { - let impl_subst = table.fresh_args_for_item(trait_id.into()); - let expect_self_ty = impl_subst.type_at(0); - - check_that!(table.unify(expect_self_ty, self_ty)); - - if let Some(receiver_ty) = receiver_ty { - check_that!(data.has_self_param()); - - let args = table.fill_rest_fresh_args(fn_id.into(), impl_subst); - - let sig = db.callable_item_signature(fn_id.into()); - let expected_receiver = sig - .map_bound(|s| s.skip_binder().inputs_and_output.as_slice()[0]) - .instantiate(table.interner(), args); - - // FIXME: Clean up this mess with some context struct like rustc's `ProbeContext` - let variance = match mode { - LookupMode::MethodCall => rustc_type_ir::Variance::Covariant, - LookupMode::Path => rustc_type_ir::Variance::Invariant, - }; - let res = table - .infer_ctxt - .at(&ObligationCause::dummy(), table.trait_env.env) - .relate(expected_receiver, variance, receiver_ty); - let Ok(infer_ok) = res else { - return IsValidCandidate::No; - }; - if !infer_ok.obligations.is_empty() { - let mut ctxt = ObligationCtxt::new(&table.infer_ctxt); - ctxt.register_obligations(infer_ok.into_obligations()); - // FIXME: Are we doing this correctly? Probably better to follow rustc more closely. - check_that!(ctxt.try_evaluate_obligations().is_empty()); - } - - check_that!(table.unify(receiver_ty, expected_receiver)); - } - - IsValidCandidate::Yes - }) - } - AssocItemId::ConstId(c) => { - check_that!(receiver_ty.is_none()); - check_that!(name.is_none_or(|n| db.const_signature(c).name.as_ref() == Some(n))); - - IsValidCandidate::Yes + pub fn for_self_ty(&self, self_ty: &SimplifiedType, mut callback: impl FnMut(&[ImplId])) { + for for_trait in self.map.values() { + if let Some(for_ty) = for_trait.non_blanket_impls.get(self_ty) { + callback(for_ty); + } } - _ => IsValidCandidate::No, } -} -#[tracing::instrument(skip_all, fields(name))] -fn is_valid_impl_fn_candidate<'db>( - table: &mut InferenceTable<'db>, - impl_id: ImplId, - fn_id: FunctionId, - name: Option<&Name>, - receiver_ty: Option>, - self_ty: Ty<'db>, - visible_from_module: Option, - item_name: &Name, -) -> IsValidCandidate { - check_that!(name.is_none_or(|n| n == item_name)); - - let db = table.db; - let data = db.function_signature(fn_id); - - if let Some(from_module) = visible_from_module - && !db.assoc_visibility(fn_id.into()).is_visible_from(db, from_module) - { - cov_mark::hit!(autoderef_candidate_not_visible); - return IsValidCandidate::NotVisible; + pub fn for_each_crate_and_block( + db: &dyn HirDatabase, + krate: Crate, + block: Option, + for_each: &mut dyn FnMut(&TraitImpls), + ) { + let blocks = std::iter::successors(block, |block| block.loc(db).module.containing_block()); + blocks.filter_map(|block| Self::for_block(db, block).as_deref()).for_each(&mut *for_each); + Self::for_crate_and_deps(db, krate).iter().map(|it| &**it).for_each(for_each); } - table.run_in_snapshot(|table| { - let _p = tracing::info_span!("subst_for_def").entered(); - let impl_subst = table.infer_ctxt.fresh_args_for_item(impl_id.into()); - let expect_self_ty = db.impl_self_ty(impl_id).instantiate(table.interner(), &impl_subst); - check_that!(table.unify(expect_self_ty, self_ty)); - - if let Some(receiver_ty) = receiver_ty { - let _p = tracing::info_span!("check_receiver_ty").entered(); - check_that!(data.has_self_param()); - - let args = table.infer_ctxt.fresh_args_for_item(fn_id.into()); - - let sig = db.callable_item_signature(fn_id.into()); - let expected_receiver = sig - .map_bound(|s| s.skip_binder().inputs_and_output.as_slice()[0]) - .instantiate(table.interner(), args); - - check_that!(table.unify(receiver_ty, expected_receiver)); - } - - // We need to consider the bounds on the impl to distinguish functions of the same name - // for a type. - let predicates = db.generic_predicates(impl_id.into()); - let Some(predicates) = predicates.instantiate(table.interner(), impl_subst) else { - return IsValidCandidate::Yes; + /// Like [`Self::for_each_crate_and_block()`], but takes in account two blocks, one for a trait and one for a self type. + pub fn for_each_crate_and_block_trait_and_type( + db: &dyn HirDatabase, + krate: Crate, + type_block: Option, + trait_block: Option, + for_each: &mut dyn FnMut(&TraitImpls), + ) { + let in_self_and_deps = TraitImpls::for_crate_and_deps(db, krate); + in_self_and_deps.iter().for_each(|impls| for_each(impls)); + + // We must not provide duplicate impls to the solver. Therefore we work with the following strategy: + // start from each block, and walk ancestors until you meet the other block. If they never meet, + // that means there can't be duplicate impls; if they meet, we stop the search of the deeper block. + // This breaks when they are equal (both will stop immediately), therefore we handle this case + // specifically. + let blocks_iter = |block: Option| { + std::iter::successors(block, |block| block.loc(db).module.containing_block()) }; - - let mut ctxt = ObligationCtxt::new(&table.infer_ctxt); - - ctxt.register_obligations(predicates.into_iter().map(|p| { - PredicateObligation::new( - table.interner(), - ObligationCause::new(), - table.trait_env.env, - p.0, - ) - })); - - if ctxt.try_evaluate_obligations().is_empty() { - IsValidCandidate::Yes + let for_each_block = |current_block: Option, other_block: Option| { + blocks_iter(current_block) + .take_while(move |&block| { + other_block.is_none_or(|other_block| other_block != block) + }) + .filter_map(move |block| TraitImpls::for_block(db, block).as_deref()) + }; + if trait_block == type_block { + blocks_iter(trait_block) + .filter_map(|block| TraitImpls::for_block(db, block).as_deref()) + .for_each(for_each); } else { - IsValidCandidate::No + for_each_block(trait_block, type_block).for_each(&mut *for_each); + for_each_block(type_block, trait_block).for_each(for_each); } - }) -} - -/// This creates Substs for a trait with the given Self type and type variables -/// for all other parameters, to query the trait solver with it. -#[tracing::instrument(skip_all)] -fn generic_implements_goal_ns<'db>( - table: &mut InferenceTable<'db>, - trait_: TraitId, - self_ty: Canonical<'db, Ty<'db>>, -) -> Canonical<'db, Goal<'db, Predicate<'db>>> { - let args = table.infer_ctxt.fresh_args_for_item(SolverDefId::TraitId(trait_)); - let self_ty = table.instantiate_canonical(self_ty); - let trait_ref = - rustc_type_ir::TraitRef::new_from_args(table.infer_ctxt.interner, trait_.into(), args) - .with_replaced_self_ty(table.infer_ctxt.interner, self_ty); - let goal = Goal::new(table.infer_ctxt.interner, table.trait_env.env, trait_ref); - - table.canonicalize(goal) -} - -fn autoderef_method_receiver<'db>( - table: &mut InferenceTable<'db>, - ty: Ty<'db>, -) -> Vec<(Canonical<'db, Ty<'db>>, ReceiverAdjustments)> { - let interner = table.interner(); - let mut deref_chain = Vec::new(); - let mut autoderef = autoderef::Autoderef::new_no_tracking(table, ty).use_receiver_trait(); - while let Some((ty, derefs)) = autoderef.next() { - deref_chain.push(( - autoderef.table.canonicalize(ty), - ReceiverAdjustments { autoref: None, autoderefs: derefs, unsize_array: false }, - )); - } - // As a last step, we can do array unsizing (that's the only unsizing that rustc does for method receivers!) - if let Some((rustc_type_ir::Array(parameters, _), variables, max_universe, adj)) = - deref_chain.last().map(|d| (d.0.value.kind(), d.0.variables, d.0.max_universe, d.1.clone())) - { - let unsized_ty = Ty::new_slice(interner, parameters); - deref_chain.push(( - Canonical { max_universe, value: unsized_ty, variables }, - ReceiverAdjustments { unsize_array: true, ..adj.clone() }, - )); } - deref_chain } diff --git a/crates/hir-ty/src/method_resolution/confirm.rs b/crates/hir-ty/src/method_resolution/confirm.rs new file mode 100644 index 000000000000..9e8791edde3b --- /dev/null +++ b/crates/hir-ty/src/method_resolution/confirm.rs @@ -0,0 +1,616 @@ +//! Confirmation step of method selection, meaning ensuring the selected candidate +//! is valid and registering all obligations. + +use hir_def::{ + FunctionId, GenericDefId, GenericParamId, ItemContainerId, TraitId, + expr_store::path::{GenericArg as HirGenericArg, GenericArgs as HirGenericArgs}, + hir::{ExprId, generics::GenericParamDataRef}, + lang_item::LangItem, +}; +use rustc_type_ir::{ + TypeFoldable, + elaborate::elaborate, + inherent::{BoundExistentialPredicates, IntoKind, SliceLike, Ty as _}, +}; +use tracing::debug; + +use crate::{ + Adjust, Adjustment, AutoBorrow, IncorrectGenericsLenKind, InferenceDiagnostic, + LifetimeElisionKind, PointerCast, + db::HirDatabase, + infer::{AllowTwoPhase, AutoBorrowMutability, InferenceContext, TypeMismatch}, + lower::{ + GenericPredicates, + path::{GenericArgsLowerer, TypeLikeConst, substs_from_args_and_bindings}, + }, + method_resolution::{CandidateId, MethodCallee, probe}, + next_solver::{ + Binder, Clause, ClauseKind, Const, DbInterner, EarlyParamRegion, ErrorGuaranteed, FnSig, + GenericArg, GenericArgs, ParamConst, PolyExistentialTraitRef, PolyTraitRef, Region, + TraitRef, Ty, TyKind, + infer::{ + BoundRegionConversionTime, InferCtxt, + traits::{ObligationCause, PredicateObligation}, + }, + util::{clauses_as_obligations, upcast_choices}, + }, +}; + +struct ConfirmContext<'a, 'b, 'db> { + ctx: &'a mut InferenceContext<'b, 'db>, + candidate: FunctionId, + expr: ExprId, +} + +#[derive(Debug)] +pub(crate) struct ConfirmResult<'db> { + pub(crate) callee: MethodCallee<'db>, + pub(crate) illegal_sized_bound: bool, + pub(crate) adjustments: Box<[Adjustment<'db>]>, +} + +impl<'a, 'db> InferenceContext<'a, 'db> { + pub(crate) fn confirm_method( + &mut self, + pick: &probe::Pick<'db>, + unadjusted_self_ty: Ty<'db>, + expr: ExprId, + generic_args: Option<&HirGenericArgs>, + ) -> ConfirmResult<'db> { + debug!( + "confirm(unadjusted_self_ty={:?}, pick={:?}, generic_args={:?})", + unadjusted_self_ty, pick, generic_args, + ); + + let CandidateId::FunctionId(candidate) = pick.item else { + panic!("confirmation is only done for method calls, not path lookups"); + }; + let mut confirm_cx = ConfirmContext::new(self, candidate, expr); + confirm_cx.confirm(unadjusted_self_ty, pick, generic_args) + } +} + +impl<'a, 'b, 'db> ConfirmContext<'a, 'b, 'db> { + fn new( + ctx: &'a mut InferenceContext<'b, 'db>, + candidate: FunctionId, + expr: ExprId, + ) -> ConfirmContext<'a, 'b, 'db> { + ConfirmContext { ctx, candidate, expr } + } + + #[inline] + fn db(&self) -> &'db dyn HirDatabase { + self.ctx.table.infer_ctxt.interner.db + } + + #[inline] + fn interner(&self) -> DbInterner<'db> { + self.ctx.table.infer_ctxt.interner + } + + #[inline] + fn infcx(&self) -> &InferCtxt<'db> { + &self.ctx.table.infer_ctxt + } + + fn confirm( + &mut self, + unadjusted_self_ty: Ty<'db>, + pick: &probe::Pick<'db>, + generic_args: Option<&HirGenericArgs>, + ) -> ConfirmResult<'db> { + // Adjust the self expression the user provided and obtain the adjusted type. + let (self_ty, adjustments) = self.adjust_self_ty(unadjusted_self_ty, pick); + + // Create generic args for the method's type parameters. + let rcvr_args = self.fresh_receiver_args(self_ty, pick); + let all_args = self.instantiate_method_args(generic_args, rcvr_args); + + debug!("rcvr_args={rcvr_args:?}, all_args={all_args:?}"); + + // Create the final signature for the method, replacing late-bound regions. + let (method_sig, method_predicates) = + self.instantiate_method_sig(pick, all_args.as_slice()); + + // If there is a `Self: Sized` bound and `Self` is a trait object, it is possible that + // something which derefs to `Self` actually implements the trait and the caller + // wanted to make a static dispatch on it but forgot to import the trait. + // See test `tests/ui/issues/issue-35976.rs`. + // + // In that case, we'll error anyway, but we'll also re-run the search with all traits + // in scope, and if we find another method which can be used, we'll output an + // appropriate hint suggesting to import the trait. + let filler_args = GenericArgs::fill_rest( + self.interner(), + self.candidate.into(), + rcvr_args, + |index, id, _| match id { + GenericParamId::TypeParamId(id) => Ty::new_param(self.interner(), id, index).into(), + GenericParamId::ConstParamId(id) => { + Const::new_param(self.interner(), ParamConst { id, index }).into() + } + GenericParamId::LifetimeParamId(id) => { + Region::new_early_param(self.interner(), EarlyParamRegion { id, index }).into() + } + }, + ); + let illegal_sized_bound = self.predicates_require_illegal_sized_bound( + GenericPredicates::query_all(self.db(), self.candidate.into()) + .iter_instantiated_copied(self.interner(), filler_args.as_slice()), + ); + + // Unify the (adjusted) self type with what the method expects. + // + // SUBTLE: if we want good error messages, because of "guessing" while matching + // traits, no trait system method can be called before this point because they + // could alter our Self-type, except for normalizing the receiver from the + // signature (which is also done during probing). + let method_sig_rcvr = method_sig.inputs().as_slice()[0]; + debug!( + "confirm: self_ty={:?} method_sig_rcvr={:?} method_sig={:?}", + self_ty, method_sig_rcvr, method_sig + ); + self.unify_receivers(self_ty, method_sig_rcvr, pick); + + // Make sure nobody calls `drop()` explicitly. + self.check_for_illegal_method_calls(); + + // Lint when an item is shadowing a supertrait item. + self.lint_shadowed_supertrait_items(pick); + + // Add any trait/regions obligations specified on the method's type parameters. + // We won't add these if we encountered an illegal sized bound, so that we can use + // a custom error in that case. + if !illegal_sized_bound { + self.add_obligations(method_sig, all_args, method_predicates); + } + + // Create the final `MethodCallee`. + let callee = MethodCallee { def_id: self.candidate, args: all_args, sig: method_sig }; + ConfirmResult { callee, illegal_sized_bound, adjustments } + } + + /////////////////////////////////////////////////////////////////////////// + // ADJUSTMENTS + + fn adjust_self_ty( + &mut self, + unadjusted_self_ty: Ty<'db>, + pick: &probe::Pick<'db>, + ) -> (Ty<'db>, Box<[Adjustment<'db>]>) { + // Commit the autoderefs by calling `autoderef` again, but this + // time writing the results into the various typeck results. + let mut autoderef = self.ctx.table.autoderef_with_tracking(unadjusted_self_ty); + let Some((mut target, n)) = autoderef.nth(pick.autoderefs) else { + return (Ty::new_error(self.interner(), ErrorGuaranteed), Box::new([])); + }; + assert_eq!(n, pick.autoderefs); + + let mut adjustments = + self.ctx.table.register_infer_ok(autoderef.adjust_steps_as_infer_ok()); + match pick.autoref_or_ptr_adjustment { + Some(probe::AutorefOrPtrAdjustment::Autoref { mutbl, unsize }) => { + let region = self.infcx().next_region_var(); + // Type we're wrapping in a reference, used later for unsizing + let base_ty = target; + + target = Ty::new_ref(self.interner(), region, target, mutbl); + + // Method call receivers are the primary use case + // for two-phase borrows. + let mutbl = AutoBorrowMutability::new(mutbl, AllowTwoPhase::Yes); + + adjustments + .push(Adjustment { kind: Adjust::Borrow(AutoBorrow::Ref(mutbl)), target }); + + if unsize { + let unsized_ty = if let TyKind::Array(elem_ty, _) = base_ty.kind() { + Ty::new_slice(self.interner(), elem_ty) + } else { + panic!( + "AutorefOrPtrAdjustment's unsize flag should only be set for array ty, found {:?}", + base_ty + ) + }; + target = Ty::new_ref(self.interner(), region, unsized_ty, mutbl.into()); + adjustments + .push(Adjustment { kind: Adjust::Pointer(PointerCast::Unsize), target }); + } + } + Some(probe::AutorefOrPtrAdjustment::ToConstPtr) => { + target = match target.kind() { + TyKind::RawPtr(ty, mutbl) => { + assert!(mutbl.is_mut()); + Ty::new_imm_ptr(self.interner(), ty) + } + other => panic!("Cannot adjust receiver type {other:?} to const ptr"), + }; + + adjustments.push(Adjustment { + kind: Adjust::Pointer(PointerCast::MutToConstPointer), + target, + }); + } + None => {} + } + + (target, adjustments.into_boxed_slice()) + } + + /// Returns a set of generic parameters for the method *receiver* where all type and region + /// parameters are instantiated with fresh variables. This generic parameters does not include any + /// parameters declared on the method itself. + /// + /// Note that this generic parameters may include late-bound regions from the impl level. If so, + /// these are instantiated later in the `instantiate_method_sig` routine. + fn fresh_receiver_args( + &mut self, + self_ty: Ty<'db>, + pick: &probe::Pick<'db>, + ) -> GenericArgs<'db> { + match pick.kind { + probe::InherentImplPick(impl_def_id) => { + self.infcx().fresh_args_for_item(impl_def_id.into()) + } + + probe::ObjectPick(trait_def_id) => { + // If the trait is not object safe (specifically, we care about when + // the receiver is not valid), then there's a chance that we will not + // actually be able to recover the object by derefing the receiver like + // we should if it were valid. + if self.db().dyn_compatibility_of_trait(trait_def_id).is_some() { + return GenericArgs::error_for_item(self.interner(), trait_def_id.into()); + } + + self.extract_existential_trait_ref(self_ty, |this, object_ty, principal| { + // The object data has no entry for the Self + // Type. For the purposes of this method call, we + // instantiate the object type itself. This + // wouldn't be a sound instantiation in all cases, + // since each instance of the object type is a + // different existential and hence could match + // distinct types (e.g., if `Self` appeared as an + // argument type), but those cases have already + // been ruled out when we deemed the trait to be + // "dyn-compatible". + let original_poly_trait_ref = + principal.with_self_ty(this.interner(), object_ty); + let upcast_poly_trait_ref = this.upcast(original_poly_trait_ref, trait_def_id); + let upcast_trait_ref = + this.instantiate_binder_with_fresh_vars(upcast_poly_trait_ref); + debug!( + "original_poly_trait_ref={:?} upcast_trait_ref={:?} target_trait={:?}", + original_poly_trait_ref, upcast_trait_ref, trait_def_id + ); + upcast_trait_ref.args + }) + } + + probe::TraitPick(trait_def_id) => { + // Make a trait reference `$0 : Trait<$1...$n>` + // consisting entirely of type variables. Later on in + // the process we will unify the transformed-self-type + // of the method with the actual type in order to + // unify some of these variables. + self.infcx().fresh_args_for_item(trait_def_id.into()) + } + + probe::WhereClausePick(poly_trait_ref) => { + // Where clauses can have bound regions in them. We need to instantiate + // those to convert from a poly-trait-ref to a trait-ref. + self.instantiate_binder_with_fresh_vars(poly_trait_ref).args + } + } + } + + fn extract_existential_trait_ref(&self, self_ty: Ty<'db>, mut closure: F) -> R + where + F: FnMut(&ConfirmContext<'a, 'b, 'db>, Ty<'db>, PolyExistentialTraitRef<'db>) -> R, + { + // If we specified that this is an object method, then the + // self-type ought to be something that can be dereferenced to + // yield an object-type (e.g., `&Object` or `Box` + // etc). + + let mut autoderef = self.ctx.table.autoderef(self_ty); + + // We don't need to gate this behind arbitrary self types + // per se, but it does make things a bit more gated. + if self.ctx.unstable_features.arbitrary_self_types + || self.ctx.unstable_features.arbitrary_self_types_pointers + { + autoderef = autoderef.use_receiver_trait(); + } + + autoderef + .include_raw_pointers() + .find_map(|(ty, _)| match ty.kind() { + TyKind::Dynamic(data, ..) => Some(closure( + self, + ty, + data.principal().expect("calling trait method on empty object?"), + )), + _ => None, + }) + .unwrap_or_else(|| { + panic!("self-type `{:?}` for ObjectPick never dereferenced to an object", self_ty) + }) + } + + fn instantiate_method_args( + &mut self, + generic_args: Option<&HirGenericArgs>, + parent_args: GenericArgs<'db>, + ) -> GenericArgs<'db> { + struct LowererCtx<'a, 'b, 'db> { + ctx: &'a mut InferenceContext<'b, 'db>, + expr: ExprId, + parent_args: &'a [GenericArg<'db>], + } + + impl<'db> GenericArgsLowerer<'db> for LowererCtx<'_, '_, 'db> { + fn report_len_mismatch( + &mut self, + def: GenericDefId, + provided_count: u32, + expected_count: u32, + kind: IncorrectGenericsLenKind, + ) { + self.ctx.push_diagnostic(InferenceDiagnostic::MethodCallIncorrectGenericsLen { + expr: self.expr, + provided_count, + expected_count, + kind, + def, + }); + } + + fn report_arg_mismatch( + &mut self, + param_id: GenericParamId, + arg_idx: u32, + has_self_arg: bool, + ) { + self.ctx.push_diagnostic(InferenceDiagnostic::MethodCallIncorrectGenericsOrder { + expr: self.expr, + param_id, + arg_idx, + has_self_arg, + }); + } + + fn provided_kind( + &mut self, + param_id: GenericParamId, + param: GenericParamDataRef<'_>, + arg: &HirGenericArg, + ) -> GenericArg<'db> { + match (param, arg) { + ( + GenericParamDataRef::LifetimeParamData(_), + HirGenericArg::Lifetime(lifetime), + ) => self.ctx.make_body_lifetime(*lifetime).into(), + (GenericParamDataRef::TypeParamData(_), HirGenericArg::Type(type_ref)) => { + self.ctx.make_body_ty(*type_ref).into() + } + (GenericParamDataRef::ConstParamData(_), HirGenericArg::Const(konst)) => { + let GenericParamId::ConstParamId(const_id) = param_id else { + unreachable!("non-const param ID for const param"); + }; + let const_ty = self.ctx.db.const_param_ty_ns(const_id); + self.ctx.make_body_const(*konst, const_ty).into() + } + _ => unreachable!("unmatching param kinds were passed to `provided_kind()`"), + } + } + + fn provided_type_like_const( + &mut self, + const_ty: Ty<'db>, + arg: TypeLikeConst<'_>, + ) -> Const<'db> { + match arg { + TypeLikeConst::Path(path) => self.ctx.make_path_as_body_const(path, const_ty), + TypeLikeConst::Infer => self.ctx.table.next_const_var(), + } + } + + fn inferred_kind( + &mut self, + _def: GenericDefId, + param_id: GenericParamId, + _param: GenericParamDataRef<'_>, + _infer_args: bool, + _preceding_args: &[GenericArg<'db>], + ) -> GenericArg<'db> { + // Always create an inference var, even when `infer_args == false`. This helps with diagnostics, + // and I think it's also required in the presence of `impl Trait` (that must be inferred). + self.ctx.table.next_var_for_param(param_id) + } + + fn parent_arg(&mut self, param_idx: u32, _param_id: GenericParamId) -> GenericArg<'db> { + self.parent_args[param_idx as usize] + } + + fn report_elided_lifetimes_in_path( + &mut self, + _def: GenericDefId, + _expected_count: u32, + _hard_error: bool, + ) { + unreachable!("we set `LifetimeElisionKind::Infer`") + } + + fn report_elision_failure(&mut self, _def: GenericDefId, _expected_count: u32) { + unreachable!("we set `LifetimeElisionKind::Infer`") + } + + fn report_missing_lifetime(&mut self, _def: GenericDefId, _expected_count: u32) { + unreachable!("we set `LifetimeElisionKind::Infer`") + } + } + + substs_from_args_and_bindings( + self.db(), + self.ctx.body, + generic_args, + self.candidate.into(), + true, + LifetimeElisionKind::Infer, + false, + None, + &mut LowererCtx { ctx: self.ctx, expr: self.expr, parent_args: parent_args.as_slice() }, + ) + } + + fn unify_receivers( + &mut self, + self_ty: Ty<'db>, + method_self_ty: Ty<'db>, + pick: &probe::Pick<'db>, + ) { + debug!( + "unify_receivers: self_ty={:?} method_self_ty={:?} pick={:?}", + self_ty, method_self_ty, pick + ); + let cause = ObligationCause::new(); + match self.ctx.table.at(&cause).sup(method_self_ty, self_ty) { + Ok(infer_ok) => { + self.ctx.table.register_infer_ok(infer_ok); + } + Err(_) => { + if self.ctx.unstable_features.arbitrary_self_types { + self.ctx.result.type_mismatches.insert( + self.expr.into(), + TypeMismatch { expected: method_self_ty, actual: self_ty }, + ); + } + } + } + } + + // NOTE: this returns the *unnormalized* predicates and method sig. Because of + // inference guessing, the predicates and method signature can't be normalized + // until we unify the `Self` type. + fn instantiate_method_sig<'c>( + &mut self, + pick: &probe::Pick<'db>, + all_args: &'c [GenericArg<'db>], + ) -> (FnSig<'db>, impl Iterator> + use<'c, 'db>) { + debug!("instantiate_method_sig(pick={:?}, all_args={:?})", pick, all_args); + + // Instantiate the bounds on the method with the + // type/early-bound-regions instantiations performed. There can + // be no late-bound regions appearing here. + let def_id = self.candidate; + let method_predicates = clauses_as_obligations( + GenericPredicates::query_all(self.db(), def_id.into()) + .iter_instantiated_copied(self.interner(), all_args), + ObligationCause::new(), + self.ctx.table.trait_env.env, + ); + + let sig = + self.db().callable_item_signature(def_id.into()).instantiate(self.interner(), all_args); + debug!("type scheme instantiated, sig={:?}", sig); + + let sig = self.instantiate_binder_with_fresh_vars(sig); + debug!("late-bound lifetimes from method instantiated, sig={:?}", sig); + + (sig, method_predicates) + } + + fn add_obligations( + &mut self, + sig: FnSig<'db>, + all_args: GenericArgs<'db>, + method_predicates: impl Iterator>, + ) { + debug!("add_obligations: sig={:?} all_args={:?}", sig, all_args); + + self.ctx.table.register_predicates(method_predicates); + + // this is a projection from a trait reference, so we have to + // make sure that the trait reference inputs are well-formed. + self.ctx.table.add_wf_bounds(all_args); + + // the function type must also be well-formed (this is not + // implied by the args being well-formed because of inherent + // impls and late-bound regions - see issue #28609). + for ty in sig.inputs_and_output { + self.ctx.table.register_wf_obligation(ty.into(), ObligationCause::new()); + } + } + + /////////////////////////////////////////////////////////////////////////// + // MISCELLANY + + fn predicates_require_illegal_sized_bound( + &self, + predicates: impl Iterator>, + ) -> bool { + let Some(sized_def_id) = + LangItem::Sized.resolve_trait(self.db(), self.ctx.resolver.krate()) + else { + return false; + }; + + elaborate(self.interner(), predicates) + // We don't care about regions here. + .filter_map(|pred| match pred.kind().skip_binder() { + ClauseKind::Trait(trait_pred) if trait_pred.def_id().0 == sized_def_id => { + Some(trait_pred) + } + _ => None, + }) + .any(|trait_pred| matches!(trait_pred.self_ty().kind(), TyKind::Dynamic(..))) + } + + fn check_for_illegal_method_calls(&self) { + // Disallow calls to the method `drop` defined in the `Drop` trait. + if let ItemContainerId::TraitId(trait_def_id) = self.candidate.loc(self.db()).container + && LangItem::Drop + .resolve_trait(self.db(), self.ctx.resolver.krate()) + .is_some_and(|drop_trait| drop_trait == trait_def_id) + { + // FIXME: Report an error. + } + } + + #[expect(clippy::needless_return)] + fn lint_shadowed_supertrait_items(&self, pick: &probe::Pick<'_>) { + if pick.shadowed_candidates.is_empty() { + return; + } + + // FIXME: Emit the lint. + } + + fn upcast( + &self, + source_trait_ref: PolyTraitRef<'db>, + target_trait_def_id: TraitId, + ) -> PolyTraitRef<'db> { + let upcast_trait_refs = + upcast_choices(self.interner(), source_trait_ref, target_trait_def_id); + + // must be exactly one trait ref or we'd get an ambig error etc + if let &[upcast_trait_ref] = upcast_trait_refs.as_slice() { + upcast_trait_ref + } else { + Binder::dummy(TraitRef::new_from_args( + self.interner(), + target_trait_def_id.into(), + GenericArgs::error_for_item(self.interner(), target_trait_def_id.into()), + )) + } + } + + fn instantiate_binder_with_fresh_vars(&self, value: Binder<'db, T>) -> T + where + T: TypeFoldable> + Copy, + { + self.infcx().instantiate_binder_with_fresh_vars(BoundRegionConversionTime::FnCall, value) + } +} diff --git a/crates/hir-ty/src/method_resolution/probe.rs b/crates/hir-ty/src/method_resolution/probe.rs new file mode 100644 index 000000000000..adc144ce117b --- /dev/null +++ b/crates/hir-ty/src/method_resolution/probe.rs @@ -0,0 +1,2077 @@ +//! Candidate assembly and selection in method resolution - where we enumerate all candidates +//! and choose the best one (or, in some IDE scenarios, just enumerate them all). + +use std::{cell::RefCell, convert::Infallible, ops::ControlFlow}; + +use hir_def::{ + AssocItemId, FunctionId, GenericParamId, ImplId, ItemContainerId, TraitId, + signatures::TraitFlags, +}; +use hir_expand::name::Name; +use rustc_ast_ir::Mutability; +use rustc_hash::{FxHashMap, FxHashSet}; +use rustc_type_ir::{ + InferTy, TypeVisitableExt, Upcast, Variance, + elaborate::{self, supertrait_def_ids}, + fast_reject::{DeepRejectCtxt, TreatParams, simplify_type}, + inherent::{AdtDef as _, BoundExistentialPredicates as _, IntoKind, SliceLike, Ty as _}, +}; +use smallvec::{SmallVec, smallvec}; +use tracing::{debug, instrument}; + +use self::CandidateKind::*; +pub(super) use self::PickKind::*; +use crate::{ + autoderef::Autoderef, + db::HirDatabase, + lower::GenericPredicates, + method_resolution::{ + CandidateId, CandidateSource, InherentImpls, MethodError, MethodResolutionContext, + incoherent_inherent_impls, simplified_type_module, + }, + next_solver::{ + Binder, Canonical, ClauseKind, DbInterner, FnSig, GenericArg, GenericArgs, Goal, ParamEnv, + PolyTraitRef, Predicate, Region, SimplifiedType, TraitRef, Ty, TyKind, + infer::{ + BoundRegionConversionTime, InferCtxt, InferOk, + canonical::{QueryResponse, canonicalizer::OriginalQueryValues}, + select::{ImplSource, Selection, SelectionResult}, + traits::{Obligation, ObligationCause, PredicateObligation}, + }, + obligation_ctxt::ObligationCtxt, + util::clauses_as_obligations, + }, +}; + +struct ProbeContext<'a, 'db, Choice> { + ctx: &'a MethodResolutionContext<'a, 'db>, + mode: Mode, + + /// This is the OriginalQueryValues for the steps queries + /// that are answered in steps. + orig_steps_var_values: &'a OriginalQueryValues<'db>, + steps: &'a [CandidateStep<'db>], + + inherent_candidates: Vec>, + extension_candidates: Vec>, + impl_dups: FxHashSet, + + /// List of potential private candidates. Will be trimmed to ones that + /// actually apply and then the result inserted into `private_candidate` + private_candidates: Vec>, + + /// Collects near misses when the candidate functions are missing a `self` keyword and is only + /// used for error reporting + static_candidates: Vec, + + choice: Choice, +} + +#[derive(Debug)] +pub struct CandidateWithPrivate<'db> { + pub candidate: Candidate<'db>, + pub is_visible: bool, +} + +#[derive(Debug, Clone)] +pub struct Candidate<'db> { + pub item: CandidateId, + pub kind: CandidateKind<'db>, +} + +#[derive(Debug, Clone)] +pub enum CandidateKind<'db> { + InherentImplCandidate { impl_def_id: ImplId, receiver_steps: usize }, + ObjectCandidate(PolyTraitRef<'db>), + TraitCandidate(PolyTraitRef<'db>), + WhereClauseCandidate(PolyTraitRef<'db>), +} + +#[derive(Debug, PartialEq, Eq, Copy, Clone)] +enum ProbeResult { + NoMatch, + Match, +} + +/// When adjusting a receiver we often want to do one of +/// +/// - Add a `&` (or `&mut`), converting the receiver from `T` to `&T` (or `&mut T`) +/// - If the receiver has type `*mut T`, convert it to `*const T` +/// +/// This type tells us which one to do. +/// +/// Note that in principle we could do both at the same time. For example, when the receiver has +/// type `T`, we could autoref it to `&T`, then convert to `*const T`. Or, when it has type `*mut +/// T`, we could convert it to `*const T`, then autoref to `&*const T`. However, currently we do +/// (at most) one of these. Either the receiver has type `T` and we convert it to `&T` (or with +/// `mut`), or it has type `*mut T` and we convert it to `*const T`. +#[derive(Debug, PartialEq, Copy, Clone)] +pub enum AutorefOrPtrAdjustment { + /// Receiver has type `T`, add `&` or `&mut` (if `T` is `mut`), and maybe also "unsize" it. + /// Unsizing is used to convert a `[T; N]` to `[T]`, which only makes sense when autorefing. + Autoref { + mutbl: Mutability, + + /// Indicates that the source expression should be "unsized" to a target type. + /// This is special-cased for just arrays unsizing to slices. + unsize: bool, + }, + /// Receiver has type `*mut T`, convert to `*const T` + ToConstPtr, +} + +impl AutorefOrPtrAdjustment { + fn get_unsize(&self) -> bool { + match self { + AutorefOrPtrAdjustment::Autoref { mutbl: _, unsize } => *unsize, + AutorefOrPtrAdjustment::ToConstPtr => false, + } + } +} + +/// Criteria to apply when searching for a given Pick. This is used during +/// the search for potentially shadowed methods to ensure we don't search +/// more candidates than strictly necessary. +#[derive(Debug)] +struct PickConstraintsForShadowed { + autoderefs: usize, + receiver_steps: Option, + def_id: CandidateId, +} + +impl PickConstraintsForShadowed { + fn may_shadow_based_on_autoderefs(&self, autoderefs: usize) -> bool { + autoderefs == self.autoderefs + } + + fn candidate_may_shadow(&self, candidate: &Candidate<'_>) -> bool { + // An item never shadows itself + candidate.item != self.def_id + // and we're only concerned about inherent impls doing the shadowing. + // Shadowing can only occur if the shadowed is further along + // the Receiver dereferencing chain than the shadowed. + && match candidate.kind { + CandidateKind::InherentImplCandidate { receiver_steps, .. } => match self.receiver_steps { + Some(shadowed_receiver_steps) => receiver_steps > shadowed_receiver_steps, + _ => false + }, + _ => false + } + } +} + +#[derive(Debug, Clone)] +pub struct Pick<'db> { + pub item: CandidateId, + pub kind: PickKind<'db>, + + /// Indicates that the source expression should be autoderef'd N times + /// ```ignore (not-rust) + /// A = expr | *expr | **expr | ... + /// ``` + pub autoderefs: usize, + + /// Indicates that we want to add an autoref (and maybe also unsize it), or if the receiver is + /// `*mut T`, convert it to `*const T`. + pub autoref_or_ptr_adjustment: Option, + pub self_ty: Ty<'db>, + + /// Number of jumps along the `Receiver::Target` chain we followed + /// to identify this method. Used only for deshadowing errors. + /// Only applies for inherent impls. + pub receiver_steps: Option, + + /// Candidates that were shadowed by supertraits. + pub shadowed_candidates: Vec, +} + +#[derive(Clone, Debug, PartialEq, Eq)] +pub enum PickKind<'db> { + InherentImplPick(ImplId), + ObjectPick(TraitId), + TraitPick(TraitId), + WhereClausePick( + // Trait + PolyTraitRef<'db>, + ), +} + +pub(crate) type PickResult<'db> = Result, MethodError<'db>>; + +#[derive(PartialEq, Eq, Copy, Clone, Debug)] +pub enum Mode { + // An expression of the form `receiver.method_name(...)`. + // Autoderefs are performed on `receiver`, lookup is done based on the + // `self` argument of the method, and static methods aren't considered. + MethodCall, + // An expression of the form `Type::item` or `::item`. + // No autoderefs are performed, lookup is done based on the type each + // implementation is for, and static methods are included. + Path, +} + +#[derive(Debug, Clone)] +pub struct CandidateStep<'db> { + pub self_ty: Canonical<'db, QueryResponse<'db, Ty<'db>>>, + pub self_ty_is_opaque: bool, + pub autoderefs: usize, + /// `true` if the type results from a dereference of a raw pointer. + /// when assembling candidates, we include these steps, but not when + /// picking methods. This so that if we have `foo: *const Foo` and `Foo` has methods + /// `fn by_raw_ptr(self: *const Self)` and `fn by_ref(&self)`, then + /// `foo.by_raw_ptr()` will work and `foo.by_ref()` won't. + pub from_unsafe_deref: bool, + pub unsize: bool, + /// We will generate CandidateSteps which are reachable via a chain + /// of following `Receiver`. The first 'n' of those will be reachable + /// by following a chain of 'Deref' instead (since there's a blanket + /// implementation of Receiver for Deref). + /// We use the entire set of steps when identifying method candidates + /// (e.g. identifying relevant `impl` blocks) but only those that are + /// reachable via Deref when examining what the receiver type can + /// be converted into by autodereffing. + pub reachable_via_deref: bool, +} + +#[derive(Clone, Debug)] +struct MethodAutoderefStepsResult<'db> { + /// The valid autoderef steps that could be found by following a chain + /// of `Receiver` or `Deref` trait implementations. + pub steps: SmallVec<[CandidateStep<'db>; 3]>, + /// If Some(T), a type autoderef reported an error on. + pub opt_bad_ty: Option>, + /// If `true`, `steps` has been truncated due to reaching the + /// recursion limit. + pub reached_recursion_limit: bool, +} + +#[derive(Debug, Clone)] +struct MethodAutoderefBadTy<'db> { + pub reached_raw_pointer: bool, + pub ty: Canonical<'db, QueryResponse<'db, Ty<'db>>>, +} + +impl<'a, 'db> MethodResolutionContext<'a, 'db> { + #[instrument(level = "debug", skip(self))] + pub fn probe_for_name(&self, mode: Mode, item_name: Name, self_ty: Ty<'db>) -> PickResult<'db> { + self.probe_op(mode, self_ty, ProbeForNameChoice { private_candidate: None, item_name }) + } + + #[instrument(level = "debug", skip(self))] + pub fn probe_all( + &self, + mode: Mode, + self_ty: Ty<'db>, + ) -> impl Iterator> { + self.probe_op(mode, self_ty, ProbeAllChoice::new()).candidates.into_inner().into_values() + } + + fn probe_op>( + &self, + mode: Mode, + self_ty: Ty<'db>, + choice: Choice, + ) -> Choice::FinalChoice { + let mut orig_values = OriginalQueryValues::default(); + let query_input = self.infcx.canonicalize_query(self_ty, &mut orig_values); + let steps = match mode { + Mode::MethodCall => self.method_autoderef_steps(&query_input), + Mode::Path => self.infcx.probe(|_| { + // Mode::Path - the deref steps is "trivial". This turns + // our CanonicalQuery into a "trivial" QueryResponse. This + // is a bit inefficient, but I don't think that writing + // special handling for this "trivial case" is a good idea. + + let infcx = self.infcx; + let (self_ty, var_values) = infcx.instantiate_canonical(&query_input); + debug!(?self_ty, ?query_input, "probe_op: Mode::Path"); + MethodAutoderefStepsResult { + steps: smallvec![CandidateStep { + self_ty: self + .infcx + .make_query_response_ignoring_pending_obligations(var_values, self_ty), + self_ty_is_opaque: false, + autoderefs: 0, + from_unsafe_deref: false, + unsize: false, + reachable_via_deref: true, + }], + opt_bad_ty: None, + reached_recursion_limit: false, + } + }), + }; + + if steps.reached_recursion_limit { + // FIXME: Report an error. + } + + // If we encountered an `_` type or an error type during autoderef, this is + // ambiguous. + if let Some(bad_ty) = &steps.opt_bad_ty { + if bad_ty.reached_raw_pointer + && !self.unstable_features.arbitrary_self_types_pointers + && self.edition.at_least_2018() + { + // this case used to be allowed by the compiler, + // so we do a future-compat lint here for the 2015 edition + // (see https://github.com/rust-lang/rust/issues/46906) + // FIXME: Emit the lint. + // self.tcx.node_span_lint( + // lint::builtin::TYVAR_BEHIND_RAW_POINTER, + // scope_expr_id, + // span, + // |lint| { + // lint.primary_message("type annotations needed"); + // }, + // ); + } else { + // Ended up encountering a type variable when doing autoderef, + // but it may not be a type variable after processing obligations + // in our local `FnCtxt`, so don't call `structurally_resolve_type`. + let ty = &bad_ty.ty; + let ty = self + .infcx + .instantiate_query_response_and_region_obligations( + &ObligationCause::new(), + self.env.env, + &orig_values, + ty, + ) + .unwrap_or_else(|_| panic!("instantiating {:?} failed?", ty)); + let ty = self.infcx.resolve_vars_if_possible(ty.value); + match ty.kind() { + TyKind::Infer(InferTy::TyVar(_)) => { + // FIXME: Report "type annotations needed" error. + } + TyKind::Error(_) => {} + _ => panic!("unexpected bad final type in method autoderef"), + }; + return Choice::final_choice_from_err(MethodError::ErrorReported); + } + } + + debug!("ProbeContext: steps for self_ty={:?} are {:?}", self_ty, steps); + + // this creates one big transaction so that all type variables etc + // that we create during the probe process are removed later + self.infcx.probe(|_| { + let mut probe_cx = ProbeContext::new(self, mode, &orig_values, &steps.steps, choice); + + probe_cx.assemble_inherent_candidates(); + probe_cx.assemble_extension_candidates_for_traits_in_scope(); + Choice::choose(probe_cx) + }) + } + + fn method_autoderef_steps( + &self, + self_ty: &Canonical<'db, Ty<'db>>, + ) -> MethodAutoderefStepsResult<'db> { + self.infcx.probe(|_| { + debug!("method_autoderef_steps({:?})", self_ty); + + // We accept not-yet-defined opaque types in the autoderef + // chain to support recursive calls. We do error if the final + // infer var is not an opaque. + let infcx = self.infcx; + let (self_ty, inference_vars) = infcx.instantiate_canonical(self_ty); + let self_ty_is_opaque = |ty: Ty<'_>| { + if let TyKind::Infer(InferTy::TyVar(vid)) = ty.kind() { + infcx.has_opaques_with_sub_unified_hidden_type(vid) + } else { + false + } + }; + + // If arbitrary self types is not enabled, we follow the chain of + // `Deref`. If arbitrary self types is enabled, we instead + // follow the chain of `Receiver`, but we also record whether + // such types are reachable by following the (potentially shorter) + // chain of `Deref`. We will use the first list when finding + // potentially relevant function implementations (e.g. relevant impl blocks) + // but the second list when determining types that the receiver may be + // converted to, in order to find out which of those methods might actually + // be callable. + let mut autoderef_via_deref = + Autoderef::new(infcx, self.env, self_ty).include_raw_pointers(); + + let mut reached_raw_pointer = false; + let arbitrary_self_types_enabled = self.unstable_features.arbitrary_self_types + || self.unstable_features.arbitrary_self_types_pointers; + let (mut steps, reached_recursion_limit) = if arbitrary_self_types_enabled { + let reachable_via_deref = + autoderef_via_deref.by_ref().map(|_| true).chain(std::iter::repeat(false)); + + let mut autoderef_via_receiver = Autoderef::new(infcx, self.env, self_ty) + .include_raw_pointers() + .use_receiver_trait(); + let steps = autoderef_via_receiver + .by_ref() + .zip(reachable_via_deref) + .map(|((ty, d), reachable_via_deref)| { + let step = CandidateStep { + self_ty: infcx.make_query_response_ignoring_pending_obligations( + inference_vars, + ty, + ), + self_ty_is_opaque: self_ty_is_opaque(ty), + autoderefs: d, + from_unsafe_deref: reached_raw_pointer, + unsize: false, + reachable_via_deref, + }; + if ty.is_raw_ptr() { + // all the subsequent steps will be from_unsafe_deref + reached_raw_pointer = true; + } + step + }) + .collect::>(); + (steps, autoderef_via_receiver.reached_recursion_limit()) + } else { + let steps = autoderef_via_deref + .by_ref() + .map(|(ty, d)| { + let step = CandidateStep { + self_ty: infcx.make_query_response_ignoring_pending_obligations( + inference_vars, + ty, + ), + self_ty_is_opaque: self_ty_is_opaque(ty), + autoderefs: d, + from_unsafe_deref: reached_raw_pointer, + unsize: false, + reachable_via_deref: true, + }; + if ty.is_raw_ptr() { + // all the subsequent steps will be from_unsafe_deref + reached_raw_pointer = true; + } + step + }) + .collect(); + (steps, autoderef_via_deref.reached_recursion_limit()) + }; + let final_ty = autoderef_via_deref.final_ty(); + let opt_bad_ty = match final_ty.kind() { + TyKind::Infer(InferTy::TyVar(_)) if !self_ty_is_opaque(final_ty) => { + Some(MethodAutoderefBadTy { + reached_raw_pointer, + ty: infcx.make_query_response_ignoring_pending_obligations( + inference_vars, + final_ty, + ), + }) + } + TyKind::Error(_) => Some(MethodAutoderefBadTy { + reached_raw_pointer, + ty: infcx + .make_query_response_ignoring_pending_obligations(inference_vars, final_ty), + }), + TyKind::Array(elem_ty, _) => { + let autoderefs = steps.iter().filter(|s| s.reachable_via_deref).count() - 1; + steps.push(CandidateStep { + self_ty: infcx.make_query_response_ignoring_pending_obligations( + inference_vars, + Ty::new_slice(infcx.interner, elem_ty), + ), + self_ty_is_opaque: false, + autoderefs, + // this could be from an unsafe deref if we had + // a *mut/const [T; N] + from_unsafe_deref: reached_raw_pointer, + unsize: true, + reachable_via_deref: true, // this is always the final type from + // autoderef_via_deref + }); + + None + } + _ => None, + }; + + debug!("method_autoderef_steps: steps={:?} opt_bad_ty={:?}", steps, opt_bad_ty); + MethodAutoderefStepsResult { steps, opt_bad_ty, reached_recursion_limit } + }) + } +} + +trait ProbeChoice<'db>: Sized { + type Choice; + type FinalChoice; + + /// Finds the method with the appropriate name (or return type, as the case may be). + // The length of the returned iterator is nearly always 0 or 1 and this + // method is fairly hot. + fn with_impl_or_trait_item<'a>( + this: &mut ProbeContext<'a, 'db, Self>, + items: &[(Name, AssocItemId)], + callback: impl FnMut(&mut ProbeContext<'a, 'db, Self>, CandidateId), + ); + + fn consider_candidates( + this: &ProbeContext<'_, 'db, Self>, + self_ty: Ty<'db>, + candidates: Vec<&Candidate<'db>>, + ) -> ControlFlow; + + fn consider_private_candidates( + this: &mut ProbeContext<'_, 'db, Self>, + self_ty: Ty<'db>, + instantiate_self_ty_obligations: &[PredicateObligation<'db>], + ); + + fn map_choice_pick( + choice: Self::Choice, + f: impl FnOnce(Pick<'db>) -> Pick<'db>, + ) -> Self::Choice; + + fn check_by_value_method_shadowing( + this: &mut ProbeContext<'_, 'db, Self>, + by_value_pick: &Self::Choice, + step: &CandidateStep<'db>, + self_ty: Ty<'db>, + instantiate_self_ty_obligations: &[PredicateObligation<'db>], + ) -> ControlFlow; + + fn check_autorefed_method_shadowing( + this: &mut ProbeContext<'_, 'db, Self>, + autoref_pick: &Self::Choice, + step: &CandidateStep<'db>, + self_ty: Ty<'db>, + instantiate_self_ty_obligations: &[PredicateObligation<'db>], + ) -> ControlFlow; + + fn final_choice_from_err(err: MethodError<'db>) -> Self::FinalChoice; + + fn choose(this: ProbeContext<'_, 'db, Self>) -> Self::FinalChoice; +} + +#[derive(Debug)] +struct ProbeForNameChoice<'db> { + item_name: Name, + + /// Some(candidate) if there is a private candidate + private_candidate: Option>, +} + +impl<'db> ProbeChoice<'db> for ProbeForNameChoice<'db> { + type Choice = PickResult<'db>; + type FinalChoice = PickResult<'db>; + + fn with_impl_or_trait_item<'a>( + this: &mut ProbeContext<'a, 'db, Self>, + items: &[(Name, AssocItemId)], + mut callback: impl FnMut(&mut ProbeContext<'a, 'db, Self>, CandidateId), + ) { + let item = items + .iter() + .filter_map(|(name, id)| { + let id = match *id { + AssocItemId::FunctionId(id) => id.into(), + AssocItemId::ConstId(id) => id.into(), + AssocItemId::TypeAliasId(_) => return None, + }; + Some((name, id)) + }) + .find(|(name, _)| **name == this.choice.item_name) + .map(|(_, id)| id) + .filter(|id| this.mode == Mode::Path || matches!(id, CandidateId::FunctionId(_))); + if let Some(item) = item { + callback(this, item); + } + } + + fn consider_candidates( + this: &ProbeContext<'_, 'db, Self>, + self_ty: Ty<'db>, + mut applicable_candidates: Vec<&Candidate<'db>>, + ) -> ControlFlow { + if applicable_candidates.len() > 1 + && let Some(pick) = + this.collapse_candidates_to_trait_pick(self_ty, &applicable_candidates) + { + return ControlFlow::Break(Ok(pick)); + } + + if applicable_candidates.len() > 1 { + // We collapse to a subtrait pick *after* filtering unstable candidates + // to make sure we don't prefer a unstable subtrait method over a stable + // supertrait method. + if this.ctx.unstable_features.supertrait_item_shadowing + && let Some(pick) = + this.collapse_candidates_to_subtrait_pick(self_ty, &applicable_candidates) + { + return ControlFlow::Break(Ok(pick)); + } + + let sources = + applicable_candidates.iter().map(|p| this.candidate_source(p, self_ty)).collect(); + return ControlFlow::Break(Err(MethodError::Ambiguity(sources))); + } + + match applicable_candidates.pop() { + Some(probe) => ControlFlow::Break(Ok(probe.to_unadjusted_pick(self_ty))), + None => ControlFlow::Continue(()), + } + } + + fn consider_private_candidates( + this: &mut ProbeContext<'_, 'db, Self>, + self_ty: Ty<'db>, + instantiate_self_ty_obligations: &[PredicateObligation<'db>], + ) { + if this.choice.private_candidate.is_none() + && let ControlFlow::Break(Ok(pick)) = this.consider_candidates( + self_ty, + instantiate_self_ty_obligations, + &this.private_candidates, + None, + ) + { + this.choice.private_candidate = Some(pick); + } + } + + fn map_choice_pick( + choice: Self::Choice, + f: impl FnOnce(Pick<'db>) -> Pick<'db>, + ) -> Self::Choice { + choice.map(f) + } + + fn check_by_value_method_shadowing( + this: &mut ProbeContext<'_, 'db, Self>, + by_value_pick: &Self::Choice, + step: &CandidateStep<'db>, + self_ty: Ty<'db>, + instantiate_self_ty_obligations: &[PredicateObligation<'db>], + ) -> ControlFlow { + if let Ok(by_value_pick) = by_value_pick + && matches!(by_value_pick.kind, PickKind::InherentImplPick(_)) + { + for mutbl in [Mutability::Not, Mutability::Mut] { + if let Err(e) = this.check_for_shadowed_autorefd_method( + by_value_pick, + step, + self_ty, + instantiate_self_ty_obligations, + mutbl, + ) { + return ControlFlow::Break(Err(e)); + } + } + } + ControlFlow::Continue(()) + } + + fn check_autorefed_method_shadowing( + this: &mut ProbeContext<'_, 'db, Self>, + autoref_pick: &Self::Choice, + step: &CandidateStep<'db>, + self_ty: Ty<'db>, + instantiate_self_ty_obligations: &[PredicateObligation<'db>], + ) -> ControlFlow { + if let Ok(autoref_pick) = autoref_pick.as_ref() { + // Check we're not shadowing others + if matches!(autoref_pick.kind, PickKind::InherentImplPick(_)) + && let Err(e) = this.check_for_shadowed_autorefd_method( + autoref_pick, + step, + self_ty, + instantiate_self_ty_obligations, + Mutability::Mut, + ) + { + return ControlFlow::Break(Err(e)); + } + } + ControlFlow::Continue(()) + } + + fn final_choice_from_err(err: MethodError<'db>) -> Self::FinalChoice { + Err(err) + } + + fn choose(this: ProbeContext<'_, 'db, Self>) -> Self::FinalChoice { + this.pick() + } +} + +#[derive(Debug)] +struct ProbeAllChoice<'db> { + candidates: RefCell>>, + considering_visible_candidates: bool, +} + +impl ProbeAllChoice<'_> { + fn new() -> Self { + Self { candidates: RefCell::default(), considering_visible_candidates: true } + } +} + +impl<'db> ProbeChoice<'db> for ProbeAllChoice<'db> { + type Choice = Infallible; + type FinalChoice = Self; + + fn with_impl_or_trait_item<'a>( + this: &mut ProbeContext<'a, 'db, Self>, + items: &[(Name, AssocItemId)], + mut callback: impl FnMut(&mut ProbeContext<'a, 'db, Self>, CandidateId), + ) { + let mode = this.mode; + items + .iter() + .filter_map(|(_, id)| is_relevant_kind_for_mode(mode, *id)) + .for_each(|id| callback(this, id)); + } + + fn consider_candidates( + this: &ProbeContext<'_, 'db, Self>, + _self_ty: Ty<'db>, + candidates: Vec<&Candidate<'db>>, + ) -> ControlFlow { + let is_visible = this.choice.considering_visible_candidates; + let mut all_candidates = this.choice.candidates.borrow_mut(); + for candidate in candidates { + // We should not override existing entries, because inherent methods of trait objects (from the principal) + // are also visited as trait methods, and we want to consider them inherent. + all_candidates + .entry(candidate.item) + .or_insert(CandidateWithPrivate { candidate: candidate.clone(), is_visible }); + } + ControlFlow::Continue(()) + } + + fn consider_private_candidates( + this: &mut ProbeContext<'_, 'db, Self>, + self_ty: Ty<'db>, + instantiate_self_ty_obligations: &[PredicateObligation<'db>], + ) { + this.choice.considering_visible_candidates = false; + let ControlFlow::Continue(()) = this.consider_candidates( + self_ty, + instantiate_self_ty_obligations, + &this.private_candidates, + None, + ); + this.choice.considering_visible_candidates = true; + } + + fn map_choice_pick( + choice: Self::Choice, + _f: impl FnOnce(Pick<'db>) -> Pick<'db>, + ) -> Self::Choice { + choice + } + + fn check_by_value_method_shadowing( + _this: &mut ProbeContext<'_, 'db, Self>, + _by_value_pick: &Self::Choice, + _step: &CandidateStep<'db>, + _self_ty: Ty<'db>, + _instantiate_self_ty_obligations: &[PredicateObligation<'db>], + ) -> ControlFlow { + ControlFlow::Continue(()) + } + + fn check_autorefed_method_shadowing( + _this: &mut ProbeContext<'_, 'db, Self>, + _autoref_pick: &Self::Choice, + _step: &CandidateStep<'db>, + _self_ty: Ty<'db>, + _instantiate_self_ty_obligations: &[PredicateObligation<'db>], + ) -> ControlFlow { + ControlFlow::Continue(()) + } + + fn final_choice_from_err(_err: MethodError<'db>) -> Self::FinalChoice { + Self::new() + } + + fn choose(mut this: ProbeContext<'_, 'db, Self>) -> Self::FinalChoice { + let ControlFlow::Continue(()) = this.pick_all_method(); + this.choice + } +} + +impl<'a, 'db, Choice: ProbeChoice<'db>> ProbeContext<'a, 'db, Choice> { + fn new( + ctx: &'a MethodResolutionContext<'a, 'db>, + mode: Mode, + orig_steps_var_values: &'a OriginalQueryValues<'db>, + steps: &'a [CandidateStep<'db>], + choice: Choice, + ) -> ProbeContext<'a, 'db, Choice> { + ProbeContext { + ctx, + mode, + inherent_candidates: Vec::new(), + extension_candidates: Vec::new(), + impl_dups: FxHashSet::default(), + orig_steps_var_values, + steps, + private_candidates: Vec::new(), + static_candidates: Vec::new(), + choice, + } + } + + #[inline] + fn db(&self) -> &'db dyn HirDatabase { + self.ctx.infcx.interner.db + } + + #[inline] + fn interner(&self) -> DbInterner<'db> { + self.ctx.infcx.interner + } + + #[inline] + fn infcx(&self) -> &'a InferCtxt<'db> { + self.ctx.infcx + } + + #[inline] + fn param_env(&self) -> ParamEnv<'db> { + self.ctx.env.env + } + + /// When we're looking up a method by path (UFCS), we relate the receiver + /// types invariantly. When we are looking up a method by the `.` operator, + /// we relate them covariantly. + fn variance(&self) -> Variance { + match self.mode { + Mode::MethodCall => Variance::Covariant, + Mode::Path => Variance::Invariant, + } + } + + /////////////////////////////////////////////////////////////////////////// + // CANDIDATE ASSEMBLY + + fn push_candidate(&mut self, candidate: Candidate<'db>, is_inherent: bool) { + let is_accessible = if is_inherent { + let candidate_id = match candidate.item { + CandidateId::FunctionId(id) => id.into(), + CandidateId::ConstId(id) => id.into(), + }; + let visibility = self.db().assoc_visibility(candidate_id); + self.ctx.resolver.is_visible(self.db(), visibility) + } else { + true + }; + if is_accessible { + if is_inherent { + self.inherent_candidates.push(candidate); + } else { + self.extension_candidates.push(candidate); + } + } else { + self.private_candidates.push(candidate); + } + } + + fn assemble_inherent_candidates(&mut self) { + for step in self.steps.iter() { + self.assemble_probe(&step.self_ty, step.autoderefs); + } + } + + #[instrument(level = "debug", skip(self))] + fn assemble_probe( + &mut self, + self_ty: &Canonical<'db, QueryResponse<'db, Ty<'db>>>, + receiver_steps: usize, + ) { + let raw_self_ty = self_ty.value.value; + match raw_self_ty.kind() { + TyKind::Dynamic(data, ..) => { + if let Some(p) = data.principal() { + // Subtle: we can't use `instantiate_query_response` here: using it will + // commit to all of the type equalities assumed by inference going through + // autoderef (see the `method-probe-no-guessing` test). + // + // However, in this code, it is OK if we end up with an object type that is + // "more general" than the object type that we are evaluating. For *every* + // object type `MY_OBJECT`, a function call that goes through a trait-ref + // of the form `::func` is a valid + // `ObjectCandidate`, and it should be discoverable "exactly" through one + // of the iterations in the autoderef loop, so there is no problem with it + // being discoverable in another one of these iterations. + // + // Using `instantiate_canonical` on our + // `Canonical>>` and then *throwing away* the + // `CanonicalVarValues` will exactly give us such a generalization - it + // will still match the original object type, but it won't pollute our + // type variables in any form, so just do that! + let (QueryResponse { value: generalized_self_ty, .. }, _ignored_var_values) = + self.infcx().instantiate_canonical(self_ty); + + self.assemble_inherent_candidates_from_object(generalized_self_ty); + self.assemble_inherent_impl_candidates_for_type( + &SimplifiedType::Trait(p.def_id().0.into()), + receiver_steps, + ); + self.assemble_inherent_candidates_for_incoherent_ty( + raw_self_ty, + receiver_steps, + ); + } + } + TyKind::Adt(def, _) => { + let def_id = def.def_id().0; + self.assemble_inherent_impl_candidates_for_type( + &SimplifiedType::Adt(def_id.into()), + receiver_steps, + ); + self.assemble_inherent_candidates_for_incoherent_ty(raw_self_ty, receiver_steps); + } + TyKind::Foreign(did) => { + self.assemble_inherent_impl_candidates_for_type( + &SimplifiedType::Foreign(did.0.into()), + receiver_steps, + ); + self.assemble_inherent_candidates_for_incoherent_ty(raw_self_ty, receiver_steps); + } + TyKind::Param(_) => { + self.assemble_inherent_candidates_from_param(raw_self_ty); + } + TyKind::Bool + | TyKind::Char + | TyKind::Int(_) + | TyKind::Uint(_) + | TyKind::Float(_) + | TyKind::Str + | TyKind::Array(..) + | TyKind::Slice(_) + | TyKind::RawPtr(_, _) + | TyKind::Ref(..) + | TyKind::Never + | TyKind::Tuple(..) => { + self.assemble_inherent_candidates_for_incoherent_ty(raw_self_ty, receiver_steps) + } + _ => {} + } + } + + fn assemble_inherent_candidates_for_incoherent_ty( + &mut self, + self_ty: Ty<'db>, + receiver_steps: usize, + ) { + let Some(simp) = simplify_type(self.interner(), self_ty, TreatParams::InstantiateWithInfer) + else { + panic!("unexpected incoherent type: {:?}", self_ty) + }; + for &impl_def_id in incoherent_inherent_impls(self.db(), simp) { + self.assemble_inherent_impl_probe(impl_def_id, receiver_steps); + } + } + + fn assemble_inherent_impl_candidates_for_type( + &mut self, + self_ty: &SimplifiedType, + receiver_steps: usize, + ) { + let Some(module) = simplified_type_module(self.db(), self_ty) else { + return; + }; + InherentImpls::for_each_crate_and_block( + self.db(), + module.krate(), + module.containing_block(), + &mut |impls| { + for &impl_def_id in impls.for_self_ty(self_ty) { + self.assemble_inherent_impl_probe(impl_def_id, receiver_steps); + } + }, + ); + } + + #[instrument(level = "debug", skip(self))] + fn assemble_inherent_impl_probe(&mut self, impl_def_id: ImplId, receiver_steps: usize) { + if !self.impl_dups.insert(impl_def_id) { + return; // already visited + } + + self.with_impl_item(impl_def_id, |this, item| { + if !this.has_applicable_self(item) { + // No receiver declared. Not a candidate. + this.record_static_candidate(CandidateSource::Impl(impl_def_id)); + return; + } + this.push_candidate( + Candidate { item, kind: InherentImplCandidate { impl_def_id, receiver_steps } }, + true, + ); + }); + } + + #[instrument(level = "debug", skip(self))] + fn assemble_inherent_candidates_from_object(&mut self, self_ty: Ty<'db>) { + let principal = match self_ty.kind() { + TyKind::Dynamic(data, ..) => Some(data), + _ => None, + } + .and_then(|data| data.principal()) + .unwrap_or_else(|| { + panic!("non-object {:?} in assemble_inherent_candidates_from_object", self_ty) + }); + + // It is illegal to invoke a method on a trait instance that refers to + // the `Self` type. An [`DynCompatibilityViolation::SupertraitSelf`] error + // will be reported by `dyn_compatibility.rs` if the method refers to the + // `Self` type anywhere other than the receiver. Here, we use a + // instantiation that replaces `Self` with the object type itself. Hence, + // a `&self` method will wind up with an argument type like `&dyn Trait`. + let trait_ref = principal.with_self_ty(self.interner(), self_ty); + self.assemble_candidates_for_bounds( + elaborate::supertraits(self.interner(), trait_ref), + |this, new_trait_ref, item| { + this.push_candidate(Candidate { item, kind: ObjectCandidate(new_trait_ref) }, true); + }, + ); + } + + #[instrument(level = "debug", skip(self))] + fn assemble_inherent_candidates_from_param(&mut self, param_ty: Ty<'db>) { + debug_assert!(matches!(param_ty.kind(), TyKind::Param(_))); + + let interner = self.interner(); + + // We use `DeepRejectCtxt` here which may return false positive on where clauses + // with alias self types. We need to later on reject these as inherent candidates + // in `consider_probe`. + let bounds = self.param_env().clauses.iter().filter_map(|predicate| { + let bound_predicate = predicate.kind(); + match bound_predicate.skip_binder() { + ClauseKind::Trait(trait_predicate) => DeepRejectCtxt::relate_rigid_rigid(interner) + .types_may_unify(param_ty, trait_predicate.trait_ref.self_ty()) + .then(|| bound_predicate.rebind(trait_predicate.trait_ref)), + ClauseKind::RegionOutlives(_) + | ClauseKind::TypeOutlives(_) + | ClauseKind::Projection(_) + | ClauseKind::ConstArgHasType(_, _) + | ClauseKind::WellFormed(_) + | ClauseKind::ConstEvaluatable(_) + | ClauseKind::UnstableFeature(_) + | ClauseKind::HostEffect(..) => None, + } + }); + + self.assemble_candidates_for_bounds(bounds, |this, poly_trait_ref, item| { + this.push_candidate( + Candidate { item, kind: WhereClauseCandidate(poly_trait_ref) }, + true, + ); + }); + } + + // Do a search through a list of bounds, using a callback to actually + // create the candidates. + fn assemble_candidates_for_bounds( + &mut self, + bounds: impl Iterator>, + mut mk_cand: F, + ) where + F: for<'b> FnMut(&mut ProbeContext<'b, 'db, Choice>, PolyTraitRef<'db>, CandidateId), + { + for bound_trait_ref in bounds { + debug!("elaborate_bounds(bound_trait_ref={:?})", bound_trait_ref); + self.with_trait_item(bound_trait_ref.def_id().0, |this, item| { + if !this.has_applicable_self(item) { + this.record_static_candidate(CandidateSource::Trait( + bound_trait_ref.def_id().0, + )); + } else { + mk_cand(this, bound_trait_ref, item); + } + }); + } + } + + #[instrument(level = "debug", skip(self))] + fn assemble_extension_candidates_for_traits_in_scope(&mut self) { + for &trait_did in self.ctx.traits_in_scope { + self.assemble_extension_candidates_for_trait(trait_did); + } + } + + #[instrument(level = "debug", skip(self))] + fn assemble_extension_candidates_for_trait(&mut self, trait_def_id: TraitId) { + let trait_args = self.infcx().fresh_args_for_item(trait_def_id.into()); + let trait_ref = TraitRef::new_from_args(self.interner(), trait_def_id.into(), trait_args); + + self.with_trait_item(trait_def_id, |this, item| { + // Check whether `trait_def_id` defines a method with suitable name. + if !this.has_applicable_self(item) { + debug!("method has inapplicable self"); + this.record_static_candidate(CandidateSource::Trait(trait_def_id)); + return; + } + this.push_candidate( + Candidate { item, kind: TraitCandidate(Binder::dummy(trait_ref)) }, + false, + ); + }); + } +} + +/////////////////////////////////////////////////////////////////////////// +// THE ACTUAL SEARCH +impl<'a, 'db> ProbeContext<'a, 'db, ProbeForNameChoice<'db>> { + #[instrument(level = "debug", skip(self))] + fn pick(mut self) -> PickResult<'db> { + if let Some(r) = self.pick_core() { + return r; + } + + debug!("pick: actual search failed, assemble diagnostics"); + + if let Some(candidate) = self.choice.private_candidate { + return Err(MethodError::PrivateMatch(candidate)); + } + + Err(MethodError::NoMatch) + } + + fn pick_core(&mut self) -> Option> { + self.pick_all_method().break_value() + } + + /// Check for cases where arbitrary self types allows shadowing + /// of methods that might be a compatibility break. Specifically, + /// we have something like: + /// ```ignore (illustrative) + /// struct A; + /// impl A { + /// fn foo(self: &NonNull) {} + /// // note this is by reference + /// } + /// ``` + /// then we've come along and added this method to `NonNull`: + /// ```ignore (illustrative) + /// fn foo(self) // note this is by value + /// ``` + /// Report an error in this case. + fn check_for_shadowed_autorefd_method( + &mut self, + possible_shadower: &Pick<'db>, + step: &CandidateStep<'db>, + self_ty: Ty<'db>, + instantiate_self_ty_obligations: &[PredicateObligation<'db>], + mutbl: Mutability, + ) -> Result<(), MethodError<'db>> { + // The errors emitted by this function are part of + // the arbitrary self types work, and should not impact + // other users. + if !self.ctx.unstable_features.arbitrary_self_types + && !self.ctx.unstable_features.arbitrary_self_types_pointers + { + return Ok(()); + } + + // Set criteria for how we find methods possibly shadowed by 'possible_shadower' + let pick_constraints = PickConstraintsForShadowed { + // It's the same `self` type... + autoderefs: possible_shadower.autoderefs, + // ... but the method was found in an impl block determined + // by searching further along the Receiver chain than the other, + // showing that it's a smart pointer type causing the problem... + receiver_steps: possible_shadower.receiver_steps, + // ... and they don't end up pointing to the same item in the + // first place (could happen with things like blanket impls for T) + def_id: possible_shadower.item, + }; + // A note on the autoderefs above. Within pick_by_value_method, an extra + // autoderef may be applied in order to reborrow a reference with + // a different lifetime. That seems as though it would break the + // logic of these constraints, since the number of autoderefs could + // no longer be used to identify the fundamental type of the receiver. + // However, this extra autoderef is applied only to by-value calls + // where the receiver is already a reference. So this situation would + // only occur in cases where the shadowing looks like this: + // ``` + // struct A; + // impl A { + // fn foo(self: &&NonNull) {} + // // note this is by DOUBLE reference + // } + // ``` + // then we've come along and added this method to `NonNull`: + // ``` + // fn foo(&self) // note this is by single reference + // ``` + // and the call is: + // ``` + // let bar = NonNull; + // let bar = &foo; + // bar.foo(); + // ``` + // In these circumstances, the logic is wrong, and we wouldn't spot + // the shadowing, because the autoderef-based maths wouldn't line up. + // This is a niche case and we can live without generating an error + // in the case of such shadowing. + let potentially_shadowed_pick = self.pick_autorefd_method( + step, + self_ty, + instantiate_self_ty_obligations, + mutbl, + Some(&pick_constraints), + ); + // Look for actual pairs of shadower/shadowed which are + // the sort of shadowing case we want to avoid. Specifically... + if let ControlFlow::Break(Ok(possible_shadowed)) = &potentially_shadowed_pick { + let sources = [possible_shadower, possible_shadowed] + .into_iter() + .map(|p| self.candidate_source_from_pick(p)) + .collect(); + return Err(MethodError::Ambiguity(sources)); + } + Ok(()) + } +} + +impl<'a, 'db, Choice: ProbeChoice<'db>> ProbeContext<'a, 'db, Choice> { + fn pick_all_method(&mut self) -> ControlFlow { + self.steps + .iter() + // At this point we're considering the types to which the receiver can be converted, + // so we want to follow the `Deref` chain not the `Receiver` chain. Filter out + // steps which can only be reached by following the (longer) `Receiver` chain. + .filter(|step| step.reachable_via_deref) + .filter(|step| { + debug!("pick_all_method: step={:?}", step); + // skip types that are from a type error or that would require dereferencing + // a raw pointer + !step.self_ty.value.value.references_non_lt_error() && !step.from_unsafe_deref + }) + .try_for_each(|step| { + let InferOk { value: self_ty, obligations: instantiate_self_ty_obligations } = self + .infcx() + .instantiate_query_response_and_region_obligations( + &ObligationCause::new(), + self.param_env(), + self.orig_steps_var_values, + &step.self_ty, + ) + .unwrap_or_else(|_| panic!("{:?} was applicable but now isn't?", step.self_ty)); + + let by_value_pick = + self.pick_by_value_method(step, self_ty, &instantiate_self_ty_obligations); + + // Check for shadowing of a by-reference method by a by-value method (see comments on check_for_shadowing) + if let ControlFlow::Break(by_value_pick) = by_value_pick { + Choice::check_by_value_method_shadowing( + self, + &by_value_pick, + step, + self_ty, + &instantiate_self_ty_obligations, + )?; + return ControlFlow::Break(by_value_pick); + } + + let autoref_pick = self.pick_autorefd_method( + step, + self_ty, + &instantiate_self_ty_obligations, + Mutability::Not, + None, + ); + // Check for shadowing of a by-mut-ref method by a by-reference method (see comments on check_for_shadowing) + if let ControlFlow::Break(autoref_pick) = autoref_pick { + Choice::check_autorefed_method_shadowing( + self, + &autoref_pick, + step, + self_ty, + &instantiate_self_ty_obligations, + )?; + return ControlFlow::Break(autoref_pick); + } + + // Note that no shadowing errors are produced from here on, + // as we consider const ptr methods. + // We allow new methods that take *mut T to shadow + // methods which took *const T, so there is no entry in + // this list for the results of `pick_const_ptr_method`. + // The reason is that the standard pointer cast method + // (on a mutable pointer) always already shadows the + // cast method (on a const pointer). So, if we added + // `pick_const_ptr_method` to this method, the anti- + // shadowing algorithm would always complain about + // the conflict between *const::cast and *mut::cast. + // In practice therefore this does constrain us: + // we cannot add new + // self: *mut Self + // methods to types such as NonNull or anything else + // which implements Receiver, because this might in future + // shadow existing methods taking + // self: *const NonNull + // in the pointee. In practice, methods taking raw pointers + // are rare, and it seems that it should be easily possible + // to avoid such compatibility breaks. + // We also don't check for reborrowed pin methods which + // may be shadowed; these also seem unlikely to occur. + self.pick_autorefd_method( + step, + self_ty, + &instantiate_self_ty_obligations, + Mutability::Mut, + None, + )?; + self.pick_const_ptr_method(step, self_ty, &instantiate_self_ty_obligations) + }) + } + + /// For each type `T` in the step list, this attempts to find a method where + /// the (transformed) self type is exactly `T`. We do however do one + /// transformation on the adjustment: if we are passing a region pointer in, + /// we will potentially *reborrow* it to a shorter lifetime. This allows us + /// to transparently pass `&mut` pointers, in particular, without consuming + /// them for their entire lifetime. + fn pick_by_value_method( + &mut self, + step: &CandidateStep<'db>, + self_ty: Ty<'db>, + instantiate_self_ty_obligations: &[PredicateObligation<'db>], + ) -> ControlFlow { + if step.unsize { + return ControlFlow::Continue(()); + } + + self.pick_method(self_ty, instantiate_self_ty_obligations, None).map_break(|r| { + Choice::map_choice_pick(r, |mut pick| { + pick.autoderefs = step.autoderefs; + + match step.self_ty.value.value.kind() { + // Insert a `&*` or `&mut *` if this is a reference type: + TyKind::Ref(_, _, mutbl) => { + pick.autoderefs += 1; + pick.autoref_or_ptr_adjustment = Some(AutorefOrPtrAdjustment::Autoref { + mutbl, + unsize: pick.autoref_or_ptr_adjustment.is_some_and(|a| a.get_unsize()), + }) + } + + _ => (), + } + + pick + }) + }) + } + + fn pick_autorefd_method( + &mut self, + step: &CandidateStep<'db>, + self_ty: Ty<'db>, + instantiate_self_ty_obligations: &[PredicateObligation<'db>], + mutbl: Mutability, + pick_constraints: Option<&PickConstraintsForShadowed>, + ) -> ControlFlow { + let interner = self.interner(); + + if let Some(pick_constraints) = pick_constraints + && !pick_constraints.may_shadow_based_on_autoderefs(step.autoderefs) + { + return ControlFlow::Continue(()); + } + + // In general, during probing we erase regions. + let region = Region::new_erased(interner); + + let autoref_ty = Ty::new_ref(interner, region, self_ty, mutbl); + self.pick_method(autoref_ty, instantiate_self_ty_obligations, pick_constraints).map_break( + |r| { + Choice::map_choice_pick(r, |mut pick| { + pick.autoderefs = step.autoderefs; + pick.autoref_or_ptr_adjustment = + Some(AutorefOrPtrAdjustment::Autoref { mutbl, unsize: step.unsize }); + pick + }) + }, + ) + } + + /// If `self_ty` is `*mut T` then this picks `*const T` methods. The reason why we have a + /// special case for this is because going from `*mut T` to `*const T` with autoderefs and + /// autorefs would require dereferencing the pointer, which is not safe. + fn pick_const_ptr_method( + &mut self, + step: &CandidateStep<'db>, + self_ty: Ty<'db>, + instantiate_self_ty_obligations: &[PredicateObligation<'db>], + ) -> ControlFlow { + // Don't convert an unsized reference to ptr + if step.unsize { + return ControlFlow::Continue(()); + } + + let TyKind::RawPtr(ty, Mutability::Mut) = self_ty.kind() else { + return ControlFlow::Continue(()); + }; + + let const_ptr_ty = Ty::new_ptr(self.interner(), ty, Mutability::Not); + self.pick_method(const_ptr_ty, instantiate_self_ty_obligations, None).map_break(|r| { + Choice::map_choice_pick(r, |mut pick| { + pick.autoderefs = step.autoderefs; + pick.autoref_or_ptr_adjustment = Some(AutorefOrPtrAdjustment::ToConstPtr); + pick + }) + }) + } + + fn pick_method( + &mut self, + self_ty: Ty<'db>, + instantiate_self_ty_obligations: &[PredicateObligation<'db>], + pick_constraints: Option<&PickConstraintsForShadowed>, + ) -> ControlFlow { + debug!("pick_method(self_ty={:?})", self_ty); + + for (kind, candidates) in + [("inherent", &self.inherent_candidates), ("extension", &self.extension_candidates)] + { + debug!("searching {} candidates", kind); + self.consider_candidates( + self_ty, + instantiate_self_ty_obligations, + candidates, + pick_constraints, + )?; + } + + Choice::consider_private_candidates(self, self_ty, instantiate_self_ty_obligations); + + ControlFlow::Continue(()) + } + + fn consider_candidates( + &self, + self_ty: Ty<'db>, + instantiate_self_ty_obligations: &[PredicateObligation<'db>], + candidates: &[Candidate<'db>], + pick_constraints: Option<&PickConstraintsForShadowed>, + ) -> ControlFlow { + let applicable_candidates: Vec<_> = candidates + .iter() + .filter(|candidate| { + pick_constraints + .map(|pick_constraints| pick_constraints.candidate_may_shadow(candidate)) + .unwrap_or(true) + }) + .filter(|probe| { + self.consider_probe(self_ty, instantiate_self_ty_obligations, probe) + != ProbeResult::NoMatch + }) + .collect(); + + debug!("applicable_candidates: {:?}", applicable_candidates); + + Choice::consider_candidates(self, self_ty, applicable_candidates) + } + + fn select_trait_candidate( + &self, + trait_ref: TraitRef<'db>, + ) -> SelectionResult<'db, Selection<'db>> { + let obligation = + Obligation::new(self.interner(), ObligationCause::new(), self.param_env(), trait_ref); + self.infcx().select(&obligation) + } + + /// Used for ambiguous method call error reporting. Uses probing that throws away the result internally, + /// so do not use to make a decision that may lead to a successful compilation. + fn candidate_source(&self, candidate: &Candidate<'db>, self_ty: Ty<'db>) -> CandidateSource { + match candidate.kind { + InherentImplCandidate { impl_def_id, .. } => CandidateSource::Impl(impl_def_id), + ObjectCandidate(trait_ref) | WhereClauseCandidate(trait_ref) => { + CandidateSource::Trait(trait_ref.def_id().0) + } + TraitCandidate(trait_ref) => self.infcx().probe(|_| { + let trait_ref = self.infcx().instantiate_binder_with_fresh_vars( + BoundRegionConversionTime::FnCall, + trait_ref, + ); + let (xform_self_ty, _) = self.xform_self_ty( + candidate.item, + trait_ref.self_ty(), + trait_ref.args.as_slice(), + ); + // Guide the trait selection to show impls that have methods whose type matches + // up with the `self` parameter of the method. + let _ = self + .infcx() + .at(&ObligationCause::dummy(), self.param_env()) + .sup(xform_self_ty, self_ty); + match self.select_trait_candidate(trait_ref) { + Ok(Some(ImplSource::UserDefined(ref impl_data))) => { + // If only a single impl matches, make the error message point + // to that impl. + CandidateSource::Impl(impl_data.impl_def_id) + } + _ => CandidateSource::Trait(trait_ref.def_id.0), + } + }), + } + } + + fn candidate_source_from_pick(&self, pick: &Pick<'db>) -> CandidateSource { + match pick.kind { + InherentImplPick(impl_) => CandidateSource::Impl(impl_), + ObjectPick(trait_) | TraitPick(trait_) => CandidateSource::Trait(trait_), + WhereClausePick(trait_ref) => CandidateSource::Trait(trait_ref.skip_binder().def_id.0), + } + } + + #[instrument(level = "debug", skip(self), ret)] + fn consider_probe( + &self, + self_ty: Ty<'db>, + instantiate_self_ty_obligations: &[PredicateObligation<'db>], + probe: &Candidate<'db>, + ) -> ProbeResult { + self.infcx().probe(|_| { + let mut result = ProbeResult::Match; + let cause = &ObligationCause::new(); + let mut ocx = ObligationCtxt::new(self.infcx()); + + // Subtle: we're not *really* instantiating the current self type while + // probing, but instead fully recompute the autoderef steps once we've got + // a final `Pick`. We can't nicely handle these obligations outside of a probe. + // + // We simply handle them for each candidate here for now. That's kinda scuffed + // and ideally we just put them into the `FnCtxt` right away. We need to consider + // them to deal with defining uses in `method_autoderef_steps`. + ocx.register_obligations(instantiate_self_ty_obligations.iter().cloned()); + let errors = ocx.try_evaluate_obligations(); + if !errors.is_empty() { + unreachable!("unexpected autoderef error {errors:?}"); + } + + let mut trait_predicate = None; + let (xform_self_ty, xform_ret_ty); + + match probe.kind { + InherentImplCandidate { impl_def_id, .. } => { + let impl_args = self.infcx().fresh_args_for_item(impl_def_id.into()); + let impl_ty = + self.db().impl_self_ty(impl_def_id).instantiate(self.interner(), impl_args); + (xform_self_ty, xform_ret_ty) = + self.xform_self_ty(probe.item, impl_ty, impl_args.as_slice()); + match ocx.relate( + cause, + self.param_env(), + self.variance(), + self_ty, + xform_self_ty, + ) { + Ok(()) => {} + Err(err) => { + debug!("--> cannot relate self-types {:?}", err); + return ProbeResult::NoMatch; + } + } + // Check whether the impl imposes obligations we have to worry about. + let impl_bounds = GenericPredicates::query_all(self.db(), impl_def_id.into()); + let impl_bounds = clauses_as_obligations( + impl_bounds.iter_instantiated_copied(self.interner(), impl_args.as_slice()), + ObligationCause::new(), + self.param_env(), + ); + // Convert the bounds into obligations. + ocx.register_obligations(impl_bounds); + } + TraitCandidate(poly_trait_ref) => { + // Some trait methods are excluded for arrays before 2021. + // (`array.into_iter()` wants a slice iterator for compatibility.) + if self_ty.is_array() && !self.ctx.edition.at_least_2021() { + let trait_signature = self.db().trait_signature(poly_trait_ref.def_id().0); + if trait_signature + .flags + .contains(TraitFlags::SKIP_ARRAY_DURING_METHOD_DISPATCH) + { + return ProbeResult::NoMatch; + } + } + + // Some trait methods are excluded for boxed slices before 2024. + // (`boxed_slice.into_iter()` wants a slice iterator for compatibility.) + if self_ty.boxed_ty().is_some_and(Ty::is_slice) + && !self.ctx.edition.at_least_2024() + { + let trait_signature = self.db().trait_signature(poly_trait_ref.def_id().0); + if trait_signature + .flags + .contains(TraitFlags::SKIP_BOXED_SLICE_DURING_METHOD_DISPATCH) + { + return ProbeResult::NoMatch; + } + } + + let trait_ref = self.infcx().instantiate_binder_with_fresh_vars( + BoundRegionConversionTime::FnCall, + poly_trait_ref, + ); + (xform_self_ty, xform_ret_ty) = self.xform_self_ty( + probe.item, + trait_ref.self_ty(), + trait_ref.args.as_slice(), + ); + match ocx.relate( + cause, + self.param_env(), + self.variance(), + self_ty, + xform_self_ty, + ) { + Ok(()) => {} + Err(err) => { + debug!("--> cannot relate self-types {:?}", err); + return ProbeResult::NoMatch; + } + } + let obligation = Obligation::new( + self.interner(), + cause.clone(), + self.param_env(), + Binder::dummy(trait_ref), + ); + + // We only need this hack to deal with fatal overflow in the old solver. + ocx.register_obligation(obligation); + + trait_predicate = Some(trait_ref.upcast(self.interner())); + } + ObjectCandidate(poly_trait_ref) | WhereClauseCandidate(poly_trait_ref) => { + let trait_ref = self.infcx().instantiate_binder_with_fresh_vars( + BoundRegionConversionTime::FnCall, + poly_trait_ref, + ); + (xform_self_ty, xform_ret_ty) = self.xform_self_ty( + probe.item, + trait_ref.self_ty(), + trait_ref.args.as_slice(), + ); + + if matches!(probe.kind, WhereClauseCandidate(_)) { + // `WhereClauseCandidate` requires that the self type is a param, + // because it has special behavior with candidate preference as an + // inherent pick. + match ocx.structurally_normalize_ty( + cause, + self.param_env(), + trait_ref.self_ty(), + ) { + Ok(ty) => { + if !matches!(ty.kind(), TyKind::Param(_)) { + debug!("--> not a param ty: {xform_self_ty:?}"); + return ProbeResult::NoMatch; + } + } + Err(errors) => { + debug!("--> cannot relate self-types {:?}", errors); + return ProbeResult::NoMatch; + } + } + } + + match ocx.relate( + cause, + self.param_env(), + self.variance(), + self_ty, + xform_self_ty, + ) { + Ok(()) => {} + Err(err) => { + debug!("--> cannot relate self-types {:?}", err); + return ProbeResult::NoMatch; + } + } + } + } + + // See . + // + // In the new solver, check the well-formedness of the return type. + // This emulates, in a way, the predicates that fall out of + // normalizing the return type in the old solver. + // + // FIXME(-Znext-solver): We alternatively could check the predicates of + // the method itself hold, but we intentionally do not do this in the old + // solver b/c of cycles, and doing it in the new solver would be stronger. + // This should be fixed in the future, since it likely leads to much better + // method winnowing. + if let Some(xform_ret_ty) = xform_ret_ty { + ocx.register_obligation(Obligation::new( + self.interner(), + cause.clone(), + self.param_env(), + ClauseKind::WellFormed(xform_ret_ty.into()), + )); + } + + if !ocx.try_evaluate_obligations().is_empty() { + result = ProbeResult::NoMatch; + } + + if self.should_reject_candidate_due_to_opaque_treated_as_rigid(trait_predicate) { + result = ProbeResult::NoMatch; + } + + // FIXME: Need to leak-check here. + // if let Err(_) = self.leak_check(outer_universe, Some(snapshot)) { + // result = ProbeResult::NoMatch; + // } + + result + }) + } + + /// Trait candidates for not-yet-defined opaque types are a somewhat hacky. + /// + /// We want to only accept trait methods if they were hold even if the + /// opaque types were rigid. To handle this, we both check that for trait + /// candidates the goal were to hold even when treating opaques as rigid, + /// see [OpaqueTypesJank](rustc_trait_selection::solve::OpaqueTypesJank). + /// + /// We also check that all opaque types encountered as self types in the + /// autoderef chain don't get constrained when applying the candidate. + /// Importantly, this also handles calling methods taking `&self` on + /// `impl Trait` to reject the "by-self" candidate. + /// + /// This needs to happen at the end of `consider_probe` as we need to take + /// all the constraints from that into account. + #[instrument(level = "debug", skip(self), ret)] + fn should_reject_candidate_due_to_opaque_treated_as_rigid( + &self, + trait_predicate: Option>, + ) -> bool { + // This function is what hacky and doesn't perfectly do what we want it to. + // It's not soundness critical and we should be able to freely improve this + // in the future. + // + // Some concrete edge cases include the fact that `goal_may_hold_opaque_types_jank` + // also fails if there are any constraints opaques which are never used as a self + // type. We also allow where-bounds which are currently ambiguous but end up + // constraining an opaque later on. + + // Check whether the trait candidate would not be applicable if the + // opaque type were rigid. + if let Some(predicate) = trait_predicate { + let goal = Goal { param_env: self.param_env(), predicate }; + if !self.infcx().goal_may_hold_opaque_types_jank(goal) { + return true; + } + } + + // Check whether any opaque types in the autoderef chain have been + // constrained. + for step in self.steps { + if step.self_ty_is_opaque { + debug!(?step.autoderefs, ?step.self_ty, "self_type_is_opaque"); + let constrained_opaque = self.infcx().probe(|_| { + // If we fail to instantiate the self type of this + // step, this part of the deref-chain is no longer + // reachable. In this case we don't care about opaque + // types there. + let Ok(ok) = self.infcx().instantiate_query_response_and_region_obligations( + &ObligationCause::new(), + self.param_env(), + self.orig_steps_var_values, + &step.self_ty, + ) else { + debug!("failed to instantiate self_ty"); + return false; + }; + let mut ocx = ObligationCtxt::new(self.infcx()); + let self_ty = ocx.register_infer_ok_obligations(ok); + if !ocx.try_evaluate_obligations().is_empty() { + debug!("failed to prove instantiate self_ty obligations"); + return false; + } + + !self.infcx().resolve_vars_if_possible(self_ty).is_ty_var() + }); + if constrained_opaque { + debug!("opaque type has been constrained"); + return true; + } + } + } + + false + } + + /// Sometimes we get in a situation where we have multiple probes that are all impls of the + /// same trait, but we don't know which impl to use. In this case, since in all cases the + /// external interface of the method can be determined from the trait, it's ok not to decide. + /// We can basically just collapse all of the probes for various impls into one where-clause + /// probe. This will result in a pending obligation so when more type-info is available we can + /// make the final decision. + /// + /// Example (`tests/ui/methods/method-two-trait-defer-resolution-1.rs`): + /// + /// ```ignore (illustrative) + /// trait Foo { ... } + /// impl Foo for Vec { ... } + /// impl Foo for Vec { ... } + /// ``` + /// + /// Now imagine the receiver is `Vec<_>`. It doesn't really matter at this time which impl we + /// use, so it's ok to just commit to "using the method from the trait Foo". + fn collapse_candidates_to_trait_pick( + &self, + self_ty: Ty<'db>, + probes: &[&Candidate<'db>], + ) -> Option> { + // Do all probes correspond to the same trait? + let ItemContainerId::TraitId(container) = probes[0].item.container(self.db()) else { + return None; + }; + for p in &probes[1..] { + let ItemContainerId::TraitId(p_container) = p.item.container(self.db()) else { + return None; + }; + if p_container != container { + return None; + } + } + + // FIXME: check the return type here somehow. + // If so, just use this trait and call it a day. + Some(Pick { + item: probes[0].item, + kind: TraitPick(container), + autoderefs: 0, + autoref_or_ptr_adjustment: None, + self_ty, + receiver_steps: None, + shadowed_candidates: vec![], + }) + } + + /// Much like `collapse_candidates_to_trait_pick`, this method allows us to collapse + /// multiple conflicting picks if there is one pick whose trait container is a subtrait + /// of the trait containers of all of the other picks. + /// + /// This implements RFC #3624. + fn collapse_candidates_to_subtrait_pick( + &self, + self_ty: Ty<'db>, + probes: &[&Candidate<'db>], + ) -> Option> { + let mut child_candidate = probes[0]; + let ItemContainerId::TraitId(mut child_trait) = child_candidate.item.container(self.db()) + else { + return None; + }; + let mut supertraits: FxHashSet<_> = + supertrait_def_ids(self.interner(), child_trait.into()).collect(); + + let mut remaining_candidates: Vec<_> = probes[1..].to_vec(); + while !remaining_candidates.is_empty() { + let mut made_progress = false; + let mut next_round = vec![]; + + for remaining_candidate in remaining_candidates { + let ItemContainerId::TraitId(remaining_trait) = + remaining_candidate.item.container(self.db()) + else { + return None; + }; + if supertraits.contains(&remaining_trait.into()) { + made_progress = true; + continue; + } + + // This pick is not a supertrait of the `child_pick`. + // Check if it's a subtrait of the `child_pick`, instead. + // If it is, then it must have been a subtrait of every + // other pick we've eliminated at this point. It will + // take over at this point. + let remaining_trait_supertraits: FxHashSet<_> = + supertrait_def_ids(self.interner(), remaining_trait.into()).collect(); + if remaining_trait_supertraits.contains(&child_trait.into()) { + child_candidate = remaining_candidate; + child_trait = remaining_trait; + supertraits = remaining_trait_supertraits; + made_progress = true; + continue; + } + + // `child_pick` is not a supertrait of this pick. + // Don't bail here, since we may be comparing two supertraits + // of a common subtrait. These two supertraits won't be related + // at all, but we will pick them up next round when we find their + // child as we continue iterating in this round. + next_round.push(remaining_candidate); + } + + if made_progress { + // If we've made progress, iterate again. + remaining_candidates = next_round; + } else { + // Otherwise, we must have at least two candidates which + // are not related to each other at all. + return None; + } + } + + Some(Pick { + item: child_candidate.item, + kind: TraitPick(child_trait), + autoderefs: 0, + autoref_or_ptr_adjustment: None, + self_ty, + shadowed_candidates: probes + .iter() + .map(|c| c.item) + .filter(|item| *item != child_candidate.item) + .collect(), + receiver_steps: None, + }) + } + + /////////////////////////////////////////////////////////////////////////// + // MISCELLANY + fn has_applicable_self(&self, item: CandidateId) -> bool { + // "Fast track" -- check for usage of sugar when in method call + // mode. + // + // In Path mode (i.e., resolving a value like `T::next`), consider any + // associated value (i.e., methods, constants). + match item { + CandidateId::FunctionId(id) if self.mode == Mode::MethodCall => { + self.db().function_signature(id).has_self_param() + } + _ => true, + } + // FIXME -- check for types that deref to `Self`, + // like `Rc` and so on. + // + // Note also that the current code will break if this type + // includes any of the type parameters defined on the method + // -- but this could be overcome. + } + + fn record_static_candidate(&mut self, source: CandidateSource) { + self.static_candidates.push(source); + } + + #[instrument(level = "debug", skip(self))] + fn xform_self_ty( + &self, + item: CandidateId, + impl_ty: Ty<'db>, + args: &[GenericArg<'db>], + ) -> (Ty<'db>, Option>) { + if let CandidateId::FunctionId(item) = item + && self.mode == Mode::MethodCall + { + let sig = self.xform_method_sig(item, args); + (sig.inputs().as_slice()[0], Some(sig.output())) + } else { + (impl_ty, None) + } + } + + #[instrument(level = "debug", skip(self))] + fn xform_method_sig(&self, method: FunctionId, args: &[GenericArg<'db>]) -> FnSig<'db> { + let fn_sig = self.db().callable_item_signature(method.into()); + debug!(?fn_sig); + + assert!(!args.has_escaping_bound_vars()); + + // It is possible for type parameters or early-bound lifetimes + // to appear in the signature of `self`. The generic parameters + // we are given do not include type/lifetime parameters for the + // method yet. So create fresh variables here for those too, + // if there are any. + let generics = self.db().generic_params(method.into()); + + let xform_fn_sig = if generics.is_empty() { + fn_sig.instantiate(self.interner(), args) + } else { + let args = GenericArgs::for_item( + self.interner(), + method.into(), + |param_index, param_id, _| { + let i = param_index as usize; + if i < args.len() { + args[i] + } else { + match param_id { + GenericParamId::LifetimeParamId(_) => { + // In general, during probe we erase regions. + Region::new_erased(self.interner()).into() + } + GenericParamId::TypeParamId(_) => self.infcx().next_ty_var().into(), + GenericParamId::ConstParamId(_) => self.infcx().next_const_var().into(), + } + } + }, + ); + fn_sig.instantiate(self.interner(), args) + }; + + self.interner().instantiate_bound_regions_with_erased(xform_fn_sig) + } + + fn with_impl_item(&mut self, def_id: ImplId, callback: impl FnMut(&mut Self, CandidateId)) { + Choice::with_impl_or_trait_item(self, &def_id.impl_items(self.db()).items, callback) + } + + fn with_trait_item(&mut self, def_id: TraitId, callback: impl FnMut(&mut Self, CandidateId)) { + Choice::with_impl_or_trait_item(self, &def_id.trait_items(self.db()).items, callback) + } +} + +/// Determine if the given associated item type is relevant in the current context. +fn is_relevant_kind_for_mode(mode: Mode, kind: AssocItemId) -> Option { + Some(match (mode, kind) { + (Mode::MethodCall, AssocItemId::FunctionId(id)) => id.into(), + (Mode::Path, AssocItemId::ConstId(id)) => id.into(), + (Mode::Path, AssocItemId::FunctionId(id)) => id.into(), + _ => return None, + }) +} + +impl<'db> Candidate<'db> { + fn to_unadjusted_pick(&self, self_ty: Ty<'db>) -> Pick<'db> { + Pick { + item: self.item, + kind: match self.kind { + InherentImplCandidate { impl_def_id, .. } => InherentImplPick(impl_def_id), + ObjectCandidate(trait_ref) => ObjectPick(trait_ref.skip_binder().def_id.0), + TraitCandidate(trait_ref) => TraitPick(trait_ref.skip_binder().def_id.0), + WhereClauseCandidate(trait_ref) => { + // Only trait derived from where-clauses should + // appear here, so they should not contain any + // inference variables or other artifacts. This + // means they are safe to put into the + // `WhereClausePick`. + assert!( + !trait_ref.skip_binder().args.has_infer() + && !trait_ref.skip_binder().args.has_placeholders() + ); + + WhereClausePick(trait_ref) + } + }, + autoderefs: 0, + autoref_or_ptr_adjustment: None, + self_ty, + receiver_steps: match self.kind { + InherentImplCandidate { receiver_steps, .. } => Some(receiver_steps), + _ => None, + }, + shadowed_candidates: vec![], + } + } +} diff --git a/crates/hir-ty/src/mir.rs b/crates/hir-ty/src/mir.rs index 7aebe17e5b4e..b5b691d4668e 100644 --- a/crates/hir-ty/src/mir.rs +++ b/crates/hir-ty/src/mir.rs @@ -12,7 +12,7 @@ use hir_def::{ use la_arena::{Arena, ArenaMap, Idx, RawIdx}; use rustc_ast_ir::Mutability; use rustc_hash::FxHashMap; -use rustc_type_ir::inherent::{AdtDef, GenericArgs as _, IntoKind, SliceLike, Ty as _}; +use rustc_type_ir::inherent::{GenericArgs as _, IntoKind, SliceLike, Ty as _}; use smallvec::{SmallVec, smallvec}; use stdx::{impl_from, never}; @@ -22,7 +22,6 @@ use crate::{ db::{HirDatabase, InternedClosureId}, display::{DisplayTarget, HirDisplay}, infer::PointerCast, - lang_items::is_box, next_solver::{ Const, DbInterner, ErrorGuaranteed, GenericArgs, ParamEnv, Ty, TyKind, infer::{InferCtxt, traits::ObligationCause}, @@ -185,7 +184,7 @@ impl ProjectionElem { match self { ProjectionElem::Deref => match base.kind() { TyKind::RawPtr(inner, _) | TyKind::Ref(_, inner, _) => inner, - TyKind::Adt(adt_def, subst) if is_box(db, adt_def.def_id().0) => subst.type_at(0), + TyKind::Adt(adt_def, subst) if adt_def.is_box() => subst.type_at(0), _ => { never!( "Overloaded deref on type {} is not a projection", diff --git a/crates/hir-ty/src/mir/eval/tests.rs b/crates/hir-ty/src/mir/eval/tests.rs index f242115afeff..88acd4906562 100644 --- a/crates/hir-ty/src/mir/eval/tests.rs +++ b/crates/hir-ty/src/mir/eval/tests.rs @@ -544,7 +544,7 @@ fn main() { fn for_loop() { check_pass( r#" -//- minicore: iterator, add +//- minicore: iterator, add, builtin_impls fn should_not_reach() { _ // FIXME: replace this function with panic when that works } @@ -706,7 +706,7 @@ fn main() { fn closure_state() { check_pass( r#" -//- minicore: fn, add, copy +//- minicore: fn, add, copy, builtin_impls fn should_not_reach() { _ // FIXME: replace this function with panic when that works } diff --git a/crates/hir-ty/src/mir/lower.rs b/crates/hir-ty/src/mir/lower.rs index 1439c43e99e8..67040121d582 100644 --- a/crates/hir-ty/src/mir/lower.rs +++ b/crates/hir-ty/src/mir/lower.rs @@ -33,6 +33,7 @@ use crate::{ infer::{CaptureKind, CapturedItem, TypeMismatch, cast::CastTy}, inhabitedness::is_ty_uninhabited_from, layout::LayoutError, + method_resolution::CandidateId, mir::{ AggregateKind, Arena, BasicBlock, BasicBlockId, BinOp, BorrowKind, CastKind, Either, Expr, FieldId, GenericArgs, Idx, InferenceResult, Local, LocalId, MemoryMap, MirBody, MirSpan, @@ -388,15 +389,15 @@ impl<'a, 'db> MirLowerCtx<'a, 'db> { ); Ok(Some(current)) } - Adjust::Borrow(AutoBorrow::Ref(_, m) | AutoBorrow::RawPtr(m)) => { - let Some((p, current)) = - self.lower_expr_as_place_with_adjust(current, expr_id, true, rest)? - else { - return Ok(None); - }; - let bk = BorrowKind::from_rustc(*m); - self.push_assignment(current, place, Rvalue::Ref(bk, p), expr_id.into()); - Ok(Some(current)) + Adjust::Borrow(AutoBorrow::Ref(m)) => self.lower_expr_to_place_with_borrow_adjust( + expr_id, + place, + current, + rest, + (*m).into(), + ), + Adjust::Borrow(AutoBorrow::RawPtr(m)) => { + self.lower_expr_to_place_with_borrow_adjust(expr_id, place, current, rest, *m) } Adjust::Pointer(cast) => { let Some((p, current)) = @@ -421,6 +422,24 @@ impl<'a, 'db> MirLowerCtx<'a, 'db> { } } + fn lower_expr_to_place_with_borrow_adjust( + &mut self, + expr_id: ExprId, + place: Place<'db>, + current: BasicBlockId<'db>, + rest: &[Adjustment<'db>], + m: Mutability, + ) -> Result<'db, Option>> { + let Some((p, current)) = + self.lower_expr_as_place_with_adjust(current, expr_id, true, rest)? + else { + return Ok(None); + }; + let bk = BorrowKind::from_rustc(m); + self.push_assignment(current, place, Rvalue::Ref(bk, p), expr_id.into()); + Ok(Some(current)) + } + fn lower_expr_to_place( &mut self, expr_id: ExprId, @@ -460,18 +479,14 @@ impl<'a, 'db> MirLowerCtx<'a, 'db> { let pr = if let Some((assoc, subst)) = self.infer.assoc_resolutions_for_expr(expr_id) { match assoc { - hir_def::AssocItemId::ConstId(c) => { + CandidateId::ConstId(c) => { self.lower_const(c.into(), current, place, subst, expr_id.into())?; return Ok(Some(current)); } - hir_def::AssocItemId::FunctionId(_) => { + CandidateId::FunctionId(_) => { // FnDefs are zero sized, no action is needed. return Ok(Some(current)); } - hir_def::AssocItemId::TypeAliasId(_) => { - // FIXME: If it is unreachable, use proper error instead of `not_supported`. - not_supported!("associated functions and types") - } } } else if let Some(variant) = self.infer.variant_resolution_for_expr(expr_id) { match variant { diff --git a/crates/hir-ty/src/mir/lower/as_place.rs b/crates/hir-ty/src/mir/lower/as_place.rs index 52f1412a06bf..bceafae0f139 100644 --- a/crates/hir-ty/src/mir/lower/as_place.rs +++ b/crates/hir-ty/src/mir/lower/as_place.rs @@ -193,7 +193,7 @@ impl<'db> MirLowerCtx<'_, 'db> { return self.lower_overloaded_deref( current, p, - self.expr_ty_after_adjustments(*expr), + self.expr_ty_without_adjust(*expr), self.expr_ty_without_adjust(expr_id), expr_id.into(), 'b: { diff --git a/crates/hir-ty/src/mir/lower/pattern_matching.rs b/crates/hir-ty/src/mir/lower/pattern_matching.rs index b1b86ab2c61b..c722a807d751 100644 --- a/crates/hir-ty/src/mir/lower/pattern_matching.rs +++ b/crates/hir-ty/src/mir/lower/pattern_matching.rs @@ -1,9 +1,8 @@ //! MIR lowering for patterns -use hir_def::{AssocItemId, hir::ExprId, signatures::VariantFields}; +use hir_def::{hir::ExprId, signatures::VariantFields}; use rustc_type_ir::inherent::{IntoKind, SliceLike, Ty as _}; -use crate::next_solver::GenericArgs; use crate::{ BindingMode, mir::{ @@ -16,6 +15,7 @@ use crate::{ }, }, }; +use crate::{method_resolution::CandidateId, next_solver::GenericArgs}; macro_rules! not_supported { ($x: expr) => { @@ -393,7 +393,7 @@ impl<'db> MirLowerCtx<'_, 'db> { } let (c, subst) = 'b: { if let Some(x) = self.infer.assoc_resolutions_for_pat(pattern) - && let AssocItemId::ConstId(c) = x.0 + && let CandidateId::ConstId(c) = x.0 { break 'b (c, x.1); } diff --git a/crates/hir-ty/src/next_solver/def_id.rs b/crates/hir-ty/src/next_solver/def_id.rs index 77f21062b473..2c30922246c2 100644 --- a/crates/hir-ty/src/next_solver/def_id.rs +++ b/crates/hir-ty/src/next_solver/def_id.rs @@ -1,8 +1,9 @@ //! Definition of `SolverDefId` use hir_def::{ - AdtId, CallableDefId, ConstId, DefWithBodyId, EnumId, EnumVariantId, FunctionId, - GeneralConstId, GenericDefId, ImplId, StaticId, StructId, TraitId, TypeAliasId, UnionId, + AdtId, AttrDefId, CallableDefId, ConstId, DefWithBodyId, EnumId, EnumVariantId, FunctionId, + GeneralConstId, GenericDefId, HasModule, ImplId, ModuleId, StaticId, StructId, TraitId, + TypeAliasId, UnionId, db::DefDatabase, }; use rustc_type_ir::inherent; use stdx::impl_from; @@ -154,6 +155,28 @@ impl From for SolverDefId { } } +impl TryFrom for AttrDefId { + type Error = (); + #[inline] + fn try_from(value: SolverDefId) -> Result { + match value { + SolverDefId::AdtId(it) => Ok(it.into()), + SolverDefId::ConstId(it) => Ok(it.into()), + SolverDefId::FunctionId(it) => Ok(it.into()), + SolverDefId::ImplId(it) => Ok(it.into()), + SolverDefId::StaticId(it) => Ok(it.into()), + SolverDefId::TraitId(it) => Ok(it.into()), + SolverDefId::TypeAliasId(it) => Ok(it.into()), + SolverDefId::EnumVariantId(it) => Ok(it.into()), + SolverDefId::Ctor(Ctor::Struct(it)) => Ok(it.into()), + SolverDefId::Ctor(Ctor::Enum(it)) => Ok(it.into()), + SolverDefId::InternedClosureId(_) + | SolverDefId::InternedCoroutineId(_) + | SolverDefId::InternedOpaqueTyId(_) => Err(()), + } + } +} + impl TryFrom for DefWithBodyId { type Error = (); @@ -218,6 +241,28 @@ impl SolverDefId { } } +impl HasModule for SolverDefId { + fn module(&self, db: &dyn DefDatabase) -> ModuleId { + match *self { + SolverDefId::AdtId(id) => id.module(db), + SolverDefId::ConstId(id) => id.module(db), + SolverDefId::FunctionId(id) => id.module(db), + SolverDefId::ImplId(id) => id.module(db), + SolverDefId::StaticId(id) => id.module(db), + SolverDefId::TraitId(id) => id.module(db), + SolverDefId::TypeAliasId(id) => id.module(db), + SolverDefId::InternedClosureId(id) => id.loc(db).0.module(db), + SolverDefId::InternedCoroutineId(id) => id.loc(db).0.module(db), + SolverDefId::InternedOpaqueTyId(id) => match id.loc(db) { + crate::ImplTraitId::ReturnTypeImplTrait(owner, _) => owner.module(db), + crate::ImplTraitId::TypeAliasImplTrait(owner, _) => owner.module(db), + }, + SolverDefId::Ctor(Ctor::Enum(id)) | SolverDefId::EnumVariantId(id) => id.module(db), + SolverDefId::Ctor(Ctor::Struct(id)) => id.module(db), + } + } +} + impl<'db> inherent::DefId> for SolverDefId { fn as_local(self) -> Option { Some(self) diff --git a/crates/hir-ty/src/next_solver/fold.rs b/crates/hir-ty/src/next_solver/fold.rs index f776b6ecfc43..7836419e8b75 100644 --- a/crates/hir-ty/src/next_solver/fold.rs +++ b/crates/hir-ty/src/next_solver/fold.rs @@ -5,7 +5,7 @@ use rustc_type_ir::{ TypeVisitableExt, inherent::IntoKind, }; -use crate::next_solver::BoundConst; +use crate::next_solver::{BoundConst, FxIndexMap}; use super::{ Binder, BoundRegion, BoundTy, Const, ConstKind, DbInterner, Predicate, Region, Ty, TyKind, @@ -158,3 +158,65 @@ pub fn fold_tys<'db, T: TypeFoldable>>( t.fold_with(&mut Folder { interner, callback }) } + +impl<'db> DbInterner<'db> { + /// Replaces all regions bound by the given `Binder` with the + /// results returned by the closure; the closure is expected to + /// return a free region (relative to this binder), and hence the + /// binder is removed in the return type. The closure is invoked + /// once for each unique `BoundRegionKind`; multiple references to the + /// same `BoundRegionKind` will reuse the previous result. A map is + /// returned at the end with each bound region and the free region + /// that replaced it. + /// + /// # Panics + /// + /// This method only replaces late bound regions. Any types or + /// constants bound by `value` will cause an ICE. + pub fn instantiate_bound_regions( + self, + value: Binder<'db, T>, + mut fld_r: F, + ) -> (T, FxIndexMap>) + where + F: FnMut(BoundRegion) -> Region<'db>, + T: TypeFoldable>, + { + let mut region_map = FxIndexMap::default(); + let real_fld_r = |br: BoundRegion| *region_map.entry(br).or_insert_with(|| fld_r(br)); + let value = self.instantiate_bound_regions_uncached(value, real_fld_r); + (value, region_map) + } + + pub fn instantiate_bound_regions_uncached( + self, + value: Binder<'db, T>, + mut replace_regions: F, + ) -> T + where + F: FnMut(BoundRegion) -> Region<'db>, + T: TypeFoldable>, + { + let value = value.skip_binder(); + if !value.has_escaping_bound_vars() { + value + } else { + let delegate = FnMutDelegate { + regions: &mut replace_regions, + types: &mut |b| panic!("unexpected bound ty in binder: {b:?}"), + consts: &mut |b| panic!("unexpected bound ct in binder: {b:?}"), + }; + let mut replacer = BoundVarReplacer::new(self, delegate); + value.fold_with(&mut replacer) + } + } + + /// Replaces any late-bound regions bound in `value` with `'erased`. Useful in codegen but also + /// method lookup and a few other places where precise region relationships are not required. + pub fn instantiate_bound_regions_with_erased(self, value: Binder<'db, T>) -> T + where + T: TypeFoldable>, + { + self.instantiate_bound_regions(value, |_| Region::new_erased(self)).0 + } +} diff --git a/crates/hir-ty/src/next_solver/infer/canonical/canonicalizer.rs b/crates/hir-ty/src/next_solver/infer/canonical/canonicalizer.rs index 7995545b0eed..1029a7ff39e8 100644 --- a/crates/hir-ty/src/next_solver/infer/canonical/canonicalizer.rs +++ b/crates/hir-ty/src/next_solver/infer/canonical/canonicalizer.rs @@ -10,8 +10,8 @@ use rustc_index::Idx; use rustc_type_ir::InferTy::{self, FloatVar, IntVar, TyVar}; use rustc_type_ir::inherent::{Const as _, IntoKind as _, Region as _, SliceLike, Ty as _}; use rustc_type_ir::{ - BoundVar, BoundVarIndexKind, CanonicalQueryInput, DebruijnIndex, Flags, InferConst, RegionKind, - TyVid, TypeFlags, TypeFoldable, TypeFolder, TypeSuperFoldable, TypeVisitableExt, UniverseIndex, + BoundVar, BoundVarIndexKind, DebruijnIndex, Flags, InferConst, RegionKind, TyVid, TypeFlags, + TypeFoldable, TypeFolder, TypeSuperFoldable, TypeVisitableExt, UniverseIndex, }; use smallvec::SmallVec; use tracing::debug; @@ -19,7 +19,7 @@ use tracing::debug; use crate::next_solver::infer::InferCtxt; use crate::next_solver::{ Binder, Canonical, CanonicalVarKind, CanonicalVars, Const, ConstKind, DbInterner, GenericArg, - ParamEnvAnd, Placeholder, Region, Ty, TyKind, + Placeholder, Region, Ty, TyKind, }; /// When we canonicalize a value to form a query, we wind up replacing @@ -66,33 +66,19 @@ impl<'db> InferCtxt<'db> { /// [c]: https://rust-lang.github.io/chalk/book/canonical_queries/canonicalization.html#canonicalizing-the-query pub fn canonicalize_query( &self, - value: ParamEnvAnd<'db, V>, + value: V, query_state: &mut OriginalQueryValues<'db>, - ) -> CanonicalQueryInput, ParamEnvAnd<'db, V>> + ) -> Canonical<'db, V> where V: TypeFoldable>, { - let (param_env, value) = value.into_parts(); - // FIXME(#118965): We don't canonicalize the static lifetimes that appear in the - // `param_env` because they are treated differently by trait selection. - let canonical_param_env = Canonicalizer::canonicalize( - param_env, - self, - self.interner, - &CanonicalizeFreeRegionsOtherThanStatic, - query_state, - ); - - let canonical = Canonicalizer::canonicalize_with_base( - canonical_param_env, + Canonicalizer::canonicalize( value, self, self.interner, &CanonicalizeAllFreeRegions, query_state, ) - .unchecked_map(|(param_env, value)| ParamEnvAnd { param_env, value }); - CanonicalQueryInput { canonical, typing_mode: self.typing_mode() } } /// Canonicalizes a query *response* `V`. When we canonicalize a @@ -285,26 +271,6 @@ impl CanonicalizeMode for CanonicalizeAllFreeRegions { } } -struct CanonicalizeFreeRegionsOtherThanStatic; - -impl CanonicalizeMode for CanonicalizeFreeRegionsOtherThanStatic { - fn canonicalize_free_region<'db>( - &self, - canonicalizer: &mut Canonicalizer<'_, 'db>, - r: Region<'db>, - ) -> Region<'db> { - if r.is_static() { r } else { canonicalizer.canonical_var_for_region_in_root_universe(r) } - } - - fn any(&self) -> bool { - true - } - - fn preserve_universes(&self) -> bool { - false - } -} - struct Canonicalizer<'cx, 'db> { /// Set to `None` to disable the resolution of inference variables. infcx: &'cx InferCtxt<'db>, diff --git a/crates/hir-ty/src/next_solver/infer/canonical/instantiate.rs b/crates/hir-ty/src/next_solver/infer/canonical/instantiate.rs index 636029107154..13c620cfdbc9 100644 --- a/crates/hir-ty/src/next_solver/infer/canonical/instantiate.rs +++ b/crates/hir-ty/src/next_solver/infer/canonical/instantiate.rs @@ -1,21 +1,31 @@ //! This module contains code to instantiate new values into a -//! `Canonical<'tcx, T>`. +//! `Canonical<'db, T>`. //! //! For an overview of what canonicalization is and how it fits into //! rustc, check out the [chapter in the rustc dev guide][c]. //! //! [c]: https://rust-lang.github.io/chalk/book/canonical_queries/canonicalization.html +use std::{fmt::Debug, iter}; + use crate::next_solver::{ - BoundConst, BoundRegion, BoundTy, Canonical, CanonicalVarValues, Clauses, Const, ConstKind, - DbInterner, GenericArg, Predicate, Region, RegionKind, Ty, TyKind, fold::FnMutDelegate, + BoundConst, BoundRegion, BoundTy, Canonical, CanonicalVarKind, CanonicalVarValues, Clauses, + Const, ConstKind, DbInterner, GenericArg, ParamEnv, Predicate, Region, RegionKind, Ty, TyKind, + fold::FnMutDelegate, + infer::{ + InferCtxt, InferOk, InferResult, + canonical::{QueryRegionConstraints, QueryResponse, canonicalizer::OriginalQueryValues}, + traits::{ObligationCause, PredicateObligations}, + }, }; use rustc_hash::FxHashMap; +use rustc_index::{Idx as _, IndexVec}; use rustc_type_ir::{ - BoundVarIndexKind, GenericArgKind, TypeFlags, TypeFoldable, TypeFolder, TypeSuperFoldable, - TypeVisitableExt, + BoundVar, BoundVarIndexKind, GenericArgKind, TypeFlags, TypeFoldable, TypeFolder, + TypeSuperFoldable, TypeVisitableExt, UniverseIndex, inherent::{GenericArg as _, IntoKind, SliceLike}, }; +use tracing::{debug, instrument}; pub trait CanonicalExt<'db, V> { fn instantiate(&self, tcx: DbInterner<'db>, var_values: &CanonicalVarValues<'db>) -> V @@ -169,3 +179,331 @@ impl<'db, 'a> TypeFolder> for CanonicalInstantiator<'db, 'a> { c.super_fold_with(self) } } + +impl<'db> InferCtxt<'db> { + /// A version of `make_canonicalized_query_response` that does + /// not pack in obligations, for contexts that want to drop + /// pending obligations instead of treating them as an ambiguity (e.g. + /// typeck "probing" contexts). + /// + /// If you DO want to keep track of pending obligations (which + /// include all region obligations, so this includes all cases + /// that care about regions) with this function, you have to + /// do it yourself, by e.g., having them be a part of the answer. + pub fn make_query_response_ignoring_pending_obligations( + &self, + inference_vars: CanonicalVarValues<'db>, + answer: T, + ) -> Canonical<'db, QueryResponse<'db, T>> + where + T: TypeFoldable>, + { + // While we ignore region constraints and pending obligations, + // we do return constrained opaque types to avoid unconstrained + // inference variables in the response. This is important as we want + // to check that opaques in deref steps stay unconstrained. + // + // This doesn't handle the more general case for non-opaques as + // ambiguous `Projection` obligations have same the issue. + let opaque_types = self + .inner + .borrow_mut() + .opaque_type_storage + .iter_opaque_types() + .map(|(k, v)| (k, v.ty)) + .collect(); + + self.canonicalize_response(QueryResponse { + var_values: inference_vars, + region_constraints: QueryRegionConstraints::default(), + opaque_types, + value: answer, + }) + } + + /// Given the (canonicalized) result to a canonical query, + /// instantiates the result so it can be used, plugging in the + /// values from the canonical query. (Note that the result may + /// have been ambiguous; you should check the certainty level of + /// the query before applying this function.) + /// + /// To get a good understanding of what is happening here, check + /// out the [chapter in the rustc dev guide][c]. + /// + /// [c]: https://rust-lang.github.io/chalk/book/canonical_queries/canonicalization.html#processing-the-canonicalized-query-result + pub fn instantiate_query_response_and_region_obligations( + &self, + cause: &ObligationCause, + param_env: ParamEnv<'db>, + original_values: &OriginalQueryValues<'db>, + query_response: &Canonical<'db, QueryResponse<'db, R>>, + ) -> InferResult<'db, R> + where + R: TypeFoldable>, + { + let InferOk { value: result_args, obligations } = + self.query_response_instantiation(cause, param_env, original_values, query_response)?; + + for predicate in &query_response.value.region_constraints.outlives { + let predicate = instantiate_value(self.interner, &result_args, *predicate); + self.register_outlives_constraint(predicate); + } + + for assumption in &query_response.value.region_constraints.assumptions { + let assumption = instantiate_value(self.interner, &result_args, *assumption); + self.register_region_assumption(assumption); + } + + let user_result: R = + query_response + .instantiate_projected(self.interner, &result_args, |q_r| q_r.value.clone()); + + Ok(InferOk { value: user_result, obligations }) + } + + /// Given the original values and the (canonicalized) result from + /// computing a query, returns an instantiation that can be applied + /// to the query result to convert the result back into the + /// original namespace. + /// + /// The instantiation also comes accompanied with subobligations + /// that arose from unification; these might occur if (for + /// example) we are doing lazy normalization and the value + /// assigned to a type variable is unified with an unnormalized + /// projection. + fn query_response_instantiation( + &self, + cause: &ObligationCause, + param_env: ParamEnv<'db>, + original_values: &OriginalQueryValues<'db>, + query_response: &Canonical<'db, QueryResponse<'db, R>>, + ) -> InferResult<'db, CanonicalVarValues<'db>> + where + R: Debug + TypeFoldable>, + { + debug!( + "query_response_instantiation(original_values={:#?}, query_response={:#?})", + original_values, query_response, + ); + + let mut value = self.query_response_instantiation_guess( + cause, + param_env, + original_values, + query_response, + )?; + + value.obligations.extend( + self.unify_query_response_instantiation_guess( + cause, + param_env, + original_values, + &value.value, + query_response, + )? + .into_obligations(), + ); + + Ok(value) + } + + /// Given the original values and the (canonicalized) result from + /// computing a query, returns a **guess** at an instantiation that + /// can be applied to the query result to convert the result back + /// into the original namespace. This is called a **guess** + /// because it uses a quick heuristic to find the values for each + /// canonical variable; if that quick heuristic fails, then we + /// will instantiate fresh inference variables for each canonical + /// variable instead. Therefore, the result of this method must be + /// properly unified + #[instrument(level = "debug", skip(self, param_env))] + fn query_response_instantiation_guess( + &self, + cause: &ObligationCause, + param_env: ParamEnv<'db>, + original_values: &OriginalQueryValues<'db>, + query_response: &Canonical<'db, QueryResponse<'db, R>>, + ) -> InferResult<'db, CanonicalVarValues<'db>> + where + R: Debug + TypeFoldable>, + { + // For each new universe created in the query result that did + // not appear in the original query, create a local + // superuniverse. + let mut universe_map = original_values.universe_map.clone(); + let num_universes_in_query = original_values.universe_map.len(); + let num_universes_in_response = query_response.max_universe.as_usize() + 1; + for _ in num_universes_in_query..num_universes_in_response { + universe_map.push(self.create_next_universe()); + } + assert!(!universe_map.is_empty()); // always have the root universe + assert_eq!(universe_map[UniverseIndex::ROOT.as_usize()], UniverseIndex::ROOT); + + // Every canonical query result includes values for each of + // the inputs to the query. Therefore, we begin by unifying + // these values with the original inputs that were + // canonicalized. + let result_values = &query_response.value.var_values; + assert_eq!(original_values.var_values.len(), result_values.len()); + + // Quickly try to find initial values for the canonical + // variables in the result in terms of the query. We do this + // by iterating down the values that the query gave to each of + // the canonical inputs. If we find that one of those values + // is directly equal to one of the canonical variables in the + // result, then we can type the corresponding value from the + // input. See the example above. + let mut opt_values: IndexVec>> = + IndexVec::from_elem_n(None, query_response.variables.len()); + + for (original_value, result_value) in iter::zip(&original_values.var_values, result_values) + { + match result_value.kind() { + GenericArgKind::Type(result_value) => { + // We disable the instantiation guess for inference variables + // and only use it for placeholders. We need to handle the + // `sub_root` of type inference variables which would make this + // more involved. They are also a lot rarer than region variables. + if let TyKind::Bound(index_kind, b) = result_value.kind() + && !matches!( + query_response.variables.as_slice()[b.var.as_usize()], + CanonicalVarKind::Ty { .. } + ) + { + // We only allow a `Canonical` index in generic parameters. + assert!(matches!(index_kind, BoundVarIndexKind::Canonical)); + opt_values[b.var] = Some(*original_value); + } + } + GenericArgKind::Lifetime(result_value) => { + if let RegionKind::ReBound(index_kind, b) = result_value.kind() { + // We only allow a `Canonical` index in generic parameters. + assert!(matches!(index_kind, BoundVarIndexKind::Canonical)); + opt_values[b.var] = Some(*original_value); + } + } + GenericArgKind::Const(result_value) => { + if let ConstKind::Bound(index_kind, b) = result_value.kind() { + // We only allow a `Canonical` index in generic parameters. + assert!(matches!(index_kind, BoundVarIndexKind::Canonical)); + opt_values[b.var] = Some(*original_value); + } + } + } + } + + // Create result arguments: if we found a value for a + // given variable in the loop above, use that. Otherwise, use + // a fresh inference variable. + let interner = self.interner; + let variables = query_response.variables; + let var_values = + CanonicalVarValues::instantiate(interner, variables, |var_values, kind| { + if kind.universe() != UniverseIndex::ROOT { + // A variable from inside a binder of the query. While ideally these shouldn't + // exist at all, we have to deal with them for now. + self.instantiate_canonical_var(kind, var_values, |u| universe_map[u.as_usize()]) + } else if kind.is_existential() { + match opt_values[BoundVar::new(var_values.len())] { + Some(k) => k, + None => self.instantiate_canonical_var(kind, var_values, |u| { + universe_map[u.as_usize()] + }), + } + } else { + // For placeholders which were already part of the input, we simply map this + // universal bound variable back the placeholder of the input. + opt_values[BoundVar::new(var_values.len())] + .expect("expected placeholder to be unified with itself during response") + } + }); + + let mut obligations = PredicateObligations::new(); + + // Carry all newly resolved opaque types to the caller's scope + for &(a, b) in &query_response.value.opaque_types { + let a = instantiate_value(self.interner, &var_values, a); + let b = instantiate_value(self.interner, &var_values, b); + debug!(?a, ?b, "constrain opaque type"); + // We use equate here instead of, for example, just registering the + // opaque type's hidden value directly, because the hidden type may have been an inference + // variable that got constrained to the opaque type itself. In that case we want to equate + // the generic args of the opaque with the generic params of its hidden type version. + obligations.extend( + self.at(cause, param_env) + .eq(Ty::new_opaque(self.interner, a.def_id, a.args), b)? + .obligations, + ); + } + + Ok(InferOk { value: var_values, obligations }) + } + + /// Given a "guess" at the values for the canonical variables in + /// the input, try to unify with the *actual* values found in the + /// query result. Often, but not always, this is a no-op, because + /// we already found the mapping in the "guessing" step. + /// + /// See also: [`Self::query_response_instantiation_guess`] + fn unify_query_response_instantiation_guess( + &self, + cause: &ObligationCause, + param_env: ParamEnv<'db>, + original_values: &OriginalQueryValues<'db>, + result_args: &CanonicalVarValues<'db>, + query_response: &Canonical<'db, QueryResponse<'db, R>>, + ) -> InferResult<'db, ()> + where + R: Debug + TypeFoldable>, + { + // A closure that yields the result value for the given + // canonical variable; this is taken from + // `query_response.var_values` after applying the instantiation + // by `result_args`. + let instantiated_query_response = |index: BoundVar| -> GenericArg<'db> { + query_response + .instantiate_projected(self.interner, result_args, |v| v.var_values[index]) + }; + + // Unify the original value for each variable with the value + // taken from `query_response` (after applying `result_args`). + self.unify_canonical_vars(cause, param_env, original_values, instantiated_query_response) + } + + /// Given two sets of values for the same set of canonical variables, unify them. + /// The second set is produced lazily by supplying indices from the first set. + fn unify_canonical_vars( + &self, + cause: &ObligationCause, + param_env: ParamEnv<'db>, + variables1: &OriginalQueryValues<'db>, + variables2: impl Fn(BoundVar) -> GenericArg<'db>, + ) -> InferResult<'db, ()> { + let mut obligations = PredicateObligations::new(); + for (index, value1) in variables1.var_values.iter().enumerate() { + let value2 = variables2(BoundVar::new(index)); + + match (value1.kind(), value2.kind()) { + (GenericArgKind::Type(v1), GenericArgKind::Type(v2)) => { + obligations.extend(self.at(cause, param_env).eq(v1, v2)?.into_obligations()); + } + (GenericArgKind::Lifetime(re1), GenericArgKind::Lifetime(re2)) + if re1.is_erased() && re2.is_erased() => + { + // no action needed + } + (GenericArgKind::Lifetime(v1), GenericArgKind::Lifetime(v2)) => { + self.inner.borrow_mut().unwrap_region_constraints().make_eqregion(v1, v2); + } + (GenericArgKind::Const(v1), GenericArgKind::Const(v2)) => { + let ok = self.at(cause, param_env).eq(v1, v2)?; + obligations.extend(ok.into_obligations()); + } + _ => { + panic!("kind mismatch, cannot unify {:?} and {:?}", value1, value2,); + } + } + } + Ok(InferOk { value: (), obligations }) + } +} diff --git a/crates/hir-ty/src/next_solver/infer/canonical/mod.rs b/crates/hir-ty/src/next_solver/infer/canonical/mod.rs index b3bd0a437b8d..a0420a5a00b9 100644 --- a/crates/hir-ty/src/next_solver/infer/canonical/mod.rs +++ b/crates/hir-ty/src/next_solver/infer/canonical/mod.rs @@ -22,10 +22,12 @@ //! [c]: https://rust-lang.github.io/chalk/book/canonical_queries/canonicalization.html use crate::next_solver::{ - Canonical, CanonicalVarValues, Const, DbInterner, GenericArg, PlaceholderConst, - PlaceholderRegion, PlaceholderTy, Region, Ty, TyKind, infer::InferCtxt, + ArgOutlivesPredicate, Canonical, CanonicalVarValues, Const, DbInterner, GenericArg, + OpaqueTypeKey, PlaceholderConst, PlaceholderRegion, PlaceholderTy, Region, Ty, TyKind, + infer::InferCtxt, }; use instantiate::CanonicalExt; +use macros::{TypeFoldable, TypeVisitable}; use rustc_index::IndexVec; use rustc_type_ir::inherent::IntoKind; use rustc_type_ir::{CanonicalVarKind, InferTy, TypeFoldable, UniverseIndex, inherent::Ty as _}; @@ -135,3 +137,22 @@ impl<'db> InferCtxt<'db> { } } } + +/// After we execute a query with a canonicalized key, we get back a +/// `Canonical>`. You can use +/// `instantiate_query_result` to access the data in this result. +#[derive(Clone, Debug, TypeVisitable, TypeFoldable)] +pub struct QueryResponse<'db, R> { + pub var_values: CanonicalVarValues<'db>, + pub region_constraints: QueryRegionConstraints<'db>, + pub opaque_types: Vec<(OpaqueTypeKey<'db>, Ty<'db>)>, + pub value: R, +} + +#[derive(Clone, Debug, Default, PartialEq, Eq, Hash, TypeVisitable, TypeFoldable)] +pub struct QueryRegionConstraints<'db> { + pub outlives: Vec>, + pub assumptions: Vec>, +} + +pub type QueryOutlivesConstraint<'tcx> = ArgOutlivesPredicate<'tcx>; diff --git a/crates/hir-ty/src/next_solver/infer/mod.rs b/crates/hir-ty/src/next_solver/infer/mod.rs index 7b8f52bf7203..fcce04fb08f6 100644 --- a/crates/hir-ty/src/next_solver/infer/mod.rs +++ b/crates/hir-ty/src/next_solver/infer/mod.rs @@ -29,9 +29,10 @@ use type_variable::TypeVariableOrigin; use unify_key::{ConstVariableOrigin, ConstVariableValue, ConstVidKey}; use crate::next_solver::{ - BoundConst, BoundRegion, BoundTy, BoundVarKind, Goal, SolverContext, + ArgOutlivesPredicate, BoundConst, BoundRegion, BoundTy, BoundVarKind, Goal, Predicate, + SolverContext, fold::BoundVarReplacerDelegate, - infer::{select::EvaluationResult, traits::PredicateObligation}, + infer::{at::ToTrace, select::EvaluationResult, traits::PredicateObligation}, obligation_ctxt::ObligationCtxt, }; @@ -47,6 +48,7 @@ pub mod at; pub mod canonical; mod context; pub mod opaque_types; +mod outlives; pub mod region_constraints; pub mod relate; pub mod resolve; @@ -141,7 +143,14 @@ pub struct InferCtxtInner<'db> { /// for each body-id in this map, which will process the /// obligations within. This is expected to be done 'late enough' /// that all type inference variables have been bound and so forth. - pub(crate) region_obligations: Vec>, + pub(crate) region_obligations: Vec>, + + /// The outlives bounds that we assume must hold about placeholders that + /// come from instantiating the binder of coroutine-witnesses. These bounds + /// are deduced from the well-formedness of the witness's types, and are + /// necessary because of the way we anonymize the regions in a coroutine, + /// which may cause types to no longer be considered well-formed. + region_assumptions: Vec>, /// Caches for opaque type inference. pub(crate) opaque_type_storage: OpaqueTypeStorage<'db>, @@ -158,12 +167,13 @@ impl<'db> InferCtxtInner<'db> { float_unification_storage: Default::default(), region_constraint_storage: Some(Default::default()), region_obligations: vec![], + region_assumptions: Default::default(), opaque_type_storage: Default::default(), } } #[inline] - pub fn region_obligations(&self) -> &[RegionObligation<'db>] { + pub fn region_obligations(&self) -> &[TypeOutlivesConstraint<'db>] { &self.region_obligations } @@ -318,7 +328,7 @@ impl fmt::Display for FixupError { /// See the `region_obligations` field for more information. #[derive(Clone, Debug)] -pub struct RegionObligation<'db> { +pub struct TypeOutlivesConstraint<'db> { pub sub_region: Region<'db>, pub sup_type: Ty<'db>, } @@ -387,6 +397,12 @@ impl<'db> InferCtxt<'db> { self.typing_mode } + /// Evaluates whether the predicate can be satisfied (by any means) + /// in the given `ParamEnv`. + pub fn predicate_may_hold(&self, obligation: &PredicateObligation<'db>) -> bool { + self.evaluate_obligation(obligation).may_apply() + } + /// See the comment on [OpaqueTypesJank](crate::solve::OpaqueTypesJank) /// for more details. pub fn predicate_may_hold_opaque_types_jank( @@ -507,6 +523,22 @@ impl<'db> InferCtxt<'db> { }) } + pub fn can_eq>(&self, param_env: ParamEnv<'db>, a: T, b: T) -> bool { + self.probe(|_| { + let mut ocx = ObligationCtxt::new(self); + let Ok(()) = ocx.eq(&ObligationCause::dummy(), param_env, a, b) else { + return false; + }; + ocx.try_evaluate_obligations().is_empty() + }) + } + + /// See the comment on [OpaqueTypesJank](crate::solve::OpaqueTypesJank) + /// for more details. + pub fn goal_may_hold_opaque_types_jank(&self, goal: Goal<'db, Predicate<'db>>) -> bool { + <&SolverContext<'db>>::from(self).root_goal_may_hold_opaque_types_jank(goal) + } + pub fn type_is_copy_modulo_regions(&self, param_env: ParamEnv<'db>, ty: Ty<'db>) -> bool { let ty = self.resolve_vars_if_possible(ty); @@ -632,6 +664,14 @@ impl<'db> InferCtxt<'db> { self.inner.borrow_mut().type_variables().num_vars() } + pub fn next_var_for_param(&self, id: GenericParamId) -> GenericArg<'db> { + match id { + GenericParamId::TypeParamId(_) => self.next_ty_var().into(), + GenericParamId::ConstParamId(_) => self.next_const_var().into(), + GenericParamId::LifetimeParamId(_) => self.next_region_var().into(), + } + } + pub fn next_ty_var(&self) -> Ty<'db> { self.next_ty_var_with_origin(TypeVariableOrigin { param_def_id: None }) } @@ -846,6 +886,22 @@ impl<'db> InferCtxt<'db> { self.inner.borrow_mut().opaque_type_storage.iter_opaque_types().collect() } + pub fn has_opaques_with_sub_unified_hidden_type(&self, ty_vid: TyVid) -> bool { + let ty_sub_vid = self.sub_unification_table_root_var(ty_vid); + let inner = &mut *self.inner.borrow_mut(); + let mut type_variables = inner.type_variable_storage.with_log(&mut inner.undo_log); + inner.opaque_type_storage.iter_opaque_types().any(|(_, hidden_ty)| { + if let TyKind::Infer(InferTy::TyVar(hidden_vid)) = hidden_ty.ty.kind() { + let opaque_sub_vid = type_variables.sub_unification_table_root_var(hidden_vid); + if opaque_sub_vid == ty_sub_vid { + return true; + } + } + + false + }) + } + #[inline(always)] pub fn can_define_opaque_ty(&self, id: impl Into) -> bool { match self.typing_mode_unchecked() { diff --git a/crates/hir-ty/src/next_solver/infer/outlives/mod.rs b/crates/hir-ty/src/next_solver/infer/outlives/mod.rs new file mode 100644 index 000000000000..321c4b87fb30 --- /dev/null +++ b/crates/hir-ty/src/next_solver/infer/outlives/mod.rs @@ -0,0 +1 @@ +mod obligations; diff --git a/crates/hir-ty/src/next_solver/infer/outlives/obligations.rs b/crates/hir-ty/src/next_solver/infer/outlives/obligations.rs new file mode 100644 index 000000000000..befb2001b1b9 --- /dev/null +++ b/crates/hir-ty/src/next_solver/infer/outlives/obligations.rs @@ -0,0 +1,68 @@ +use ena::undo_log::UndoLogs; +use rustc_type_ir::{OutlivesPredicate, TypeVisitableExt}; +use tracing::{debug, instrument}; + +use crate::next_solver::{ + ArgOutlivesPredicate, GenericArg, Region, RegionOutlivesPredicate, Ty, + infer::{InferCtxt, TypeOutlivesConstraint, snapshot::undo_log::UndoLog}, +}; + +impl<'db> InferCtxt<'db> { + pub fn register_outlives_constraint( + &self, + OutlivesPredicate(arg, r2): ArgOutlivesPredicate<'db>, + ) { + match arg { + GenericArg::Lifetime(r1) => { + self.register_region_outlives_constraint(OutlivesPredicate(r1, r2)); + } + GenericArg::Ty(ty1) => { + self.register_type_outlives_constraint(ty1, r2); + } + GenericArg::Const(_) => unreachable!(), + } + } + + pub fn register_region_outlives_constraint( + &self, + OutlivesPredicate(r_a, r_b): RegionOutlivesPredicate<'db>, + ) { + // `'a: 'b` ==> `'b <= 'a` + self.sub_regions(r_b, r_a); + } + + /// Registers that the given region obligation must be resolved + /// from within the scope of `body_id`. These regions are enqueued + /// and later processed by regionck, when full type information is + /// available (see `region_obligations` field for more + /// information). + #[instrument(level = "debug", skip(self))] + pub fn register_type_outlives_constraint_inner(&self, obligation: TypeOutlivesConstraint<'db>) { + let mut inner = self.inner.borrow_mut(); + inner.undo_log.push(UndoLog::PushTypeOutlivesConstraint); + inner.region_obligations.push(obligation); + } + + pub fn register_type_outlives_constraint(&self, sup_type: Ty<'db>, sub_region: Region<'db>) { + // `is_global` means the type has no params, infer, placeholder, or non-`'static` + // free regions. If the type has none of these things, then we can skip registering + // this outlives obligation since it has no components which affect lifetime + // checking in an interesting way. + if sup_type.is_global() { + return; + } + + debug!(?sup_type, ?sub_region); + + self.register_type_outlives_constraint_inner(TypeOutlivesConstraint { + sup_type, + sub_region, + }); + } + + pub fn register_region_assumption(&self, assumption: ArgOutlivesPredicate<'db>) { + let mut inner = self.inner.borrow_mut(); + inner.undo_log.push(UndoLog::PushRegionAssumption); + inner.region_assumptions.push(assumption); + } +} diff --git a/crates/hir-ty/src/next_solver/infer/snapshot/undo_log.rs b/crates/hir-ty/src/next_solver/infer/snapshot/undo_log.rs index c8ec8da7f31c..f246af1f2e53 100644 --- a/crates/hir-ty/src/next_solver/infer/snapshot/undo_log.rs +++ b/crates/hir-ty/src/next_solver/infer/snapshot/undo_log.rs @@ -28,8 +28,8 @@ pub(crate) enum UndoLog<'db> { FloatUnificationTable(sv::UndoLog>), RegionConstraintCollector(region_constraints::UndoLog<'db>), RegionUnificationTable(sv::UndoLog>>), - #[expect(dead_code, reason = "this is used in rustc")] - PushRegionObligation, + PushTypeOutlivesConstraint, + PushRegionAssumption, } macro_rules! impl_from { @@ -75,8 +75,13 @@ impl<'db> Rollback> for InferCtxtInner<'db> { UndoLog::RegionUnificationTable(undo) => { self.region_constraint_storage.as_mut().unwrap().unification_table.reverse(undo) } - UndoLog::PushRegionObligation => { - self.region_obligations.pop(); + UndoLog::PushTypeOutlivesConstraint => { + let popped = self.region_obligations.pop(); + assert!(popped.is_some(), "pushed region constraint but could not pop it"); + } + UndoLog::PushRegionAssumption => { + let popped = self.region_assumptions.pop(); + assert!(popped.is_some(), "pushed region assumption but could not pop it"); } } } diff --git a/crates/hir-ty/src/next_solver/interner.rs b/crates/hir-ty/src/next_solver/interner.rs index b18e08bea49b..39de17e9a81a 100644 --- a/crates/hir-ty/src/next_solver/interner.rs +++ b/crates/hir-ty/src/next_solver/interner.rs @@ -1,14 +1,15 @@ //! Things related to the Interner in the next-trait-solver. -use std::{fmt, ops::ControlFlow}; +use std::fmt; +use rustc_ast_ir::{FloatTy, IntTy, UintTy}; pub use tls_cache::clear_tls_solver_cache; pub use tls_db::{attach_db, attach_db_allow_change, with_attached_db}; use base_db::Crate; use hir_def::{ - AdtId, AttrDefId, BlockId, CallableDefId, DefWithBodyId, EnumVariantId, ItemContainerId, - StructId, UnionId, VariantId, + AdtId, AttrDefId, BlockId, CallableDefId, DefWithBodyId, EnumVariantId, HasModule, + ItemContainerId, StructId, UnionId, VariantId, lang_item::LangItem, signatures::{FieldData, FnFlags, ImplFlags, StructFlags, TraitFlags}, }; @@ -22,6 +23,7 @@ use rustc_type_ir::{ TypeVisitableExt, UniverseIndex, Upcast, Variance, elaborate::elaborate, error::TypeError, + fast_reject, inherent::{self, GenericsOf, IntoKind, SliceLike as _, Span as _, Ty as _}, lang_items::{SolverAdtLangItem, SolverLangItem, SolverTraitLangItem}, solve::SizedTraitKind, @@ -30,12 +32,13 @@ use rustc_type_ir::{ use crate::{ FnAbi, db::{HirDatabase, InternedCoroutine, InternedCoroutineId}, - method_resolution::{ALL_FLOAT_FPS, ALL_INT_FPS, TyFingerprint}, + lower::GenericPredicates, + method_resolution::TraitImpls, next_solver::{ AdtIdWrapper, BoundConst, CallableIdWrapper, CanonicalVarKind, ClosureIdWrapper, CoroutineIdWrapper, Ctor, FnSig, FxIndexMap, ImplIdWrapper, OpaqueTypeKey, - RegionAssumptions, SolverContext, SolverDefIds, TraitIdWrapper, TypeAliasIdWrapper, - util::{ContainsTypeErrors, explicit_item_bounds, for_trait_impls}, + RegionAssumptions, SimplifiedType, SolverContext, SolverDefIds, TraitIdWrapper, + TypeAliasIdWrapper, util::explicit_item_bounds, }, }; @@ -583,6 +586,10 @@ impl AdtDef { self.inner().flags.is_enum } + pub fn is_box(&self) -> bool { + self.inner().flags.is_box + } + #[inline] pub fn repr(self) -> ReprOptions { self.inner().repr @@ -1264,27 +1271,21 @@ impl<'db> Interner for DbInterner<'db> { }) } - #[tracing::instrument(skip(self), ret)] + #[tracing::instrument(skip(self))] fn item_bounds( self, def_id: Self::DefId, ) -> EarlyBinder> { - explicit_item_bounds(self, def_id).map_bound(|bounds| { - Clauses::new_from_iter(self, elaborate(self, bounds).collect::>()) - }) + explicit_item_bounds(self, def_id).map_bound(|bounds| elaborate(self, bounds)) } - #[tracing::instrument(skip(self), ret)] + #[tracing::instrument(skip(self))] fn item_self_bounds( self, def_id: Self::DefId, ) -> EarlyBinder> { - explicit_item_bounds(self, def_id).map_bound(|bounds| { - Clauses::new_from_iter( - self, - elaborate(self, bounds).filter_only_self().collect::>(), - ) - }) + explicit_item_bounds(self, def_id) + .map_bound(|bounds| elaborate(self, bounds).filter_only_self()) } fn item_non_self_bounds( @@ -1309,9 +1310,8 @@ impl<'db> Interner for DbInterner<'db> { self, def_id: Self::DefId, ) -> EarlyBinder> { - let predicates = self.db().generic_predicates(def_id.try_into().unwrap()); - let predicates: Vec<_> = predicates.iter().cloned().collect(); - EarlyBinder::bind(predicates.into_iter()) + GenericPredicates::query_all(self.db, def_id.try_into().unwrap()) + .map_bound(|it| it.iter().copied()) } #[tracing::instrument(level = "debug", skip(self), ret)] @@ -1319,9 +1319,8 @@ impl<'db> Interner for DbInterner<'db> { self, def_id: Self::DefId, ) -> EarlyBinder> { - let predicates = self.db().generic_predicates_without_parent(def_id.try_into().unwrap()); - let predicates: Vec<_> = predicates.iter().cloned().collect(); - EarlyBinder::bind(predicates.into_iter()) + GenericPredicates::query_own(self.db, def_id.try_into().unwrap()) + .map_bound(|it| it.iter().copied()) } #[tracing::instrument(skip(self), ret)] @@ -1334,23 +1333,21 @@ impl<'db> Interner for DbInterner<'db> { _ => false, }; - let predicates: Vec<(Clause<'db>, Span)> = self - .db() - .generic_predicates(def_id.0.into()) - .iter() - .filter(|p| match p.kind().skip_binder() { - // rustc has the following assertion: - // https://github.com/rust-lang/rust/blob/52618eb338609df44978b0ca4451ab7941fd1c7a/compiler/rustc_hir_analysis/src/hir_ty_lowering/bounds.rs#L525-L608 - rustc_type_ir::ClauseKind::Trait(it) => is_self(it.self_ty()), - rustc_type_ir::ClauseKind::TypeOutlives(it) => is_self(it.0), - rustc_type_ir::ClauseKind::Projection(it) => is_self(it.self_ty()), - rustc_type_ir::ClauseKind::HostEffect(it) => is_self(it.self_ty()), - _ => false, - }) - .cloned() - .map(|p| (p, Span::dummy())) - .collect(); - EarlyBinder::bind(predicates) + GenericPredicates::query_explicit(self.db, def_id.0.into()).map_bound(move |predicates| { + predicates + .iter() + .copied() + .filter(move |p| match p.kind().skip_binder() { + // rustc has the following assertion: + // https://github.com/rust-lang/rust/blob/52618eb338609df44978b0ca4451ab7941fd1c7a/compiler/rustc_hir_analysis/src/hir_ty_lowering/bounds.rs#L525-L608 + ClauseKind::Trait(it) => is_self(it.self_ty()), + ClauseKind::TypeOutlives(it) => is_self(it.0), + ClauseKind::Projection(it) => is_self(it.self_ty()), + ClauseKind::HostEffect(it) => is_self(it.self_ty()), + _ => false, + }) + .map(|p| (p, Span::dummy())) + }) } #[tracing::instrument(skip(self), ret)] @@ -1368,25 +1365,25 @@ impl<'db> Interner for DbInterner<'db> { } } - let predicates: Vec<(Clause<'db>, Span)> = self - .db() - .generic_predicates(def_id.try_into().unwrap()) - .iter() - .filter(|p| match p.kind().skip_binder() { - rustc_type_ir::ClauseKind::Trait(it) => is_self_or_assoc(it.self_ty()), - rustc_type_ir::ClauseKind::TypeOutlives(it) => is_self_or_assoc(it.0), - rustc_type_ir::ClauseKind::Projection(it) => is_self_or_assoc(it.self_ty()), - rustc_type_ir::ClauseKind::HostEffect(it) => is_self_or_assoc(it.self_ty()), - // FIXME: Not sure is this correct to allow other clauses but we might replace - // `generic_predicates_ns` query here with something closer to rustc's - // `implied_bounds_with_filter`, which is more granular lowering than this - // "lower at once and then filter" implementation. - _ => true, - }) - .cloned() - .map(|p| (p, Span::dummy())) - .collect(); - EarlyBinder::bind(predicates) + GenericPredicates::query_explicit(self.db, def_id.try_into().unwrap()).map_bound( + |predicates| { + predicates + .iter() + .copied() + .filter(|p| match p.kind().skip_binder() { + ClauseKind::Trait(it) => is_self_or_assoc(it.self_ty()), + ClauseKind::TypeOutlives(it) => is_self_or_assoc(it.0), + ClauseKind::Projection(it) => is_self_or_assoc(it.self_ty()), + ClauseKind::HostEffect(it) => is_self_or_assoc(it.self_ty()), + // FIXME: Not sure is this correct to allow other clauses but we might replace + // `generic_predicates_ns` query here with something closer to rustc's + // `implied_bounds_with_filter`, which is more granular lowering than this + // "lower at once and then filter" implementation. + _ => true, + }) + .map(|p| (p, Span::dummy())) + }, + ) } fn impl_super_outlives( @@ -1396,15 +1393,12 @@ impl<'db> Interner for DbInterner<'db> { let trait_ref = self.db().impl_trait(impl_id.0).expect("expected an impl of trait"); trait_ref.map_bound(|trait_ref| { let clause: Clause<'_> = trait_ref.upcast(self); - Clauses::new_from_iter( - self, - rustc_type_ir::elaborate::elaborate(self, [clause]).filter(|clause| { - matches!( - clause.kind().skip_binder(), - ClauseKind::TypeOutlives(_) | ClauseKind::RegionOutlives(_) - ) - }), - ) + elaborate(self, [clause]).filter(|clause| { + matches!( + clause.kind().skip_binder(), + ClauseKind::TypeOutlives(_) | ClauseKind::RegionOutlives(_) + ) + }) }) } @@ -1609,79 +1603,152 @@ impl<'db> Interner for DbInterner<'db> { fn for_each_relevant_impl( self, - trait_: Self::TraitId, + trait_def_id: Self::TraitId, self_ty: Self::Ty, mut f: impl FnMut(Self::ImplId), ) { - let trait_ = trait_.0; - let self_ty_fp = TyFingerprint::for_trait_impl(self_ty); - let fps: &[TyFingerprint] = match self_ty.kind() { - TyKind::Infer(InferTy::IntVar(..)) => &ALL_INT_FPS, - TyKind::Infer(InferTy::FloatVar(..)) => &ALL_FLOAT_FPS, - _ => self_ty_fp.as_slice(), - }; - - if fps.is_empty() { - _ = for_trait_impls( - self.db(), - self.krate.expect("Must have self.krate"), - self.block, - trait_, - self_ty_fp, - |impls| { - for i in impls.for_trait(trait_) { - use rustc_type_ir::TypeVisitable; - let contains_errors = self.db().impl_trait(i).map_or(false, |b| { - b.skip_binder().visit_with(&mut ContainsTypeErrors).is_break() - }); - if contains_errors { - continue; - } - - f(i.into()); + let krate = self.krate.expect("trait solving requires setting `DbInterner::krate`"); + let trait_block = trait_def_id.0.loc(self.db).container.containing_block(); + let mut consider_impls_for_simplified_type = |simp: SimplifiedType| { + let type_block = simp.def().and_then(|def_id| { + let module = match def_id { + SolverDefId::AdtId(AdtId::StructId(id)) => id.module(self.db), + SolverDefId::AdtId(AdtId::EnumId(id)) => id.module(self.db), + SolverDefId::AdtId(AdtId::UnionId(id)) => id.module(self.db), + SolverDefId::TraitId(id) => id.module(self.db), + SolverDefId::TypeAliasId(id) => id.module(self.db), + SolverDefId::ConstId(_) + | SolverDefId::FunctionId(_) + | SolverDefId::ImplId(_) + | SolverDefId::StaticId(_) + | SolverDefId::InternedClosureId(_) + | SolverDefId::InternedCoroutineId(_) + | SolverDefId::InternedOpaqueTyId(_) + | SolverDefId::EnumVariantId(_) + | SolverDefId::Ctor(_) => return None, + }; + module.containing_block() + }); + TraitImpls::for_each_crate_and_block_trait_and_type( + self.db, + krate, + type_block, + trait_block, + &mut |impls| { + for &impl_ in impls.for_trait_and_self_ty(trait_def_id.0, &simp) { + f(impl_.into()); } - ControlFlow::Continue(()) }, ); - } else { - _ = for_trait_impls( - self.db(), - self.krate.expect("Must have self.krate"), - self.block, - trait_, - self_ty_fp, - |impls| { - for fp in fps { - for i in impls.for_trait_and_self_ty(trait_, *fp) { - use rustc_type_ir::TypeVisitable; - let contains_errors = self.db().impl_trait(i).map_or(false, |b| { - b.skip_binder().visit_with(&mut ContainsTypeErrors).is_break() - }); - if contains_errors { - continue; - } + }; - f(i.into()); - } - } - ControlFlow::Continue(()) - }, - ); + match self_ty.kind() { + TyKind::Bool + | TyKind::Char + | TyKind::Int(_) + | TyKind::Uint(_) + | TyKind::Float(_) + | TyKind::Adt(_, _) + | TyKind::Foreign(_) + | TyKind::Str + | TyKind::Array(_, _) + | TyKind::Pat(_, _) + | TyKind::Slice(_) + | TyKind::RawPtr(_, _) + | TyKind::Ref(_, _, _) + | TyKind::FnDef(_, _) + | TyKind::FnPtr(..) + | TyKind::Dynamic(_, _) + | TyKind::Closure(..) + | TyKind::CoroutineClosure(..) + | TyKind::Coroutine(_, _) + | TyKind::Never + | TyKind::Tuple(_) + | TyKind::UnsafeBinder(_) => { + let simp = + fast_reject::simplify_type(self, self_ty, fast_reject::TreatParams::AsRigid) + .unwrap(); + consider_impls_for_simplified_type(simp); + } + + // HACK: For integer and float variables we have to manually look at all impls + // which have some integer or float as a self type. + TyKind::Infer(InferTy::IntVar(_)) => { + use IntTy::*; + use UintTy::*; + // This causes a compiler error if any new integer kinds are added. + let (I8 | I16 | I32 | I64 | I128 | Isize): IntTy; + let (U8 | U16 | U32 | U64 | U128 | Usize): UintTy; + let possible_integers = [ + // signed integers + SimplifiedType::Int(I8), + SimplifiedType::Int(I16), + SimplifiedType::Int(I32), + SimplifiedType::Int(I64), + SimplifiedType::Int(I128), + SimplifiedType::Int(Isize), + // unsigned integers + SimplifiedType::Uint(U8), + SimplifiedType::Uint(U16), + SimplifiedType::Uint(U32), + SimplifiedType::Uint(U64), + SimplifiedType::Uint(U128), + SimplifiedType::Uint(Usize), + ]; + for simp in possible_integers { + consider_impls_for_simplified_type(simp); + } + } + + TyKind::Infer(InferTy::FloatVar(_)) => { + // This causes a compiler error if any new float kinds are added. + let (FloatTy::F16 | FloatTy::F32 | FloatTy::F64 | FloatTy::F128); + let possible_floats = [ + SimplifiedType::Float(FloatTy::F16), + SimplifiedType::Float(FloatTy::F32), + SimplifiedType::Float(FloatTy::F64), + SimplifiedType::Float(FloatTy::F128), + ]; + + for simp in possible_floats { + consider_impls_for_simplified_type(simp); + } + } + + // The only traits applying to aliases and placeholders are blanket impls. + // + // Impls which apply to an alias after normalization are handled by + // `assemble_candidates_after_normalizing_self_ty`. + TyKind::Alias(_, _) | TyKind::Placeholder(..) | TyKind::Error(_) => (), + + // FIXME: These should ideally not exist as a self type. It would be nice for + // the builtin auto trait impls of coroutines to instead directly recurse + // into the witness. + TyKind::CoroutineWitness(..) => (), + + // These variants should not exist as a self type. + TyKind::Infer( + InferTy::TyVar(_) + | InferTy::FreshTy(_) + | InferTy::FreshIntTy(_) + | InferTy::FreshFloatTy(_), + ) + | TyKind::Param(_) + | TyKind::Bound(_, _) => panic!("unexpected self type: {self_ty:?}"), } + + self.for_each_blanket_impl(trait_def_id, f) } fn for_each_blanket_impl(self, trait_def_id: Self::TraitId, mut f: impl FnMut(Self::ImplId)) { let Some(krate) = self.krate else { return }; + let block = trait_def_id.0.loc(self.db).container.containing_block(); - for impls in self.db.trait_impls_in_deps(krate).iter() { - for impl_id in impls.for_trait(trait_def_id.0) { - let impl_data = self.db.impl_signature(impl_id); - let self_ty_ref = &impl_data.store[impl_data.self_ty]; - if matches!(self_ty_ref, hir_def::type_ref::TypeRef::TypeParam(_)) { - f(impl_id.into()); - } + TraitImpls::for_each_crate_and_block(self.db, krate, block, &mut |impls| { + for &impl_ in impls.blanket_impls(trait_def_id.0) { + f(impl_.into()); } - } + }); } fn has_item_definition(self, _def_id: Self::DefId) -> bool { diff --git a/crates/hir-ty/src/next_solver/predicate.rs b/crates/hir-ty/src/next_solver/predicate.rs index 3438b755fb9e..7cc3af748a38 100644 --- a/crates/hir-ty/src/next_solver/predicate.rs +++ b/crates/hir-ty/src/next_solver/predicate.rs @@ -13,7 +13,7 @@ use rustc_type_ir::{ }; use smallvec::SmallVec; -use crate::next_solver::{InternedWrapperNoDebug, TraitIdWrapper}; +use crate::next_solver::{GenericArg, InternedWrapperNoDebug, TraitIdWrapper}; use super::{Binder, BoundVarKinds, DbInterner, Region, Ty, interned_vec_db}; @@ -43,6 +43,7 @@ pub type PolyProjectionPredicate<'db> = Binder<'db, ProjectionPredicate<'db>>; pub type PolyTraitRef<'db> = Binder<'db, TraitRef<'db>>; pub type PolyExistentialTraitRef<'db> = Binder<'db, ExistentialTraitRef<'db>>; pub type PolyExistentialProjection<'db> = Binder<'db, ExistentialProjection<'db>>; +pub type ArgOutlivesPredicate<'db> = OutlivesPredicate<'db, GenericArg<'db>>; /// Compares via an ordering that will not change if modules are reordered or other changes are /// made to the tree. In particular, this ordering is preserved across incremental compilations. diff --git a/crates/hir-ty/src/next_solver/region.rs b/crates/hir-ty/src/next_solver/region.rs index b5f0e6de2910..19f3c38b673d 100644 --- a/crates/hir-ty/src/next_solver/region.rs +++ b/crates/hir-ty/src/next_solver/region.rs @@ -79,6 +79,10 @@ impl<'db> Region<'db> { matches!(self.inner(), RegionKind::ReStatic) } + pub fn is_erased(&self) -> bool { + matches!(self.inner(), RegionKind::ReErased) + } + pub fn is_var(&self) -> bool { matches!(self.inner(), RegionKind::ReVar(_)) } diff --git a/crates/hir-ty/src/next_solver/solver.rs b/crates/hir-ty/src/next_solver/solver.rs index 7b96b4008fec..8fae340dde12 100644 --- a/crates/hir-ty/src/next_solver/solver.rs +++ b/crates/hir-ty/src/next_solver/solver.rs @@ -11,13 +11,10 @@ use rustc_type_ir::{ }; use tracing::debug; -use crate::{ - ImplTraitId, - next_solver::{ - AliasTy, CanonicalVarKind, Clause, ClauseKind, CoercePredicate, GenericArgs, ImplIdWrapper, - ParamEnv, Predicate, PredicateKind, SubtypePredicate, Ty, TyKind, fold::fold_tys, - util::sizedness_fast_path, - }, +use crate::next_solver::{ + AliasTy, CanonicalVarKind, Clause, ClauseKind, CoercePredicate, GenericArgs, ImplIdWrapper, + ParamEnv, Predicate, PredicateKind, SubtypePredicate, Ty, TyKind, fold::fold_tys, + util::sizedness_fast_path, }; use super::{ @@ -163,20 +160,7 @@ impl<'db> SolverDelegate for SolverContext<'db> { }) }; - let db = interner.db; - let (opaques_table, opaque_idx) = match opaque_id.loc(db) { - ImplTraitId::ReturnTypeImplTrait(func, opaque_idx) => { - (db.return_type_impl_traits(func), opaque_idx) - } - ImplTraitId::TypeAliasImplTrait(type_alias, opaque_idx) => { - (db.type_alias_impl_traits(type_alias), opaque_idx) - } - }; - let item_bounds = opaques_table - .as_deref() - .unwrap() - .as_ref() - .map_bound(|table| &table.impl_traits[opaque_idx].predicates); + let item_bounds = opaque_id.predicates(interner.db); for predicate in item_bounds.iter_instantiated_copied(interner, args.as_slice()) { let predicate = replace_opaques_in(predicate); diff --git a/crates/hir-ty/src/next_solver/ty.rs b/crates/hir-ty/src/next_solver/ty.rs index b8406fecda31..58849ce9ca4c 100644 --- a/crates/hir-ty/src/next_solver/ty.rs +++ b/crates/hir-ty/src/next_solver/ty.rs @@ -25,8 +25,8 @@ use rustc_type_ir::{ }; use crate::{ - ImplTraitId, db::{HirDatabase, InternedCoroutine}, + lower::GenericPredicates, next_solver::{ AdtDef, AliasTy, Binder, CallableIdWrapper, Clause, ClauseKind, ClosureIdWrapper, Const, CoroutineIdWrapper, FnSig, GenericArg, PolyFnSig, Region, TraitRef, TypeAliasIdWrapper, @@ -41,6 +41,7 @@ use super::{ util::{FloatExt, IntegerExt}, }; +pub type SimplifiedType = rustc_type_ir::fast_reject::SimplifiedType; pub type TyKind<'db> = rustc_type_ir::TyKind>; pub type FnHeader<'db> = rustc_type_ir::FnHeader>; @@ -127,6 +128,22 @@ impl<'db> Ty<'db> { Ty::new_tup(interner, &[]) } + pub fn new_imm_ptr(interner: DbInterner<'db>, ty: Ty<'db>) -> Self { + Ty::new_ptr(interner, ty, Mutability::Not) + } + + pub fn new_imm_ref(interner: DbInterner<'db>, region: Region<'db>, ty: Ty<'db>) -> Self { + Ty::new_ref(interner, region, ty, Mutability::Not) + } + + pub fn new_opaque( + interner: DbInterner<'db>, + def_id: SolverDefId, + args: GenericArgs<'db>, + ) -> Self { + Ty::new_alias(interner, AliasTyKind::Opaque, AliasTy::new_from_args(interner, def_id, args)) + } + /// Returns the `Size` for primitive types (bool, uint, int, char, float). pub fn primitive_size(self, interner: DbInterner<'db>) -> Size { match self.kind() { @@ -326,11 +343,40 @@ impl<'db> Ty<'db> { matches!(self.kind(), TyKind::Never) } + #[inline] + pub fn is_bool(self) -> bool { + matches!(self.kind(), TyKind::Bool) + } + + /// A scalar type is one that denotes an atomic datum, with no sub-components. + /// (A RawPtr is scalar because it represents a non-managed pointer, so its + /// contents are abstract to rustc.) + #[inline] + pub fn is_scalar(self) -> bool { + matches!( + self.kind(), + TyKind::Bool + | TyKind::Char + | TyKind::Int(_) + | TyKind::Float(_) + | TyKind::Uint(_) + | TyKind::FnDef(..) + | TyKind::FnPtr(..) + | TyKind::RawPtr(_, _) + | TyKind::Infer(InferTy::IntVar(_) | InferTy::FloatVar(_)) + ) + } + #[inline] pub fn is_infer(self) -> bool { matches!(self.kind(), TyKind::Infer(..)) } + #[inline] + pub fn is_numeric(self) -> bool { + self.is_integral() || self.is_floating_point() + } + #[inline] pub fn is_str(self) -> bool { matches!(self.kind(), TyKind::Str) @@ -346,10 +392,27 @@ impl<'db> Ty<'db> { matches!(self.kind(), TyKind::RawPtr(..)) } + #[inline] + pub fn is_array(self) -> bool { + matches!(self.kind(), TyKind::Array(..)) + } + + #[inline] + pub fn is_slice(self) -> bool { + matches!(self.kind(), TyKind::Slice(..)) + } + pub fn is_union(self) -> bool { self.as_adt().is_some_and(|(adt, _)| matches!(adt, AdtId::UnionId(_))) } + pub fn boxed_ty(self) -> Option> { + match self.kind() { + TyKind::Adt(adt_def, args) if adt_def.is_box() => Some(args.type_at(0)), + _ => None, + } + } + #[inline] pub fn as_adt(self) -> Option<(AdtId, GenericArgs<'db>)> { match self.kind() { @@ -378,11 +441,9 @@ impl<'db> Ty<'db> { /// /// The parameter `explicit` indicates if this is an *explicit* dereference. /// Some types -- notably raw ptrs -- can only be dereferenced explicitly. - pub fn builtin_deref(self, db: &dyn HirDatabase, explicit: bool) -> Option> { + pub fn builtin_deref(self, explicit: bool) -> Option> { match self.kind() { - TyKind::Adt(adt, substs) if crate::lang_items::is_box(db, adt.def_id().0) => { - Some(substs.as_slice()[0].expect_ty()) - } + TyKind::Adt(adt, substs) if adt.is_box() => Some(substs.as_slice()[0].expect_ty()), TyKind::Ref(_, ty, _) => Some(ty), TyKind::RawPtr(ty, _) if explicit => Some(ty), _ => None, @@ -562,26 +623,14 @@ impl<'db> Ty<'db> { let interner = DbInterner::new_with(db, None, None); match self.kind() { - TyKind::Alias(AliasTyKind::Opaque, opaque_ty) => { - match db.lookup_intern_impl_trait_id(opaque_ty.def_id.expect_opaque_ty()) { - ImplTraitId::ReturnTypeImplTrait(func, idx) => { - db.return_type_impl_traits(func).map(|it| { - let data = - (*it).as_ref().map_bound(|rpit| &rpit.impl_traits[idx].predicates); - data.iter_instantiated_copied(interner, opaque_ty.args.as_slice()) - .collect() - }) - } - ImplTraitId::TypeAliasImplTrait(alias, idx) => { - db.type_alias_impl_traits(alias).map(|it| { - let data = - (*it).as_ref().map_bound(|rpit| &rpit.impl_traits[idx].predicates); - data.iter_instantiated_copied(interner, opaque_ty.args.as_slice()) - .collect() - }) - } - } - } + TyKind::Alias(AliasTyKind::Opaque, opaque_ty) => Some( + opaque_ty + .def_id + .expect_opaque_ty() + .predicates(db) + .iter_instantiated_copied(interner, opaque_ty.args.as_slice()) + .collect(), + ), TyKind::Param(param) => { // FIXME: We shouldn't use `param.id` here. let generic_params = db.generic_params(param.id.parent()); @@ -589,11 +638,8 @@ impl<'db> Ty<'db> { match param_data { TypeOrConstParamData::TypeParamData(p) => match p.provenance { TypeParamProvenance::ArgumentImplTrait => { - let predicates = db - .generic_predicates(param.id.parent()) - .instantiate_identity() - .into_iter() - .flatten() + let predicates = GenericPredicates::query_all(db, param.id.parent()) + .iter_identity_copied() .filter(|wc| match wc.kind().skip_binder() { ClauseKind::Trait(tr) => tr.self_ty() == self, ClauseKind::Projection(pred) => pred.self_ty() == self, diff --git a/crates/hir-ty/src/next_solver/util.rs b/crates/hir-ty/src/next_solver/util.rs index d113f76a327d..972c8e2da7b1 100644 --- a/crates/hir-ty/src/next_solver/util.rs +++ b/crates/hir-ty/src/next_solver/util.rs @@ -1,39 +1,30 @@ //! Various utilities for the next-trait-solver. -use std::{ - iter, - ops::{self, ControlFlow}, -}; +use std::ops::ControlFlow; -use base_db::Crate; -use hir_def::{BlockId, HasModule, lang_item::LangItem}; -use la_arena::Idx; +use hir_def::TraitId; use rustc_abi::{Float, HasDataLayout, Integer, IntegerType, Primitive, ReprOptions}; use rustc_type_ir::{ ConstKind, CoroutineArgs, DebruijnIndex, FloatTy, INNERMOST, IntTy, Interner, PredicatePolarity, RegionKind, TypeFoldable, TypeFolder, TypeSuperFoldable, TypeSuperVisitable, - TypeVisitableExt, TypeVisitor, UintTy, UniverseIndex, - inherent::{ - AdtDef, GenericArg as _, GenericArgs as _, IntoKind, ParamEnv as _, SliceLike, Ty as _, - }, + TypeVisitableExt, TypeVisitor, UintTy, UniverseIndex, elaborate, + inherent::{AdtDef, GenericArg as _, IntoKind, ParamEnv as _, SliceLike, Ty as _}, lang_items::SolverTraitLangItem, solve::SizedTraitKind, }; -use crate::{ - db::HirDatabase, - lower::{LifetimeElisionKind, TyLoweringContext}, - method_resolution::{TraitImpls, TyFingerprint}, - next_solver::{ - BoundConst, FxIndexMap, ParamEnv, Placeholder, PlaceholderConst, PlaceholderRegion, - infer::InferCtxt, +use crate::next_solver::{ + BoundConst, FxIndexMap, ParamEnv, Placeholder, PlaceholderConst, PlaceholderRegion, + PolyTraitRef, + infer::{ + InferCtxt, + traits::{Obligation, ObligationCause, PredicateObligation}, }, }; use super::{ - Binder, BoundRegion, BoundTy, Clause, ClauseKind, Clauses, Const, DbInterner, EarlyBinder, - GenericArgs, Predicate, PredicateKind, Region, SolverDefId, TraitPredicate, TraitRef, Ty, - TyKind, + Binder, BoundRegion, BoundTy, Clause, ClauseKind, Const, DbInterner, EarlyBinder, GenericArgs, + Predicate, PredicateKind, Region, SolverDefId, Ty, TyKind, fold::{BoundVarReplacer, FnMutDelegate}, }; @@ -388,54 +379,6 @@ where } } -pub(crate) fn for_trait_impls( - db: &dyn HirDatabase, - krate: Crate, - block: Option, - trait_id: hir_def::TraitId, - self_ty_fp: Option, - mut f: impl FnMut(&TraitImpls) -> ControlFlow<()>, -) -> ControlFlow<()> { - // Note: Since we're using `impls_for_trait` and `impl_provided_for`, - // only impls where the trait can be resolved should ever reach Chalk. - // `impl_datum` relies on that and will panic if the trait can't be resolved. - let in_self_and_deps = db.trait_impls_in_deps(krate); - let trait_module = trait_id.module(db); - let type_module = match self_ty_fp { - Some(TyFingerprint::Adt(adt_id)) => Some(adt_id.module(db)), - Some(TyFingerprint::ForeignType(type_id)) => Some(type_id.module(db)), - Some(TyFingerprint::Dyn(trait_id)) => Some(trait_id.module(db)), - _ => None, - }; - - let mut def_blocks = - [trait_module.containing_block(), type_module.and_then(|it| it.containing_block())]; - - let block_impls = iter::successors(block, |&block_id| { - cov_mark::hit!(block_local_impls); - block_id.loc(db).module.containing_block() - }) - .inspect(|&block_id| { - // make sure we don't search the same block twice - def_blocks.iter_mut().for_each(|block| { - if *block == Some(block_id) { - *block = None; - } - }); - }) - .filter_map(|block_id| db.trait_impls_in_block(block_id)); - for it in in_self_and_deps.iter().map(ops::Deref::deref) { - f(it)?; - } - for it in block_impls { - f(&it)?; - } - for it in def_blocks.into_iter().flatten().filter_map(|it| db.trait_impls_in_block(it)) { - f(&it)?; - } - ControlFlow::Continue(()) -} - // FIXME(next-trait-solver): uplift pub fn sizedness_constraint_for_ty<'db>( interner: DbInterner<'db>, @@ -507,79 +450,14 @@ pub fn apply_args_to_binder<'db, T: TypeFoldable>>( pub fn explicit_item_bounds<'db>( interner: DbInterner<'db>, def_id: SolverDefId, -) -> EarlyBinder<'db, Clauses<'db>> { +) -> EarlyBinder<'db, impl DoubleEndedIterator> + ExactSizeIterator> { let db = interner.db(); - match def_id { - SolverDefId::TypeAliasId(type_alias) => { - // Lower bounds -- we could/should maybe move this to a separate query in `lower` - let type_alias_data = db.type_alias_signature(type_alias); - let resolver = hir_def::resolver::HasResolver::resolver(type_alias, db); - let mut ctx = TyLoweringContext::new( - db, - &resolver, - &type_alias_data.store, - type_alias.into(), - LifetimeElisionKind::AnonymousReportError, - ); - - let item_args = GenericArgs::identity_for_item(interner, def_id); - let interner_ty = Ty::new_projection_from_args(interner, def_id, item_args); - - let mut bounds = Vec::new(); - for bound in &type_alias_data.bounds { - ctx.lower_type_bound(bound, interner_ty, false).for_each(|pred| { - bounds.push(pred); - }); - } - - if !ctx.unsized_types.contains(&interner_ty) { - let sized_trait = LangItem::Sized - .resolve_trait(ctx.db, interner.krate.expect("Must have interner.krate")); - let sized_bound = sized_trait.map(|trait_id| { - let trait_ref = TraitRef::new_from_args( - interner, - trait_id.into(), - GenericArgs::new_from_iter(interner, [interner_ty.into()]), - ); - Clause(Predicate::new( - interner, - Binder::dummy(rustc_type_ir::PredicateKind::Clause( - rustc_type_ir::ClauseKind::Trait(TraitPredicate { - trait_ref, - polarity: rustc_type_ir::PredicatePolarity::Positive, - }), - )), - )) - }); - bounds.extend(sized_bound); - bounds.shrink_to_fit(); - } - - rustc_type_ir::EarlyBinder::bind(Clauses::new_from_iter(interner, bounds)) - } - SolverDefId::InternedOpaqueTyId(id) => { - let full_id = db.lookup_intern_impl_trait_id(id); - match full_id { - crate::ImplTraitId::ReturnTypeImplTrait(func, idx) => { - let datas = db - .return_type_impl_traits(func) - .expect("impl trait id without impl traits"); - let datas = (*datas).as_ref().skip_binder(); - let data = &datas.impl_traits[Idx::from_raw(idx.into_raw())]; - EarlyBinder::bind(Clauses::new_from_iter(interner, data.predicates.clone())) - } - crate::ImplTraitId::TypeAliasImplTrait(alias, idx) => { - let datas = db - .type_alias_impl_traits(alias) - .expect("impl trait id without impl traits"); - let datas = (*datas).as_ref().skip_binder(); - let data = &datas.impl_traits[Idx::from_raw(idx.into_raw())]; - EarlyBinder::bind(Clauses::new_from_iter(interner, data.predicates.clone())) - } - } - } + let clauses = match def_id { + SolverDefId::TypeAliasId(type_alias) => crate::lower::type_alias_bounds(db, type_alias), + SolverDefId::InternedOpaqueTyId(id) => id.predicates(db), _ => panic!("Unexpected GenericDefId"), - } + }; + clauses.map_bound(|clauses| clauses.iter().copied()) } pub struct ContainsTypeErrors; @@ -792,3 +670,34 @@ pub fn sizedness_fast_path<'db>( false } + +/// Casts a trait reference into a reference to one of its super +/// traits; returns `None` if `target_trait_def_id` is not a +/// supertrait. +pub(crate) fn upcast_choices<'db>( + interner: DbInterner<'db>, + source_trait_ref: PolyTraitRef<'db>, + target_trait_def_id: TraitId, +) -> Vec> { + if source_trait_ref.def_id().0 == target_trait_def_id { + return vec![source_trait_ref]; // Shortcut the most common case. + } + + elaborate::supertraits(interner, source_trait_ref) + .filter(|r| r.def_id().0 == target_trait_def_id) + .collect() +} + +#[inline] +pub(crate) fn clauses_as_obligations<'db>( + clauses: impl IntoIterator>, + cause: ObligationCause, + param_env: ParamEnv<'db>, +) -> impl Iterator> { + clauses.into_iter().map(move |clause| Obligation { + cause: cause.clone(), + param_env, + predicate: clause.as_predicate(), + recursion_depth: 0, + }) +} diff --git a/crates/hir-ty/src/opaques.rs b/crates/hir-ty/src/opaques.rs index 8531f2437739..acf532c5e44a 100644 --- a/crates/hir-ty/src/opaques.rs +++ b/crates/hir-ty/src/opaques.rs @@ -7,7 +7,6 @@ use hir_expand::name::Name; use la_arena::ArenaMap; use rustc_type_ir::inherent::Ty as _; use syntax::ast; -use triomphe::Arc; use crate::{ ImplTraitId, @@ -29,7 +28,7 @@ pub(crate) fn opaque_types_defined_by( // A function may define its own RPITs. extend_with_opaques( db, - db.return_type_impl_traits(func), + ImplTraits::return_type_impl_traits(db, func), |opaque_idx| ImplTraitId::ReturnTypeImplTrait(func, opaque_idx), result, ); @@ -38,7 +37,7 @@ pub(crate) fn opaque_types_defined_by( let extend_with_taits = |type_alias| { extend_with_opaques( db, - db.type_alias_impl_traits(type_alias), + ImplTraits::type_alias_impl_traits(db, type_alias), |opaque_idx| ImplTraitId::TypeAliasImplTrait(type_alias, opaque_idx), result, ); @@ -75,12 +74,12 @@ pub(crate) fn opaque_types_defined_by( fn extend_with_opaques<'db>( db: &'db dyn HirDatabase, - opaques: Option>>>, + opaques: &Option>>>, mut make_impl_trait: impl FnMut(ImplTraitIdx<'db>) -> ImplTraitId<'db>, result: &mut Vec, ) { if let Some(opaques) = opaques { - for (opaque_idx, _) in (*opaques).as_ref().skip_binder().impl_traits.iter() { + for (opaque_idx, _) in (**opaques).as_ref().skip_binder().impl_traits.iter() { let opaque_id = InternedOpaqueTyId::new(db, make_impl_trait(opaque_idx)); result.push(opaque_id.into()); } @@ -109,6 +108,14 @@ pub(crate) fn tait_hidden_types<'db>( db: &'db dyn HirDatabase, type_alias: TypeAliasId, ) -> ArenaMap, EarlyBinder<'db, Ty<'db>>> { + // Call this first, to not perform redundant work if there are no TAITs. + let Some(taits_count) = ImplTraits::type_alias_impl_traits(db, type_alias) + .as_deref() + .map(|taits| taits.as_ref().skip_binder().impl_traits.len()) + else { + return ArenaMap::new(); + }; + let loc = type_alias.loc(db); let module = loc.module(db); let interner = DbInterner::new_with(db, Some(module.krate()), module.containing_block()); @@ -119,10 +126,6 @@ pub(crate) fn tait_hidden_types<'db>( let defining_bodies = tait_defining_bodies(db, &loc); - let taits_count = db - .type_alias_impl_traits(type_alias) - .map_or(0, |taits| (*taits).as_ref().skip_binder().impl_traits.len()); - let mut result = ArenaMap::with_capacity(taits_count); for defining_body in defining_bodies { let infer = db.infer(defining_body); diff --git a/crates/hir-ty/src/specialization.rs b/crates/hir-ty/src/specialization.rs index f4ee4de44639..304679d3729f 100644 --- a/crates/hir-ty/src/specialization.rs +++ b/crates/hir-ty/src/specialization.rs @@ -2,17 +2,17 @@ use hir_def::{ImplId, nameres::crate_def_map}; use intern::sym; +use rustc_type_ir::inherent::SliceLike; use tracing::debug; use crate::{ db::HirDatabase, + lower::GenericPredicates, next_solver::{ DbInterner, TypingMode, - infer::{ - DbInternerInferExt, - traits::{Obligation, ObligationCause}, - }, + infer::{DbInternerInferExt, traits::ObligationCause}, obligation_ctxt::ObligationCtxt, + util::clauses_as_obligations, }, }; @@ -102,14 +102,12 @@ fn specializes_query( // Now check that the source trait ref satisfies all the where clauses of the target impl. // This is not just for correctness; we also need this to constrain any params that may // only be referenced via projection predicates. - if let Some(predicates) = - db.generic_predicates(parent_impl_def_id.into()).instantiate(interner, parent_args) - { - ocx.register_obligations( - predicates - .map(|predicate| Obligation::new(interner, cause.clone(), param_env, predicate)), - ); - } + ocx.register_obligations(clauses_as_obligations( + GenericPredicates::query_all(db, parent_impl_def_id.into()) + .iter_instantiated_copied(interner, parent_args.as_slice()), + cause.clone(), + param_env, + )); let errors = ocx.evaluate_obligations_error_on_ambiguity(); if !errors.is_empty() { diff --git a/crates/hir-ty/src/tests/coercion.rs b/crates/hir-ty/src/tests/coercion.rs index 5a53db4b7ab1..75800a038b86 100644 --- a/crates/hir-ty/src/tests/coercion.rs +++ b/crates/hir-ty/src/tests/coercion.rs @@ -49,7 +49,7 @@ fn let_stmt_coerce() { //- minicore: coerce_unsized fn test() { let x: &[isize] = &[1]; - // ^^^^ adjustments: Deref(None), Borrow(Ref('?2, Not)), Pointer(Unsize) + // ^^^^ adjustments: Deref(None), Borrow(Ref(Not)), Pointer(Unsize) let x: *const [isize] = &[1]; // ^^^^ adjustments: Deref(None), Borrow(RawPtr(Not)), Pointer(Unsize) } @@ -96,7 +96,7 @@ fn foo(x: &[T]) -> &[T] { x } fn test() { let x = if true { foo(&[1]) - // ^^^^ adjustments: Deref(None), Borrow(Ref('?1, Not)), Pointer(Unsize) + // ^^^^ adjustments: Deref(None), Borrow(Ref(Not)), Pointer(Unsize) } else { &[1] }; @@ -148,7 +148,7 @@ fn foo(x: &[T]) -> &[T] { x } fn test(i: i32) { let x = match i { 2 => foo(&[2]), - // ^^^^ adjustments: Deref(None), Borrow(Ref('?1, Not)), Pointer(Unsize) + // ^^^^ adjustments: Deref(None), Borrow(Ref(Not)), Pointer(Unsize) 1 => &[1], _ => &[3], }; @@ -268,7 +268,7 @@ fn takes_ref_str(x: &str) {} fn returns_string() -> String { loop {} } fn test() { takes_ref_str(&{ returns_string() }); - // ^^^^^^^^^^^^^^^^^^^^^ adjustments: Deref(None), Deref(Some(OverloadedDeref(Some(Not)))), Borrow(Ref('{region error}, Not)) + // ^^^^^^^^^^^^^^^^^^^^^ adjustments: Deref(None), Deref(Some(OverloadedDeref(Some(Not)))), Borrow(Ref(Not)) } "#, ); @@ -854,8 +854,8 @@ impl core::cmp::PartialEq for Struct { } fn test() { Struct == Struct; - // ^^^^^^ adjustments: Borrow(Ref('{region error}, Not)) - // ^^^^^^ adjustments: Borrow(Ref('{region error}, Not)) + // ^^^^^^ adjustments: Borrow(Ref(Not)) + // ^^^^^^ adjustments: Borrow(Ref(Not)) }", ); } @@ -871,7 +871,7 @@ impl core::ops::AddAssign for Struct { } fn test() { Struct += Struct; - // ^^^^^^ adjustments: Borrow(Ref('{region error}, Mut)) + // ^^^^^^ adjustments: Borrow(Ref(Mut { allow_two_phase_borrow: Yes })) // ^^^^^^ adjustments: }", ); @@ -885,7 +885,7 @@ fn adjust_index() { fn test() { let x = [1, 2, 3]; x[2] = 6; - // ^ adjustments: Borrow(Ref('?0, Mut)) + // ^ adjustments: Borrow(Ref(Mut { allow_two_phase_borrow: No })) } ", ); @@ -910,11 +910,11 @@ impl core::ops::IndexMut for StructMut { } fn test() { Struct[0]; - // ^^^^^^ adjustments: Borrow(Ref('?0, Not)) + // ^^^^^^ adjustments: Borrow(Ref(Not)) StructMut[0]; - // ^^^^^^^^^ adjustments: Borrow(Ref('?1, Not)) + // ^^^^^^^^^ adjustments: Borrow(Ref(Not)) &mut StructMut[0]; - // ^^^^^^^^^ adjustments: Borrow(Ref('?2, Mut)) + // ^^^^^^^^^ adjustments: Borrow(Ref(Mut { allow_two_phase_borrow: No })) }", ); } diff --git a/crates/hir-ty/src/tests/incremental.rs b/crates/hir-ty/src/tests/incremental.rs index 14ec161c91c8..1b64bfddb814 100644 --- a/crates/hir-ty/src/tests/incremental.rs +++ b/crates/hir-ty/src/tests/incremental.rs @@ -4,7 +4,7 @@ use hir_def::{DefWithBodyId, ModuleDefId}; use salsa::EventKind; use test_fixture::WithFixture; -use crate::{db::HirDatabase, test_db::TestDB}; +use crate::{db::HirDatabase, method_resolution::TraitImpls, test_db::TestDB}; use super::visit_module; @@ -44,7 +44,7 @@ fn foo() -> i32 { "body_shim", "body_with_source_map_shim", "trait_environment_shim", - "return_type_impl_traits_shim", + "ImplTraits < 'db >::return_type_impl_traits_", "expr_scopes_shim", "lang_item", "crate_lang_items", @@ -131,7 +131,7 @@ fn baz() -> i32 { "body_shim", "body_with_source_map_shim", "trait_environment_shim", - "return_type_impl_traits_shim", + "ImplTraits < 'db >::return_type_impl_traits_", "expr_scopes_shim", "lang_item", "crate_lang_items", @@ -143,7 +143,7 @@ fn baz() -> i32 { "body_shim", "body_with_source_map_shim", "trait_environment_shim", - "return_type_impl_traits_shim", + "ImplTraits < 'db >::return_type_impl_traits_", "expr_scopes_shim", "infer_shim", "function_signature_shim", @@ -151,7 +151,7 @@ fn baz() -> i32 { "body_shim", "body_with_source_map_shim", "trait_environment_shim", - "return_type_impl_traits_shim", + "ImplTraits < 'db >::return_type_impl_traits_", "expr_scopes_shim", ] "#]], @@ -230,9 +230,9 @@ $0", || { let module = db.module_for_file(pos.file_id.file_id(&db)); let _crate_def_map = module.def_map(&db); - db.trait_impls_in_crate(module.krate()); + TraitImpls::for_crate(&db, module.krate()); }, - &[("trait_impls_in_crate_shim", 1)], + &[("TraitImpls::for_crate_", 1)], expect_test::expect![[r#" [ "source_root_crates_shim", @@ -241,7 +241,7 @@ $0", "ast_id_map_shim", "parse_shim", "real_span_map_shim", - "trait_impls_in_crate_shim", + "TraitImpls::for_crate_", ] "#]], ); @@ -267,9 +267,9 @@ pub struct NewStruct { || { let module = db.module_for_file(pos.file_id.file_id(&db)); let _crate_def_map = module.def_map(&db); - db.trait_impls_in_crate(module.krate()); + TraitImpls::for_crate(&db, module.krate()); }, - &[("trait_impls_in_crate_shim", 1)], + &[("TraitImpls::for_crate_", 1)], expect_test::expect![[r#" [ "parse_shim", @@ -277,7 +277,7 @@ pub struct NewStruct { "file_item_tree_query", "real_span_map_shim", "crate_local_def_map", - "trait_impls_in_crate_shim", + "TraitImpls::for_crate_", ] "#]], ); @@ -302,9 +302,9 @@ $0", || { let module = db.module_for_file(pos.file_id.file_id(&db)); let _crate_def_map = module.def_map(&db); - db.trait_impls_in_crate(module.krate()); + TraitImpls::for_crate(&db, module.krate()); }, - &[("trait_impls_in_crate_shim", 1)], + &[("TraitImpls::for_crate_", 1)], expect_test::expect![[r#" [ "source_root_crates_shim", @@ -313,7 +313,7 @@ $0", "ast_id_map_shim", "parse_shim", "real_span_map_shim", - "trait_impls_in_crate_shim", + "TraitImpls::for_crate_", ] "#]], ); @@ -340,9 +340,9 @@ pub enum SomeEnum { || { let module = db.module_for_file(pos.file_id.file_id(&db)); let _crate_def_map = module.def_map(&db); - db.trait_impls_in_crate(module.krate()); + TraitImpls::for_crate(&db, module.krate()); }, - &[("trait_impls_in_crate_shim", 1)], + &[("TraitImpls::for_crate_", 1)], expect_test::expect![[r#" [ "parse_shim", @@ -350,7 +350,7 @@ pub enum SomeEnum { "file_item_tree_query", "real_span_map_shim", "crate_local_def_map", - "trait_impls_in_crate_shim", + "TraitImpls::for_crate_", ] "#]], ); @@ -375,9 +375,9 @@ $0", || { let module = db.module_for_file(pos.file_id.file_id(&db)); let _crate_def_map = module.def_map(&db); - db.trait_impls_in_crate(module.krate()); + TraitImpls::for_crate(&db, module.krate()); }, - &[("trait_impls_in_crate_shim", 1)], + &[("TraitImpls::for_crate_", 1)], expect_test::expect![[r#" [ "source_root_crates_shim", @@ -386,7 +386,7 @@ $0", "ast_id_map_shim", "parse_shim", "real_span_map_shim", - "trait_impls_in_crate_shim", + "TraitImpls::for_crate_", ] "#]], ); @@ -410,9 +410,9 @@ fn bar() -> f32 { || { let module = db.module_for_file(pos.file_id.file_id(&db)); let _crate_def_map = module.def_map(&db); - db.trait_impls_in_crate(module.krate()); + TraitImpls::for_crate(&db, module.krate()); }, - &[("trait_impls_in_crate_shim", 1)], + &[("TraitImpls::for_crate_", 1)], expect_test::expect![[r#" [ "parse_shim", @@ -420,7 +420,7 @@ fn bar() -> f32 { "file_item_tree_query", "real_span_map_shim", "crate_local_def_map", - "trait_impls_in_crate_shim", + "TraitImpls::for_crate_", ] "#]], ); @@ -449,9 +449,9 @@ $0", || { let module = db.module_for_file(pos.file_id.file_id(&db)); let _crate_def_map = module.def_map(&db); - db.trait_impls_in_crate(module.krate()); + TraitImpls::for_crate(&db, module.krate()); }, - &[("trait_impls_in_crate_shim", 1)], + &[("TraitImpls::for_crate_", 1)], expect_test::expect![[r#" [ "source_root_crates_shim", @@ -460,7 +460,7 @@ $0", "ast_id_map_shim", "parse_shim", "real_span_map_shim", - "trait_impls_in_crate_shim", + "TraitImpls::for_crate_", ] "#]], ); @@ -492,9 +492,9 @@ impl SomeStruct { || { let module = db.module_for_file(pos.file_id.file_id(&db)); let _crate_def_map = module.def_map(&db); - db.trait_impls_in_crate(module.krate()); + TraitImpls::for_crate(&db, module.krate()); }, - &[("trait_impls_in_crate_shim", 1)], + &[("TraitImpls::for_crate_", 1)], expect_test::expect![[r#" [ "parse_shim", @@ -502,7 +502,7 @@ impl SomeStruct { "file_item_tree_query", "real_span_map_shim", "crate_local_def_map", - "trait_impls_in_crate_shim", + "TraitImpls::for_crate_", "attrs_shim", "impl_trait_with_diagnostics_shim", "impl_signature_shim", @@ -585,33 +585,32 @@ fn main() { "crate_lang_items", "attrs_shim", "attrs_shim", - "generic_predicates_shim", - "return_type_impl_traits_shim", + "GenericPredicates < 'db >::query_with_diagnostics_", + "ImplTraits < 'db >::return_type_impl_traits_", "infer_shim", "function_signature_shim", "function_signature_with_source_map_shim", "trait_environment_shim", - "return_type_impl_traits_shim", + "ImplTraits < 'db >::return_type_impl_traits_", "expr_scopes_shim", "struct_signature_shim", "struct_signature_with_source_map_shim", - "generic_predicates_shim", + "GenericPredicates < 'db >::query_with_diagnostics_", "value_ty_shim", "VariantFields::firewall_", "VariantFields::query_", "lang_item", - "lang_item", - "inherent_impls_in_crate_shim", + "InherentImpls::for_crate_", "impl_signature_shim", "impl_signature_with_source_map_shim", "callable_item_signature_shim", - "trait_impls_in_deps_shim", - "trait_impls_in_crate_shim", + "TraitImpls::for_crate_and_deps_", + "TraitImpls::for_crate_", "impl_trait_with_diagnostics_shim", "impl_self_ty_with_diagnostics_shim", - "generic_predicates_shim", - "value_ty_shim", - "generic_predicates_shim", + "GenericPredicates < 'db >::query_with_diagnostics_", + "GenericPredicates < 'db >::query_with_diagnostics_", + "lang_item", ] "#]], ); @@ -683,24 +682,24 @@ fn main() { "attrs_shim", "attrs_shim", "attrs_shim", - "generic_predicates_shim", - "return_type_impl_traits_shim", + "GenericPredicates < 'db >::query_with_diagnostics_", + "ImplTraits < 'db >::return_type_impl_traits_", "infer_shim", "function_signature_with_source_map_shim", - "return_type_impl_traits_shim", + "ImplTraits < 'db >::return_type_impl_traits_", "expr_scopes_shim", "struct_signature_with_source_map_shim", - "generic_predicates_shim", + "GenericPredicates < 'db >::query_with_diagnostics_", "VariantFields::query_", - "inherent_impls_in_crate_shim", + "InherentImpls::for_crate_", "impl_signature_with_source_map_shim", "impl_signature_shim", "callable_item_signature_shim", - "trait_impls_in_crate_shim", + "TraitImpls::for_crate_", "impl_trait_with_diagnostics_shim", "impl_self_ty_with_diagnostics_shim", - "generic_predicates_shim", - "generic_predicates_shim", + "GenericPredicates < 'db >::query_with_diagnostics_", + "GenericPredicates < 'db >::query_with_diagnostics_", ] "#]], ); diff --git a/crates/hir-ty/src/tests/method_resolution.rs b/crates/hir-ty/src/tests/method_resolution.rs index b0afd6040667..274d33a211f0 100644 --- a/crates/hir-ty/src/tests/method_resolution.rs +++ b/crates/hir-ty/src/tests/method_resolution.rs @@ -8,6 +8,7 @@ use super::{check_infer, check_no_mismatches, check_types}; fn infer_slice_method() { check_types( r#" +//- /core.rs crate:core impl [T] { #[rustc_allow_incoherent_impl] fn foo(&self) -> T { @@ -27,13 +28,13 @@ fn test(x: &[u8]) { fn cross_crate_primitive_method() { check_types( r#" -//- /main.rs crate:main deps:other_crate +//- /main.rs crate:main deps:core fn test() { let x = 1f32; x.foo(); } //^^^^^^^ f32 -//- /lib.rs crate:other_crate +//- /lib.rs crate:core mod foo { impl f32 { #[rustc_allow_incoherent_impl] @@ -48,6 +49,7 @@ mod foo { fn infer_array_inherent_impl() { check_types( r#" +//- /core.rs crate:core impl [T; N] { #[rustc_allow_incoherent_impl] fn foo(&self) -> T { @@ -981,7 +983,6 @@ fn main() { #[test] fn method_resolution_overloaded_const() { - cov_mark::check!(const_candidate_self_type_mismatch); check_types( r#" struct Wrapper(T); @@ -1376,7 +1377,6 @@ mod b { #[test] fn autoderef_visibility_method() { - cov_mark::check!(autoderef_candidate_not_visible); check( r#" //- minicore: receiver @@ -1415,7 +1415,6 @@ mod b { #[test] fn trait_vs_private_inherent_const() { - cov_mark::check!(const_candidate_not_visible); check( r#" mod a { @@ -1505,6 +1504,7 @@ fn f() { fn resolve_const_generic_array_methods() { check_types( r#" +//- /core.rs crate:core #[lang = "array"] impl [T; N] { #[rustc_allow_incoherent_impl] @@ -1536,6 +1536,7 @@ fn f() { fn resolve_const_generic_method() { check_types( r#" +//- /core.rs crate:core struct Const; #[lang = "array"] @@ -1714,8 +1715,8 @@ fn f() { 95..103 'u32::foo': fn foo() -> u8 109..115 'S::foo': fn foo() -> u8 121..127 'T::foo': fn foo() -> u8 - 133..139 'U::foo': {unknown} - 145..157 '<[u32]>::foo': {unknown} + 133..139 'U::foo': fn foo() -> u8 + 145..157 '<[u32]>::foo': fn foo<[u32]>() -> u8 "#]], ); } @@ -1869,6 +1870,7 @@ fn main() { "#, ); } + #[test] fn receiver_adjustment_autoref() { check( @@ -1879,9 +1881,9 @@ impl Foo { } fn test() { Foo.foo(); - //^^^ adjustments: Borrow(Ref('?0, Not)) + //^^^ adjustments: Borrow(Ref(Not)) (&Foo).foo(); - // ^^^^ adjustments: Deref(None), Borrow(Ref('?2, Not)) + // ^^^^ adjustments: Deref(None), Borrow(Ref(Not)) } "#, ); @@ -1895,7 +1897,7 @@ fn receiver_adjustment_unsize_array() { fn test() { let a = [1, 2, 3]; a.len(); -} //^ adjustments: Borrow(Ref('?0, Not)), Pointer(Unsize) +} //^ adjustments: Borrow(Ref(Not)), Pointer(Unsize) "#, ); } @@ -2036,6 +2038,7 @@ fn incoherent_impls() { check( r#" //- minicore: error, send +//- /std.rs crate:std pub struct Box(T); use core::error::Error; @@ -2108,7 +2111,7 @@ impl Foo { } fn test() { Box::new(Foo).foo(); - //^^^^^^^^^^^^^ adjustments: Deref(None), Borrow(Ref('?0, Not)) + //^^^^^^^^^^^^^ adjustments: Deref(None), Borrow(Ref(Not)) } "#, ); @@ -2126,7 +2129,7 @@ impl Foo { use core::mem::ManuallyDrop; fn test() { ManuallyDrop::new(Foo).foo(); - //^^^^^^^^^^^^^^^^^^^^^^ adjustments: Deref(Some(OverloadedDeref(Some(Not)))), Borrow(Ref('?0, Not)) + //^^^^^^^^^^^^^^^^^^^^^^ adjustments: Deref(Some(OverloadedDeref(Some(Not)))), Borrow(Ref(Not)) } "#, ); @@ -2176,6 +2179,8 @@ fn receiver_without_deref_impl() { check( r#" //- minicore: receiver +#![feature(arbitrary_self_types)] + use core::ops::Receiver; struct Foo; diff --git a/crates/hir-ty/src/tests/patterns.rs b/crates/hir-ty/src/tests/patterns.rs index 607daada42eb..aa1fff7642a5 100644 --- a/crates/hir-ty/src/tests/patterns.rs +++ b/crates/hir-ty/src/tests/patterns.rs @@ -6,7 +6,7 @@ use super::{check, check_infer, check_infer_with_mismatches, check_no_mismatches fn infer_pattern() { check_infer( r#" - //- minicore: iterator + //- minicore: iterator, add, builtin_impls fn test(x: &i32) { let y = x; let &z = x; diff --git a/crates/hir-ty/src/tests/regression.rs b/crates/hir-ty/src/tests/regression.rs index 75d32035d099..cbbca675a755 100644 --- a/crates/hir-ty/src/tests/regression.rs +++ b/crates/hir-ty/src/tests/regression.rs @@ -292,7 +292,7 @@ fn infer_std_crash_5() { 149..156 'content': &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? {unknown} 181..188 'content': &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? {unknown} 191..313 'if ICE... }': &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? {unknown} - 194..231 'ICE_RE..._VALUE': bool + 194..231 'ICE_RE..._VALUE': {unknown} 194..247 'ICE_RE...&name)': bool 241..246 '&name': &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? {unknown} 242..246 'name': &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? &'? {unknown} @@ -629,7 +629,7 @@ fn issue_4053_diesel_where_clauses() { 65..69 'self': Self 267..271 'self': Self 466..470 'self': SelectStatement - 488..522 '{ ... }': as BoxedDsl>::Output + 488..522 '{ ... }': {unknown} 498..502 'self': SelectStatement 498..508 'self.order': O 498..515 'self.o...into()': dyn QueryFragment + 'static @@ -725,7 +725,7 @@ fn issue_4885() { 138..146 'bar(key)': impl Future>::Bar> 142..145 'key': &'? K 162..165 'key': &'? K - 224..227 '{ }': impl Future>::Bar> + 224..227 '{ }': () "#]], ); } diff --git a/crates/hir-ty/src/tests/regression/new_solver.rs b/crates/hir-ty/src/tests/regression/new_solver.rs index 90c81d1e8f3e..933a9a5c3519 100644 --- a/crates/hir-ty/src/tests/regression/new_solver.rs +++ b/crates/hir-ty/src/tests/regression/new_solver.rs @@ -180,7 +180,7 @@ impl<'a> IntoIterator for &'a Grid { "#, expect![[r#" 150..154 'self': &'a Grid - 174..181 '{ }': <&'a Grid as IntoIterator>::IntoIter + 174..181 '{ }': () "#]], ); } @@ -414,7 +414,7 @@ fn foo() { 244..246 '_x': {unknown} 249..257 'to_bytes': fn to_bytes() -> [u8; _] 249..259 'to_bytes()': [u8; _] - 249..268 'to_byt..._vec()': Vec<<[u8; _] as Foo>::Item> + 249..268 'to_byt..._vec()': {unknown} "#]], ); } diff --git a/crates/hir-ty/src/tests/simple.rs b/crates/hir-ty/src/tests/simple.rs index c2392b36baba..478411f5a84f 100644 --- a/crates/hir-ty/src/tests/simple.rs +++ b/crates/hir-ty/src/tests/simple.rs @@ -645,10 +645,13 @@ impl E { fn infer_binary_op() { check_infer( r#" +//- minicore: add, builtin_impls fn f(x: bool) -> i32 { 0i32 } +const CONST_2: isize = 0; + fn test() -> bool { let x = a && b; let y = true || false; @@ -658,8 +661,9 @@ fn test() -> bool { let h = minus_forty <= CONST_2; let c = f(z || y) + 5; let d = b; - let g = minus_forty ^= i; + let g = minus_forty += i; let ten: usize = 10; + let some_num = 0usize; let ten_is_eleven = ten == some_num; ten < 3 @@ -669,53 +673,56 @@ fn test() -> bool { 5..6 'x': bool 21..33 '{ 0i32 }': i32 27..31 '0i32': i32 - 53..369 '{ ... < 3 }': bool - 63..64 'x': bool - 67..68 'a': bool - 67..73 'a && b': bool - 72..73 'b': bool - 83..84 'y': bool - 87..91 'true': bool - 87..100 'true || false': bool - 95..100 'false': bool - 110..111 'z': bool - 114..115 'x': bool - 114..120 'x == y': bool - 119..120 'y': bool - 130..131 't': bool - 134..135 'x': bool - 134..140 'x != y': bool - 139..140 'y': bool - 150..161 'minus_forty': isize - 171..179 '-40isize': isize - 172..179 '40isize': isize - 189..190 'h': bool - 193..204 'minus_forty': isize - 193..215 'minus_...ONST_2': bool - 208..215 'CONST_2': isize - 225..226 'c': i32 - 229..230 'f': fn f(bool) -> i32 - 229..238 'f(z || y)': i32 - 229..242 'f(z || y) + 5': i32 - 231..232 'z': bool - 231..237 'z || y': bool - 236..237 'y': bool - 241..242 '5': i32 - 252..253 'd': {unknown} - 256..257 'b': {unknown} - 267..268 'g': () - 271..282 'minus_forty': isize - 271..287 'minus_...y ^= i': () - 286..287 'i': isize - 297..300 'ten': usize - 310..312 '10': usize - 322..335 'ten_is_eleven': bool - 338..341 'ten': usize - 338..353 'ten == some_num': bool - 345..353 'some_num': usize - 360..363 'ten': usize - 360..367 'ten < 3': bool - 366..367 '3': usize + 58..59 '0': isize + 80..423 '{ ... < 3 }': bool + 90..91 'x': bool + 94..95 'a': bool + 94..100 'a && b': bool + 99..100 'b': bool + 110..111 'y': bool + 114..118 'true': bool + 114..127 'true || false': bool + 122..127 'false': bool + 137..138 'z': bool + 141..142 'x': bool + 141..147 'x == y': bool + 146..147 'y': bool + 157..158 't': bool + 161..162 'x': bool + 161..167 'x != y': bool + 166..167 'y': bool + 177..188 'minus_forty': isize + 198..206 '-40isize': isize + 199..206 '40isize': isize + 216..217 'h': bool + 220..231 'minus_forty': isize + 220..242 'minus_...ONST_2': bool + 235..242 'CONST_2': isize + 252..253 'c': i32 + 256..257 'f': fn f(bool) -> i32 + 256..265 'f(z || y)': i32 + 256..269 'f(z || y) + 5': i32 + 258..259 'z': bool + 258..264 'z || y': bool + 263..264 'y': bool + 268..269 '5': i32 + 279..280 'd': {unknown} + 283..284 'b': {unknown} + 294..295 'g': () + 298..309 'minus_forty': isize + 298..314 'minus_...y += i': () + 313..314 'i': isize + 324..327 'ten': usize + 337..339 '10': usize + 349..357 'some_num': usize + 360..366 '0usize': usize + 376..389 'ten_is_eleven': bool + 392..395 'ten': usize + 392..407 'ten == some_num': bool + 399..407 'some_num': usize + 414..417 'ten': usize + 414..421 'ten < 3': bool + 420..421 '3': usize "#]], ); } @@ -1071,6 +1078,7 @@ fn infer_inherent_method() { fn infer_inherent_method_str() { check_infer( r#" +//- /core.rs crate:core #![rustc_coherence_is_core] #[lang = "str"] impl str { @@ -2691,6 +2699,7 @@ fn inner_use_enum_rename() { fn box_into_vec() { check_infer( r#" +//- /core.rs crate:core #[lang = "sized"] pub trait Sized {} diff --git a/crates/hir-ty/src/tests/traits.rs b/crates/hir-ty/src/tests/traits.rs index c0e439310e98..87f488f7aafa 100644 --- a/crates/hir-ty/src/tests/traits.rs +++ b/crates/hir-ty/src/tests/traits.rs @@ -1,4 +1,3 @@ -use cov_mark::check; use expect_test::expect; use crate::tests::infer_with_mismatches; @@ -278,11 +277,11 @@ pub mod collections { fn infer_ops_neg() { check_types( r#" -//- /main.rs crate:main deps:std +//- minicore:unary_ops struct Bar; struct Foo; -impl std::ops::Neg for Bar { +impl core::ops::Neg for Bar { type Output = Foo; } @@ -291,15 +290,6 @@ fn test() { let b = -a; b; } //^ Foo - -//- /std.rs crate:std -#[prelude_import] use ops::*; -mod ops { - #[lang = "neg"] - pub trait Neg { - type Output; - } -} "#, ); } @@ -308,11 +298,11 @@ mod ops { fn infer_ops_not() { check_types( r#" -//- /main.rs crate:main deps:std +//- minicore:unary_ops struct Bar; struct Foo; -impl std::ops::Not for Bar { +impl core::ops::Not for Bar { type Output = Foo; } @@ -321,15 +311,6 @@ fn test() { let b = !a; b; } //^ Foo - -//- /std.rs crate:std -#[prelude_import] use ops::*; -mod ops { - #[lang = "not"] - pub trait Not { - type Output; - } -} "#, ); } @@ -1211,7 +1192,7 @@ fn test(x: impl Trait, y: &impl Trait) { expect![[r#" 29..33 'self': &'? Self 54..58 'self': &'? Self - 98..100 '{}': impl Trait + 98..100 '{}': () 110..111 'x': impl Trait 130..131 'y': &'? impl Trait 151..268 '{ ...2(); }': () @@ -2982,13 +2963,13 @@ fn test() { 140..146 'IsCopy': IsCopy 140..153 'IsCopy.test()': bool 159..166 'NotCopy': NotCopy - 159..173 'NotCopy.test()': {unknown} + 159..173 'NotCopy.test()': bool 179..195 '(IsCop...sCopy)': (IsCopy, IsCopy) 179..202 '(IsCop...test()': bool 180..186 'IsCopy': IsCopy 188..194 'IsCopy': IsCopy 208..225 '(IsCop...tCopy)': (IsCopy, NotCopy) - 208..232 '(IsCop...test()': {unknown} + 208..232 '(IsCop...test()': bool 209..215 'IsCopy': IsCopy 217..224 'NotCopy': NotCopy "#]], @@ -3081,7 +3062,7 @@ fn test() { 79..194 '{ ...ized }': () 85..88 '1u8': u8 85..95 '1u8.test()': bool - 101..116 '(*"foo").test()': {unknown} + 101..116 '(*"foo").test()': bool 102..108 '*"foo"': str 103..108 '"foo"': &'static str 135..145 '(1u8, 1u8)': (u8, u8) @@ -3089,7 +3070,7 @@ fn test() { 136..139 '1u8': u8 141..144 '1u8': u8 158..171 '(1u8, *"foo")': (u8, str) - 158..178 '(1u8, ...test()': {unknown} + 158..178 '(1u8, ...test()': bool 159..162 '1u8': u8 164..170 '*"foo"': str 165..170 '"foo"': &'static str @@ -3944,7 +3925,6 @@ fn test() { #[test] fn foreign_trait_with_local_trait_impl() { - check!(block_local_impls); check( r#" mod module { @@ -3955,15 +3935,16 @@ mod module { } fn f() { + struct Foo; use module::T; - impl T for usize { + impl T for Foo { const C: usize = 0; fn f(&self) {} } - 0usize.f(); - //^^^^^^^^^^ type: () - usize::C; - //^^^^^^^^type: usize + Foo.f(); + //^^^^^^^ type: () + Foo::C; + //^^^^^^ type: usize } "#, ); @@ -4023,7 +4004,7 @@ fn f() { 212..295 '{ ...ZED; }': () 218..239 'F::Exp..._SIZED': Yes 245..266 'F::Imp..._SIZED': Yes - 272..292 'F::Rel..._SIZED': {unknown} + 272..292 'F::Rel..._SIZED': Yes "#]], ); } @@ -4274,7 +4255,7 @@ fn f<'a>(v: &dyn Trait = &'a i32>) { 127..128 'v': &'? (dyn Trait = &'a i32> + 'static) 164..195 '{ ...f(); }': () 170..171 'v': &'? (dyn Trait = &'a i32> + 'static) - 170..184 'v.get::()': = &'a i32> + 'static as Trait>::Assoc + 170..184 'v.get::()': <{unknown} as Trait>::Assoc 170..192 'v.get:...eref()': {unknown} "#]], ); diff --git a/crates/hir-ty/src/traits.rs b/crates/hir-ty/src/traits.rs index 00c8eb774580..2055c3151c6f 100644 --- a/crates/hir-ty/src/traits.rs +++ b/crates/hir-ty/src/traits.rs @@ -4,13 +4,18 @@ use core::fmt; use std::hash::Hash; use base_db::Crate; -use hir_def::{BlockId, TraitId, lang_item::LangItem}; +use hir_def::{ + AdtId, AssocItemId, BlockId, HasModule, ImplId, Lookup, TraitId, + lang_item::LangItem, + nameres::DefMap, + signatures::{ConstFlags, EnumFlags, FnFlags, StructFlags, TraitFlags, TypeAliasFlags}, +}; use hir_expand::name::Name; use intern::sym; use rustc_next_trait_solver::solve::{HasChanged, SolverDelegateEvalExt}; use rustc_type_ir::{ TypingMode, - inherent::{IntoKind, Span as _}, + inherent::{AdtDef, BoundExistentialPredicates, IntoKind, Span as _}, solve::Certainty, }; use triomphe::Arc; @@ -263,3 +268,147 @@ fn implements_trait_unique_impl<'db>( let result = crate::traits::next_trait_solve_in_ctxt(&infcx, goal); matches!(result, Ok((_, Certainty::Yes))) } + +pub fn is_inherent_impl_coherent(db: &dyn HirDatabase, def_map: &DefMap, impl_id: ImplId) -> bool { + let self_ty = db.impl_self_ty(impl_id).instantiate_identity(); + let self_ty = self_ty.kind(); + let impl_allowed = match self_ty { + TyKind::Tuple(_) + | TyKind::FnDef(_, _) + | TyKind::Array(_, _) + | TyKind::Never + | TyKind::RawPtr(_, _) + | TyKind::Ref(_, _, _) + | TyKind::Slice(_) + | TyKind::Str + | TyKind::Bool + | TyKind::Char + | TyKind::Int(_) + | TyKind::Uint(_) + | TyKind::Float(_) => def_map.is_rustc_coherence_is_core(), + + TyKind::Adt(adt_def, _) => adt_def.def_id().0.module(db).krate() == def_map.krate(), + TyKind::Dynamic(it, _) => it + .principal_def_id() + .is_some_and(|trait_id| trait_id.0.module(db).krate() == def_map.krate()), + + _ => true, + }; + impl_allowed || { + let rustc_has_incoherent_inherent_impls = match self_ty { + TyKind::Tuple(_) + | TyKind::FnDef(_, _) + | TyKind::Array(_, _) + | TyKind::Never + | TyKind::RawPtr(_, _) + | TyKind::Ref(_, _, _) + | TyKind::Slice(_) + | TyKind::Str + | TyKind::Bool + | TyKind::Char + | TyKind::Int(_) + | TyKind::Uint(_) + | TyKind::Float(_) => true, + + TyKind::Adt(adt_def, _) => match adt_def.def_id().0 { + hir_def::AdtId::StructId(id) => db + .struct_signature(id) + .flags + .contains(StructFlags::RUSTC_HAS_INCOHERENT_INHERENT_IMPLS), + hir_def::AdtId::UnionId(id) => db + .union_signature(id) + .flags + .contains(StructFlags::RUSTC_HAS_INCOHERENT_INHERENT_IMPLS), + hir_def::AdtId::EnumId(it) => db + .enum_signature(it) + .flags + .contains(EnumFlags::RUSTC_HAS_INCOHERENT_INHERENT_IMPLS), + }, + TyKind::Dynamic(it, _) => it.principal_def_id().is_some_and(|trait_id| { + db.trait_signature(trait_id.0) + .flags + .contains(TraitFlags::RUSTC_HAS_INCOHERENT_INHERENT_IMPLS) + }), + + _ => false, + }; + let items = impl_id.impl_items(db); + rustc_has_incoherent_inherent_impls + && !items.items.is_empty() + && items.items.iter().all(|&(_, assoc)| match assoc { + AssocItemId::FunctionId(it) => { + db.function_signature(it).flags.contains(FnFlags::RUSTC_ALLOW_INCOHERENT_IMPL) + } + AssocItemId::ConstId(it) => { + db.const_signature(it).flags.contains(ConstFlags::RUSTC_ALLOW_INCOHERENT_IMPL) + } + AssocItemId::TypeAliasId(it) => db + .type_alias_signature(it) + .flags + .contains(TypeAliasFlags::RUSTC_ALLOW_INCOHERENT_IMPL), + }) + } +} + +/// Checks whether the impl satisfies the orphan rules. +/// +/// Given `impl Trait for T0`, an `impl`` is valid only if at least one of the following is true: +/// - Trait is a local trait +/// - All of +/// - At least one of the types `T0..=Tn`` must be a local type. Let `Ti`` be the first such type. +/// - No uncovered type parameters `P1..=Pn` may appear in `T0..Ti`` (excluding `Ti`) +pub fn check_orphan_rules<'db>(db: &'db dyn HirDatabase, impl_: ImplId) -> bool { + let Some(impl_trait) = db.impl_trait(impl_) else { + // not a trait impl + return true; + }; + + let local_crate = impl_.lookup(db).container.krate(); + let is_local = |tgt_crate| tgt_crate == local_crate; + + let trait_ref = impl_trait.instantiate_identity(); + let trait_id = trait_ref.def_id.0; + if is_local(trait_id.module(db).krate()) { + // trait to be implemented is local + return true; + } + + let unwrap_fundamental = |mut ty: Ty<'db>| { + // Unwrap all layers of fundamental types with a loop. + loop { + match ty.kind() { + TyKind::Ref(_, referenced, _) => ty = referenced, + TyKind::Adt(adt_def, subs) => { + let AdtId::StructId(s) = adt_def.def_id().0 else { + break ty; + }; + let struct_signature = db.struct_signature(s); + if struct_signature.flags.contains(StructFlags::FUNDAMENTAL) { + let next = subs.types().next(); + match next { + Some(it) => ty = it, + None => break ty, + } + } else { + break ty; + } + } + _ => break ty, + } + } + }; + // - At least one of the types `T0..=Tn`` must be a local type. Let `Ti`` be the first such type. + + // FIXME: param coverage + // - No uncovered type parameters `P1..=Pn` may appear in `T0..Ti`` (excluding `Ti`) + let is_not_orphan = trait_ref.args.types().any(|ty| match unwrap_fundamental(ty).kind() { + TyKind::Adt(adt_def, _) => is_local(adt_def.def_id().0.module(db).krate()), + TyKind::Error(_) => true, + TyKind::Dynamic(it, _) => { + it.principal_def_id().is_some_and(|trait_id| is_local(trait_id.0.module(db).krate())) + } + _ => false, + }); + #[allow(clippy::let_and_return)] + is_not_orphan +} diff --git a/crates/hir/src/attrs.rs b/crates/hir/src/attrs.rs index 147f1b8653be..cfc408038d8a 100644 --- a/crates/hir/src/attrs.rs +++ b/crates/hir/src/attrs.rs @@ -1,7 +1,5 @@ //! Attributes & documentation for hir types. -use std::ops::ControlFlow; - use hir_def::{ AssocItemId, AttrDefId, ModuleDefId, attr::AttrsWithOwner, @@ -14,7 +12,13 @@ use hir_expand::{ mod_path::{ModPath, PathKind}, name::Name, }; -use hir_ty::{db::HirDatabase, method_resolution}; +use hir_ty::{ + db::HirDatabase, + method_resolution::{ + self, CandidateId, MethodError, MethodResolutionContext, MethodResolutionUnstableFeatures, + }, + next_solver::{DbInterner, TypingMode, infer::DbInternerInferExt}, +}; use crate::{ Adt, AsAssocItem, AssocItem, BuiltinType, Const, ConstParam, DocLinkDef, Enum, ExternCrateDecl, @@ -242,7 +246,7 @@ fn resolve_assoc_item<'db>( name: &Name, ns: Option, ) -> Option { - ty.iterate_assoc_items(db, ty.krate(db), move |assoc_item| { + ty.iterate_assoc_items(db, move |assoc_item| { if assoc_item.name(db)? != *name { return None; } @@ -257,37 +261,39 @@ fn resolve_impl_trait_item<'db>( name: &Name, ns: Option, ) -> Option { - let canonical = ty.canonical(db); let krate = ty.krate(db); let environment = resolver .generic_def() .map_or_else(|| crate::TraitEnvironment::empty(krate.id), |d| db.trait_environment(d)); let traits_in_scope = resolver.traits_in_scope(db); - let mut result = None; - // `ty.iterate_path_candidates()` require a scope, which is not available when resolving // attributes here. Use path resolution directly instead. // // FIXME: resolve type aliases (which are not yielded by iterate_path_candidates) - _ = method_resolution::iterate_path_candidates( - &canonical, - db, - environment, - &traits_in_scope, - method_resolution::VisibleFromModule::None, - Some(name), - &mut |_, assoc_item_id: AssocItemId, _| { - // If two traits in scope define the same item, Rustdoc links to no specific trait (for - // instance, given two methods `a`, Rustdoc simply links to `method.a` with no - // disambiguation) so we just pick the first one we find as well. - result = as_module_def_if_namespace_matches(assoc_item_id.into(), ns); - - if result.is_some() { ControlFlow::Break(()) } else { ControlFlow::Continue(()) } - }, - ); - - result + let interner = DbInterner::new_with(db, Some(environment.krate), environment.block); + let infcx = interner.infer_ctxt().build(TypingMode::PostAnalysis); + let unstable_features = + MethodResolutionUnstableFeatures::from_def_map(resolver.top_level_def_map()); + let ctx = MethodResolutionContext { + infcx: &infcx, + resolver: &resolver, + env: &environment, + traits_in_scope: &traits_in_scope, + edition: krate.edition(db), + unstable_features: &unstable_features, + }; + let resolution = ctx.probe_for_name(method_resolution::Mode::Path, name.clone(), ty.ty); + let resolution = match resolution { + Ok(resolution) => resolution.item, + Err(MethodError::PrivateMatch(resolution)) => resolution.item, + _ => return None, + }; + let resolution = match resolution { + CandidateId::FunctionId(id) => AssocItem::Function(id.into()), + CandidateId::ConstId(id) => AssocItem::Const(id.into()), + }; + as_module_def_if_namespace_matches(resolution, ns) } fn resolve_field( diff --git a/crates/hir/src/display.rs b/crates/hir/src/display.rs index d61c2eca8347..c215438aada4 100644 --- a/crates/hir/src/display.rs +++ b/crates/hir/src/display.rs @@ -11,6 +11,7 @@ use hir_def::{ type_ref::{TypeBound, TypeRef, TypeRefId}, }; use hir_ty::{ + GenericPredicates, db::HirDatabase, display::{ HirDisplay, HirDisplayError, HirDisplayWithExpressionStore, HirFormatter, SizedByDefault, @@ -484,11 +485,9 @@ impl<'db> HirDisplay<'db> for TypeParam { let param_data = ¶ms[self.id.local_id()]; let krate = self.id.parent().krate(f.db).id; let ty = self.ty(f.db).ty; - let predicates = f.db.generic_predicates(self.id.parent()); + let predicates = GenericPredicates::query_all(f.db, self.id.parent()); let predicates = predicates - .instantiate_identity() - .into_iter() - .flatten() + .iter_identity_copied() .filter(|wc| match wc.kind().skip_binder() { ClauseKind::Trait(tr) => tr.self_ty() == ty, ClauseKind::Projection(proj) => proj.self_ty() == ty, diff --git a/crates/hir/src/lib.rs b/crates/hir/src/lib.rs index f2faf99fc9e8..99322c14fd3b 100644 --- a/crates/hir/src/lib.rs +++ b/crates/hir/src/lib.rs @@ -72,26 +72,28 @@ use hir_expand::{ proc_macro::ProcMacroKind, }; use hir_ty::{ - TraitEnvironment, TyDefId, TyLoweringDiagnostic, ValueTyDefId, all_super_traits, autoderef, - check_orphan_rules, + GenericPredicates, TraitEnvironment, TyDefId, TyLoweringDiagnostic, ValueTyDefId, + all_super_traits, autoderef, check_orphan_rules, consteval::try_const_usize, db::{InternedClosureId, InternedCoroutineId}, diagnostics::BodyValidationDiagnostic, direct_super_traits, known_const_to_ast, layout::{Layout as TyLayout, RustcEnumVariantIdx, RustcFieldIdx, TagEncoding}, - method_resolution, + method_resolution::{ + self, InherentImpls, MethodResolutionContext, MethodResolutionUnstableFeatures, + }, mir::{MutBorrowKind, interpret_mir}, next_solver::{ - AliasTy, Canonical, ClauseKind, ConstKind, DbInterner, ErrorGuaranteed, GenericArg, - GenericArgs, PolyFnSig, Region, SolverDefId, Ty, TyKind, TypingMode, + AliasTy, ClauseKind, ConstKind, DbInterner, ErrorGuaranteed, GenericArg, GenericArgs, + PolyFnSig, Region, SolverDefId, Ty, TyKind, TypingMode, infer::{DbInternerInferExt, InferCtxt}, }, - traits::{self, FnTrait, structurally_normalize_ty}, + traits::{self, FnTrait, is_inherent_impl_coherent, structurally_normalize_ty}, }; use itertools::Itertools; use rustc_hash::FxHashSet; use rustc_type_ir::{ - AliasTyKind, TypeSuperVisitable, TypeVisitable, TypeVisitor, + AliasTyKind, TypeSuperVisitable, TypeVisitable, TypeVisitor, fast_reject, inherent::{AdtDef, GenericArgs as _, IntoKind, SliceLike, Term as _, Ty as _}, }; use smallvec::SmallVec; @@ -168,11 +170,12 @@ pub use { drop::DropGlue, dyn_compatibility::{DynCompatibilityViolation, MethodViolationCode}, layout::LayoutError, - method_resolution::TyFingerprint, mir::{MirEvalError, MirLowerError}, next_solver::abi::Safety, next_solver::clear_tls_solver_cache, }, + // FIXME: These are needed for import assets, properly encapsulate them. + hir_ty::{method_resolution::TraitImpls, next_solver::SimplifiedType}, intern::{Symbol, sym}, }; @@ -751,8 +754,6 @@ impl Module { } self.legacy_macros(db).into_iter().for_each(|m| emit_macro_def_diagnostics(db, acc, m)); - let inherent_impls = db.inherent_impls_in_crate(self.id.krate()); - let interner = DbInterner::new_with(db, Some(self.id.krate()), self.id.containing_block()); let infcx = interner.infer_ctxt().build(TypingMode::non_body_analysis()); @@ -781,7 +782,9 @@ impl Module { emit_def_diagnostic(db, acc, diag, edition); } - if inherent_impls.invalid_impls().contains(&impl_def.id) { + if impl_signature.target_trait.is_none() + && !is_inherent_impl_coherent(db, def_map, impl_def.id) + { acc.push(IncoherentImpl { impl_: ast_id_map.get(loc.id.value), file_id }.into()) } @@ -3347,6 +3350,15 @@ pub enum AssocItem { TypeAlias(TypeAlias), } +impl From for AssocItem { + fn from(value: method_resolution::CandidateId) -> Self { + match value { + method_resolution::CandidateId::FunctionId(id) => AssocItem::Function(Function { id }), + method_resolution::CandidateId::ConstId(id) => AssocItem::Const(Const { id }), + } + } +} + #[derive(Debug, Clone)] pub enum AssocItemContainer { Trait(Trait), @@ -3698,7 +3710,7 @@ impl GenericDef { push_ty_diagnostics( db, acc, - db.generic_predicates_without_parent_with_diagnostics(def).1, + GenericPredicates::query_with_diagnostics(db, def).1.clone(), &source_map, ); for (param_id, param) in generics.iter_type_or_consts() { @@ -4193,10 +4205,13 @@ impl TypeParam { /// parameter, not additional bounds that might be added e.g. by a method if /// the parameter comes from an impl! pub fn trait_bounds(self, db: &dyn HirDatabase) -> Vec { - db.generic_predicates_for_param(self.id.parent(), self.id.into(), None) - .iter() + let self_ty = self.ty(db).ty; + GenericPredicates::query_explicit(db, self.id.parent()) + .iter_identity_copied() .filter_map(|pred| match &pred.kind().skip_binder() { - ClauseKind::Trait(trait_ref) => Some(Trait::from(trait_ref.def_id().0)), + ClauseKind::Trait(trait_ref) if trait_ref.self_ty() == self_ty => { + Some(Trait::from(trait_ref.def_id().0)) + } _ => None, }) .collect() @@ -4358,90 +4373,81 @@ pub struct Impl { impl Impl { pub fn all_in_crate(db: &dyn HirDatabase, krate: Crate) -> Vec { - let inherent = db.inherent_impls_in_crate(krate.id); - let trait_ = db.trait_impls_in_crate(krate.id); + let mut result = Vec::new(); + extend_with_def_map(db, crate_def_map(db, krate.id), &mut result); + return result; + + fn extend_with_def_map(db: &dyn HirDatabase, def_map: &DefMap, result: &mut Vec) { + for (_, module) in def_map.modules() { + result.extend(module.scope.impls().map(Impl::from)); - inherent.all_impls().chain(trait_.all_impls()).map(Self::from).collect() + for unnamed_const in module.scope.unnamed_consts() { + for (_, block_def_map) in db.body(unnamed_const.into()).blocks(db) { + extend_with_def_map(db, block_def_map, result); + } + } + } + } } pub fn all_in_module(db: &dyn HirDatabase, module: Module) -> Vec { module.id.def_map(db)[module.id.local_id].scope.impls().map(Into::into).collect() } + /// **Note:** This is an **approximation** that strives to give the *human-perceived notion* of an "impl for type", + /// **not** answer the technical question "what are all impls applying to this type". In particular, it excludes + /// blanket impls, and only does a shallow type constructor check. In fact, this should've probably been on `Adt` + /// etc., and not on `Type`. If you would want to create a precise list of all impls applying to a type, + /// you would need to include blanket impls, and try to prove to predicates for each candidate. pub fn all_for_type<'db>(db: &'db dyn HirDatabase, Type { ty, env }: Type<'db>) -> Vec { - let def_crates = match method_resolution::def_crates(db, ty, env.krate) { - Some(def_crates) => def_crates, - None => return Vec::new(), - }; - - let filter = |impl_def: &Impl| { - let self_ty = impl_def.self_ty(db); - let rref = self_ty.remove_ref(); - ty.equals_ctor(rref.as_ref().map_or(self_ty.ty, |it| it.ty)) - }; - - let fp = TyFingerprint::for_inherent_impl(ty); - let fp = match fp { - Some(fp) => fp, - None => return Vec::new(), + let mut result = Vec::new(); + let interner = DbInterner::new_with(db, Some(env.krate), env.block); + let Some(simplified_ty) = + fast_reject::simplify_type(interner, ty, fast_reject::TreatParams::AsRigid) + else { + return Vec::new(); }; - - let mut all = Vec::new(); - def_crates.iter().for_each(|&id| { - all.extend( - db.inherent_impls_in_crate(id) - .for_self_ty(ty) - .iter() - .cloned() - .map(Self::from) - .filter(filter), - ) - }); - - for id in def_crates - .iter() - .flat_map(|&id| Crate { id }.transitive_reverse_dependencies(db)) - .map(|Crate { id }| id) - { - all.extend( - db.trait_impls_in_crate(id) - .for_self_ty_without_blanket_impls(fp) - .map(Self::from) - .filter(filter), + let mut extend_with_impls = + |impls: &[ImplId]| result.extend(impls.iter().copied().map(Impl::from)); + extend_with_impls(method_resolution::incoherent_inherent_impls(db, simplified_ty)); + if let Some(module) = method_resolution::simplified_type_module(db, &simplified_ty) { + InherentImpls::for_each_crate_and_block( + db, + module.krate(), + module.containing_block(), + &mut |impls| extend_with_impls(impls.for_self_ty(&simplified_ty)), ); - } - - if let Some(block) = ty.as_adt().and_then(|(def, _)| def.module(db).containing_block()) { - if let Some(inherent_impls) = db.inherent_impls_in_block(block) { - all.extend( - inherent_impls.for_self_ty(ty).iter().cloned().map(Self::from).filter(filter), - ); + std::iter::successors(module.containing_block(), |block| { + block.loc(db).module.containing_block() + }) + .filter_map(|block| TraitImpls::for_block(db, block).as_deref()) + .for_each(|impls| impls.for_self_ty(&simplified_ty, &mut extend_with_impls)); + for &krate in &**db.all_crates() { + TraitImpls::for_crate(db, krate) + .for_self_ty(&simplified_ty, &mut extend_with_impls); } - if let Some(trait_impls) = db.trait_impls_in_block(block) { - all.extend( - trait_impls - .for_self_ty_without_blanket_impls(fp) - .map(Self::from) - .filter(filter), - ); + } else { + for &krate in &**db.all_crates() { + TraitImpls::for_crate(db, krate) + .for_self_ty(&simplified_ty, &mut extend_with_impls); } } - - all + result } pub fn all_for_trait(db: &dyn HirDatabase, trait_: Trait) -> Vec { - let module = trait_.module(db); - let krate = module.krate(); + let module = trait_.module(db).id; let mut all = Vec::new(); - for Crate { id } in krate.transitive_reverse_dependencies(db) { - let impls = db.trait_impls_in_crate(id); - all.extend(impls.for_trait(trait_.id).map(Self::from)) + let mut handle_impls = |impls: &TraitImpls| { + impls.for_trait(trait_.id, |impls| all.extend(impls.iter().copied().map(Impl::from))); + }; + for krate in db.transitive_rev_deps(module.krate()) { + handle_impls(TraitImpls::for_crate(db, krate)); } - if let Some(block) = module.id.containing_block() - && let Some(trait_impls) = db.trait_impls_in_block(block) + if let Some(block) = module.containing_block() + && let Some(impls) = TraitImpls::for_block(db, block) { - all.extend(trait_impls.for_trait(trait_.id).map(Self::from)); + handle_impls(impls); } all } @@ -5262,13 +5268,12 @@ impl<'db> Type<'db> { } } - pub fn fingerprint_for_trait_impl(&self) -> Option { - TyFingerprint::for_trait_impl(self.ty) - } - - pub(crate) fn canonical(&self, db: &'db dyn HirDatabase) -> Canonical<'db, Ty<'db>> { - let interner = DbInterner::new_with(db, None, None); - hir_ty::replace_errors_with_variables(interner, &self.ty) + pub fn fingerprint_for_trait_impl(&self) -> Option { + fast_reject::simplify_type( + DbInterner::conjure(), + self.ty, + fast_reject::TreatParams::AsRigid, + ) } /// Returns types that this type dereferences to (including this type itself). The returned @@ -5292,11 +5297,10 @@ impl<'db> Type<'db> { pub fn iterate_assoc_items( &self, db: &'db dyn HirDatabase, - krate: Crate, mut callback: impl FnMut(AssocItem) -> Option, ) -> Option { let mut slot = None; - self.iterate_assoc_items_dyn(db, krate, &mut |assoc_item_id| { + self.iterate_assoc_items_dyn(db, &mut |assoc_item_id| { slot = callback(assoc_item_id.into()); slot.is_some() }); @@ -5306,24 +5310,36 @@ impl<'db> Type<'db> { fn iterate_assoc_items_dyn( &self, db: &'db dyn HirDatabase, - krate: Crate, callback: &mut dyn FnMut(AssocItemId) -> bool, ) { - let ty_ns = self.ty; - let def_crates = match method_resolution::def_crates(db, ty_ns, krate.id) { - Some(it) => it, - None => return, - }; - for krate in def_crates { - let impls = db.inherent_impls_in_crate(krate); - - for impl_def in impls.for_self_ty(ty_ns) { + let mut handle_impls = |impls: &[ImplId]| { + for &impl_def in impls { for &(_, item) in impl_def.impl_items(db).items.iter() { if callback(item) { return; } } } + }; + + let interner = DbInterner::new_with(db, None, None); + let Some(simplified_type) = + fast_reject::simplify_type(interner, self.ty, fast_reject::TreatParams::AsRigid) + else { + return; + }; + + handle_impls(method_resolution::incoherent_inherent_impls(db, simplified_type)); + + if let Some(module) = method_resolution::simplified_type_module(db, &simplified_type) { + InherentImpls::for_each_crate_and_block( + db, + module.krate(), + module.containing_block(), + &mut |impls| { + handle_impls(impls.for_self_ty(&simplified_type)); + }, + ); } } @@ -5414,26 +5430,20 @@ impl<'db> Type<'db> { db: &'db dyn HirDatabase, scope: &SemanticsScope<'_>, traits_in_scope: &FxHashSet, - with_local_impls: Option, name: Option<&Name>, mut callback: impl FnMut(Function) -> Option, ) -> Option { let _p = tracing::info_span!("iterate_method_candidates_with_traits").entered(); let mut slot = None; - self.iterate_method_candidates_split_inherent( - db, - scope, - traits_in_scope, - with_local_impls, - name, - |f| match callback(f) { + self.iterate_method_candidates_split_inherent(db, scope, traits_in_scope, name, |f| { + match callback(f) { it @ Some(_) => { slot = it; ControlFlow::Break(()) } None => ControlFlow::Continue(()), - }, - ); + } + }); slot } @@ -5441,7 +5451,6 @@ impl<'db> Type<'db> { &self, db: &'db dyn HirDatabase, scope: &SemanticsScope<'_>, - with_local_impls: Option, name: Option<&Name>, callback: impl FnMut(Function) -> Option, ) -> Option { @@ -5449,12 +5458,37 @@ impl<'db> Type<'db> { db, scope, &scope.visible_traits().0, - with_local_impls, name, callback, ) } + fn with_method_resolution( + &self, + db: &'db dyn HirDatabase, + resolver: &Resolver<'db>, + traits_in_scope: &FxHashSet, + f: impl FnOnce(&MethodResolutionContext<'_, 'db>) -> R, + ) -> R { + let module = resolver.module(); + let interner = DbInterner::new_with(db, Some(module.krate()), module.containing_block()); + let infcx = interner.infer_ctxt().build(TypingMode::PostAnalysis); + let unstable_features = + MethodResolutionUnstableFeatures::from_def_map(resolver.top_level_def_map()); + let environment = resolver + .generic_def() + .map_or_else(|| TraitEnvironment::empty(module.krate()), |d| db.trait_environment(d)); + let ctx = MethodResolutionContext { + infcx: &infcx, + resolver, + env: &environment, + traits_in_scope, + edition: resolver.krate().data(db).edition, + unstable_features: &unstable_features, + }; + f(&ctx) + } + /// Allows you to treat inherent and non-inherent methods differently. /// /// Note that inherent methods may actually be trait methods! For example, in `dyn Trait`, the trait's methods @@ -5464,67 +5498,77 @@ impl<'db> Type<'db> { db: &'db dyn HirDatabase, scope: &SemanticsScope<'_>, traits_in_scope: &FxHashSet, - with_local_impls: Option, name: Option<&Name>, - callback: impl MethodCandidateCallback, + mut callback: impl MethodCandidateCallback, ) { - struct Callback(T); - - impl method_resolution::MethodCandidateCallback for Callback { - fn on_inherent_method( - &mut self, - _adjustments: method_resolution::ReceiverAdjustments, - item: AssocItemId, - _is_visible: bool, - ) -> ControlFlow<()> { - if let AssocItemId::FunctionId(func) = item { - self.0.on_inherent_method(func.into()) - } else { - ControlFlow::Continue(()) - } - } - - fn on_trait_method( - &mut self, - _adjustments: method_resolution::ReceiverAdjustments, - item: AssocItemId, - _is_visible: bool, - ) -> ControlFlow<()> { - if let AssocItemId::FunctionId(func) = item { - self.0.on_trait_method(func.into()) - } else { - ControlFlow::Continue(()) - } - } - } - let _p = tracing::info_span!( - "iterate_method_candidates_dyn", - with_local_impls = traits_in_scope.len(), + "iterate_method_candidates_split_inherent", traits_in_scope = traits_in_scope.len(), ?name, ) .entered(); - let interner = DbInterner::new_with(db, None, None); - // There should be no inference vars in types passed here - let canonical = hir_ty::replace_errors_with_variables(interner, &self.ty); - let krate = scope.krate(); - let environment = scope - .resolver() - .generic_def() - .map_or_else(|| TraitEnvironment::empty(krate.id), |d| db.trait_environment(d)); + self.with_method_resolution(db, scope.resolver(), traits_in_scope, |ctx| { + // There should be no inference vars in types passed here + let canonical = hir_ty::replace_errors_with_variables(ctx.infcx.interner, &self.ty); + let (self_ty, _) = ctx.infcx.instantiate_canonical(&canonical); - _ = method_resolution::iterate_method_candidates_dyn( - &canonical, - db, - environment, - traits_in_scope, - with_local_impls.and_then(|b| b.id.containing_block()).into(), - name, - method_resolution::LookupMode::MethodCall, - &mut Callback(callback), - ); + match name { + Some(name) => { + match ctx.probe_for_name( + method_resolution::Mode::MethodCall, + name.clone(), + self_ty, + ) { + Ok(candidate) + | Err(method_resolution::MethodError::PrivateMatch(candidate)) => { + let method_resolution::CandidateId::FunctionId(id) = candidate.item + else { + unreachable!("`Mode::MethodCall` can only return functions"); + }; + let id = Function { id }; + match candidate.kind { + method_resolution::PickKind::InherentImplPick(_) + | method_resolution::PickKind::ObjectPick(..) + | method_resolution::PickKind::WhereClausePick(..) => { + // Candidates from where clauses and trait objects are considered inherent. + _ = callback.on_inherent_method(id); + } + method_resolution::PickKind::TraitPick(..) => { + _ = callback.on_trait_method(id); + } + } + } + Err(_) => {} + }; + } + None => { + _ = ctx.probe_all(method_resolution::Mode::MethodCall, self_ty).try_for_each( + |candidate| { + let method_resolution::CandidateId::FunctionId(id) = + candidate.candidate.item + else { + unreachable!("`Mode::MethodCall` can only return functions"); + }; + let id = Function { id }; + match candidate.candidate.kind { + method_resolution::CandidateKind::InherentImplCandidate { + .. + } + | method_resolution::CandidateKind::ObjectCandidate(..) + | method_resolution::CandidateKind::WhereClauseCandidate(..) => { + // Candidates from where clauses and trait objects are considered inherent. + callback.on_inherent_method(id) + } + method_resolution::CandidateKind::TraitCandidate(..) => { + callback.on_trait_method(id) + } + } + }, + ); + } + } + }) } #[tracing::instrument(skip_all, fields(name = ?name))] @@ -5533,27 +5577,21 @@ impl<'db> Type<'db> { db: &'db dyn HirDatabase, scope: &SemanticsScope<'_>, traits_in_scope: &FxHashSet, - with_local_impls: Option, name: Option<&Name>, mut callback: impl FnMut(AssocItem) -> Option, ) -> Option { let _p = tracing::info_span!("iterate_path_candidates").entered(); let mut slot = None; - self.iterate_path_candidates_split_inherent( - db, - scope, - traits_in_scope, - with_local_impls, - name, - |item| match callback(item) { + self.iterate_path_candidates_split_inherent(db, scope, traits_in_scope, name, |item| { + match callback(item) { it @ Some(_) => { slot = it; ControlFlow::Break(()) } None => ControlFlow::Continue(()), - }, - ); + } + }); slot } @@ -5568,50 +5606,68 @@ impl<'db> Type<'db> { db: &'db dyn HirDatabase, scope: &SemanticsScope<'_>, traits_in_scope: &FxHashSet, - with_local_impls: Option, name: Option<&Name>, - callback: impl PathCandidateCallback, + mut callback: impl PathCandidateCallback, ) { - struct Callback(T); - - impl method_resolution::MethodCandidateCallback for Callback { - fn on_inherent_method( - &mut self, - _adjustments: method_resolution::ReceiverAdjustments, - item: AssocItemId, - _is_visible: bool, - ) -> ControlFlow<()> { - self.0.on_inherent_item(item.into()) - } - - fn on_trait_method( - &mut self, - _adjustments: method_resolution::ReceiverAdjustments, - item: AssocItemId, - _is_visible: bool, - ) -> ControlFlow<()> { - self.0.on_trait_item(item.into()) - } - } - - let interner = DbInterner::new_with(db, None, None); - let canonical = hir_ty::replace_errors_with_variables(interner, &self.ty); + let _p = tracing::info_span!( + "iterate_path_candidates_split_inherent", + traits_in_scope = traits_in_scope.len(), + ?name, + ) + .entered(); - let krate = scope.krate(); - let environment = scope - .resolver() - .generic_def() - .map_or_else(|| TraitEnvironment::empty(krate.id), |d| db.trait_environment(d)); + self.with_method_resolution(db, scope.resolver(), traits_in_scope, |ctx| { + // There should be no inference vars in types passed here + let canonical = hir_ty::replace_errors_with_variables(ctx.infcx.interner, &self.ty); + let (self_ty, _) = ctx.infcx.instantiate_canonical(&canonical); - _ = method_resolution::iterate_path_candidates( - &canonical, - db, - environment, - traits_in_scope, - with_local_impls.and_then(|b| b.id.containing_block()).into(), - name, - &mut Callback(callback), - ); + match name { + Some(name) => { + match ctx.probe_for_name( + method_resolution::Mode::MethodCall, + name.clone(), + self_ty, + ) { + Ok(candidate) + | Err(method_resolution::MethodError::PrivateMatch(candidate)) => { + let id = candidate.item.into(); + match candidate.kind { + method_resolution::PickKind::InherentImplPick(_) + | method_resolution::PickKind::ObjectPick(..) + | method_resolution::PickKind::WhereClausePick(..) => { + // Candidates from where clauses and trait objects are considered inherent. + _ = callback.on_inherent_item(id); + } + method_resolution::PickKind::TraitPick(..) => { + _ = callback.on_trait_item(id); + } + } + } + Err(_) => {} + }; + } + None => { + _ = ctx.probe_all(method_resolution::Mode::Path, self_ty).try_for_each( + |candidate| { + let id = candidate.candidate.item.into(); + match candidate.candidate.kind { + method_resolution::CandidateKind::InherentImplCandidate { + .. + } + | method_resolution::CandidateKind::ObjectCandidate(..) + | method_resolution::CandidateKind::WhereClauseCandidate(..) => { + // Candidates from where clauses and trait objects are considered inherent. + callback.on_inherent_item(id) + } + method_resolution::CandidateKind::TraitCandidate(..) => { + callback.on_trait_item(id) + } + } + }, + ); + } + } + }) } pub fn as_adt(&self) -> Option { diff --git a/crates/hir/src/semantics.rs b/crates/hir/src/semantics.rs index ec43442c9b74..769cfd90b8ef 100644 --- a/crates/hir/src/semantics.rs +++ b/crates/hir/src/semantics.rs @@ -1581,9 +1581,9 @@ impl<'db> SemanticsImpl<'db> { hir_ty::Adjust::Borrow(hir_ty::AutoBorrow::RawPtr(m)) => { Adjust::Borrow(AutoBorrow::RawPtr(mutability(m))) } - hir_ty::Adjust::Borrow(hir_ty::AutoBorrow::Ref(_, m)) => { + hir_ty::Adjust::Borrow(hir_ty::AutoBorrow::Ref(m)) => { // FIXME: Handle lifetimes here - Adjust::Borrow(AutoBorrow::Ref(mutability(m))) + Adjust::Borrow(AutoBorrow::Ref(mutability(m.into()))) } hir_ty::Adjust::Pointer(pc) => Adjust::Pointer(pc), }; diff --git a/crates/hir/src/source_analyzer.rs b/crates/hir/src/source_analyzer.rs index f994ed26cab6..ae328a968002 100644 --- a/crates/hir/src/source_analyzer.rs +++ b/crates/hir/src/source_analyzer.rs @@ -35,7 +35,7 @@ use hir_ty::{ unsafe_operations, }, lang_items::lang_items_for_bin_op, - method_resolution, + method_resolution::{self, CandidateId}, next_solver::{ DbInterner, ErrorGuaranteed, GenericArgs, Ty, TyKind, TypingMode, infer::DbInternerInferExt, }, @@ -651,8 +651,9 @@ impl<'db> SourceAnalyzer<'db> { let lhs = self.ty_of_expr(binop_expr.lhs()?)?; let rhs = self.ty_of_expr(binop_expr.rhs()?)?; - let (_op_trait, op_fn) = lang_items_for_bin_op(op) - .and_then(|(name, lang_item)| self.lang_trait_fn(db, lang_item, &name))?; + let (_op_trait, op_fn) = lang_items_for_bin_op(op).and_then(|(name, lang_item)| { + self.lang_trait_fn(db, lang_item, &Name::new_symbol_root(name)) + })?; // HACK: subst for `index()` coincides with that for `Index` because `index()` itself // doesn't have any generic parameters, so we skip building another subst for `index()`. let interner = DbInterner::new_with(db, None, None); @@ -861,7 +862,7 @@ impl<'db> SourceAnalyzer<'db> { let expr_id = self.expr_id(path_expr.into())?; if let Some((assoc, subs)) = infer.assoc_resolutions_for_expr_or_pat(expr_id) { let (assoc, subst) = match assoc { - AssocItemId::FunctionId(f_in_trait) => { + CandidateId::FunctionId(f_in_trait) => { match infer.type_of_expr_or_pat(expr_id) { None => { let subst = GenericSubstitution::new( @@ -869,7 +870,7 @@ impl<'db> SourceAnalyzer<'db> { subs, self.trait_environment(db), ); - (assoc, subst) + (AssocItemId::from(f_in_trait), subst) } Some(func_ty) => { if let TyKind::FnDef(_fn_def, subs) = func_ty.kind() { @@ -889,12 +890,12 @@ impl<'db> SourceAnalyzer<'db> { subs, self.trait_environment(db), ); - (assoc, subst) + (f_in_trait.into(), subst) } } } } - AssocItemId::ConstId(const_id) => { + CandidateId::ConstId(const_id) => { let (konst, subst) = self.resolve_impl_const_or_trait_def_with_subst(db, const_id, subs); let subst = GenericSubstitution::new( @@ -904,14 +905,6 @@ impl<'db> SourceAnalyzer<'db> { ); (konst.into(), subst) } - AssocItemId::TypeAliasId(type_alias) => ( - assoc, - GenericSubstitution::new( - type_alias.into(), - subs, - self.trait_environment(db), - ), - ), }; return Some((PathResolution::Def(AssocItem::from(assoc).into()), Some(subst))); @@ -927,7 +920,7 @@ impl<'db> SourceAnalyzer<'db> { if let Some((assoc, subs)) = infer.assoc_resolutions_for_expr_or_pat(expr_or_pat_id) { let (assoc, subst) = match assoc { - AssocItemId::ConstId(const_id) => { + CandidateId::ConstId(const_id) => { let (konst, subst) = self.resolve_impl_const_or_trait_def_with_subst(db, const_id, subs); let subst = GenericSubstitution::new( @@ -935,12 +928,12 @@ impl<'db> SourceAnalyzer<'db> { subst, self.trait_environment(db), ); - (konst.into(), subst) + (AssocItemId::from(konst), subst) } - assoc => ( - assoc, + CandidateId::FunctionId(function_id) => ( + function_id.into(), GenericSubstitution::new( - assoc.into(), + function_id.into(), subs, self.trait_environment(db), ), diff --git a/crates/ide-assists/src/handlers/convert_for_to_while_let.rs b/crates/ide-assists/src/handlers/convert_for_to_while_let.rs index 2d6a59a7c365..156286d564f2 100644 --- a/crates/ide-assists/src/handlers/convert_for_to_while_let.rs +++ b/crates/ide-assists/src/handlers/convert_for_to_while_let.rs @@ -129,7 +129,7 @@ fn is_ref_and_impls_iter_method( let iter_trait = FamousDefs(sema, krate).core_iter_Iterator()?; let has_wanted_method = ty - .iterate_method_candidates(sema.db, &scope, None, Some(&wanted_method), |func| { + .iterate_method_candidates(sema.db, &scope, Some(&wanted_method), |func| { if func.ret_type(sema.db).impls_trait(sema.db, iter_trait, &[]) { return Some(()); } diff --git a/crates/ide-assists/src/handlers/convert_iter_for_each_to_for.rs b/crates/ide-assists/src/handlers/convert_iter_for_each_to_for.rs index 3917ca197bb8..c8a244b2136d 100644 --- a/crates/ide-assists/src/handlers/convert_iter_for_each_to_for.rs +++ b/crates/ide-assists/src/handlers/convert_iter_for_each_to_for.rs @@ -165,7 +165,7 @@ fn is_ref_and_impls_iter_method( let iter_trait = FamousDefs(sema, krate).core_iter_Iterator()?; let has_wanted_method = ty - .iterate_method_candidates(sema.db, &scope, None, Some(&wanted_method), |func| { + .iterate_method_candidates(sema.db, &scope, Some(&wanted_method), |func| { if func.ret_type(sema.db).impls_trait(sema.db, iter_trait, &[]) { return Some(()); } diff --git a/crates/ide-assists/src/handlers/extract_function.rs b/crates/ide-assists/src/handlers/extract_function.rs index 9a9adf26a6df..ef4b977fe524 100644 --- a/crates/ide-assists/src/handlers/extract_function.rs +++ b/crates/ide-assists/src/handlers/extract_function.rs @@ -4250,7 +4250,7 @@ fn $0fun_name() -> Result { check_assist( extract_function, r#" -//- minicore: option +//- minicore: option, add, builtin_impls fn bar() -> Option { None } fn foo() -> Option<()> { let n = bar()?; @@ -4314,7 +4314,7 @@ fn $0fun_name() -> Option<()> { check_assist( extract_function, r#" -//- minicore: result +//- minicore: result, add, builtin_impls fn foo() -> Result<(), i64> { let n = 1; $0let k = foo()?; @@ -4345,7 +4345,7 @@ fn $0fun_name() -> Result { check_assist( extract_function, r#" -//- minicore: option +//- minicore: option, add, builtin_impls fn foo() -> Option<()> { let n = 1; $0let k = foo()?; @@ -4382,7 +4382,7 @@ fn $0fun_name() -> Option { check_assist( extract_function, r#" -//- minicore: result +//- minicore: result, add, builtin_impls fn foo() -> Result<(), i64> { let n = 1; $0let k = foo()?; @@ -4441,7 +4441,7 @@ fn foo() -> Option<()> { check_assist( extract_function, r#" -//- minicore: result +//- minicore: result, add, builtin_impls fn foo() -> Result<(), i64> { let n = 1; $0let k = foo()?; diff --git a/crates/ide-assists/src/handlers/extract_variable.rs b/crates/ide-assists/src/handlers/extract_variable.rs index da596262962c..7c6018414217 100644 --- a/crates/ide-assists/src/handlers/extract_variable.rs +++ b/crates/ide-assists/src/handlers/extract_variable.rs @@ -2189,7 +2189,7 @@ fn foo(s: &S) { //- minicore: index struct X; -impl std::ops::Index for X { +impl core::ops::Index for X { type Output = i32; fn index(&self) -> &Self::Output { 0 } } @@ -2204,7 +2204,7 @@ fn foo(s: &S) { r#" struct X; -impl std::ops::Index for X { +impl core::ops::Index for X { type Output = i32; fn index(&self) -> &Self::Output { 0 } } @@ -2214,8 +2214,8 @@ struct S { } fn foo(s: &S) { - let $0sub = &s.sub; - sub[0]; + let $0x = &s.sub; + x[0]; }"#, "Extract into variable", ); diff --git a/crates/ide-assists/src/handlers/generate_delegate_methods.rs b/crates/ide-assists/src/handlers/generate_delegate_methods.rs index d8a2e038d33c..b2e791abf72d 100644 --- a/crates/ide-assists/src/handlers/generate_delegate_methods.rs +++ b/crates/ide-assists/src/handlers/generate_delegate_methods.rs @@ -1,4 +1,4 @@ -use hir::{HasCrate, HasVisibility}; +use hir::HasVisibility; use ide_db::{FxHashSet, path_transform::PathTransform}; use syntax::{ ast::{ @@ -79,8 +79,7 @@ pub(crate) fn generate_delegate_methods(acc: &mut Assists, ctx: &AssistContext<' let mut seen_names = FxHashSet::default(); for ty in sema_field_ty.autoderef(ctx.db()) { - let krate = ty.krate(ctx.db()); - ty.iterate_assoc_items(ctx.db(), krate, |item| { + ty.iterate_assoc_items(ctx.db(), |item| { if let hir::AssocItem::Function(f) = item { let name = f.name(ctx.db()); if f.self_param(ctx.db()).is_some() diff --git a/crates/ide-assists/src/handlers/generate_is_empty_from_len.rs b/crates/ide-assists/src/handlers/generate_is_empty_from_len.rs index af9c493b4804..f10b21b13ecf 100644 --- a/crates/ide-assists/src/handlers/generate_is_empty_from_len.rs +++ b/crates/ide-assists/src/handlers/generate_is_empty_from_len.rs @@ -95,7 +95,7 @@ fn get_impl_method( let scope = ctx.sema.scope(impl_.syntax())?; let ty = impl_def.self_ty(db); - ty.iterate_method_candidates(db, &scope, None, Some(fn_name), Some) + ty.iterate_method_candidates(db, &scope, Some(fn_name), Some) } #[cfg(test)] diff --git a/crates/ide-assists/src/handlers/move_const_to_impl.rs b/crates/ide-assists/src/handlers/move_const_to_impl.rs index a645c8b90afc..102d7e6d532c 100644 --- a/crates/ide-assists/src/handlers/move_const_to_impl.rs +++ b/crates/ide-assists/src/handlers/move_const_to_impl.rs @@ -1,4 +1,4 @@ -use hir::{AsAssocItem, AssocItemContainer, FileRange, HasCrate, HasSource}; +use hir::{AsAssocItem, AssocItemContainer, FileRange, HasSource}; use ide_db::{assists::AssistId, defs::Definition, search::SearchScope}; use syntax::{ SyntaxKind, @@ -70,7 +70,7 @@ pub(crate) fn move_const_to_impl(acc: &mut Assists, ctx: &AssistContext<'_>) -> let ty = impl_.self_ty(db); // If there exists another associated item with the same name, skip the assist. if ty - .iterate_assoc_items(db, ty.krate(db), |assoc| { + .iterate_assoc_items(db, |assoc| { // Type aliases wouldn't conflict due to different namespaces, but we're only checking // the items in inherent impls, so we assume `assoc` is never type alias for the sake // of brevity (inherent associated types exist in nightly Rust, but it's *very* diff --git a/crates/ide-assists/src/handlers/replace_arith_op.rs b/crates/ide-assists/src/handlers/replace_arith_op.rs index a3fb851fb0e2..b686dc056667 100644 --- a/crates/ide-assists/src/handlers/replace_arith_op.rs +++ b/crates/ide-assists/src/handlers/replace_arith_op.rs @@ -240,12 +240,12 @@ fn main() { replace_arith_with_wrapping, r#" fn main() { - let x = 1*x $0+ 2; + let x = 1*3 $0+ 2; } "#, r#" fn main() { - let x = (1*x).wrapping_add(2); + let x = (1*3).wrapping_add(2); } "#, ) diff --git a/crates/ide-assists/src/handlers/replace_method_eager_lazy.rs b/crates/ide-assists/src/handlers/replace_method_eager_lazy.rs index 14161d9fd91c..753f2ab5de12 100644 --- a/crates/ide-assists/src/handlers/replace_method_eager_lazy.rs +++ b/crates/ide-assists/src/handlers/replace_method_eager_lazy.rs @@ -45,7 +45,6 @@ pub(crate) fn replace_with_lazy_method(acc: &mut Assists, ctx: &AssistContext<'_ &scope, &scope.visible_traits().0, None, - None, |func| { let valid = func.name(ctx.sema.db).as_str() == &*method_name_lazy && func.num_params(ctx.sema.db) == n_params @@ -127,7 +126,6 @@ pub(crate) fn replace_with_eager_method(acc: &mut Assists, ctx: &AssistContext<' &scope, &scope.visible_traits().0, None, - None, |func| { let valid = func.name(ctx.sema.db).as_str() == method_name_eager && func.num_params(ctx.sema.db) == n_params; diff --git a/crates/ide-completion/src/completions/dot.rs b/crates/ide-completion/src/completions/dot.rs index 511b59385702..c9f440587203 100644 --- a/crates/ide-completion/src/completions/dot.rs +++ b/crates/ide-completion/src/completions/dot.rs @@ -270,7 +270,6 @@ fn complete_methods( ctx.db, &ctx.scope, traits_in_scope, - Some(ctx.module), None, Callback { ctx, f, seen_methods: FxHashSet::default() }, ); @@ -597,7 +596,6 @@ fn foo(a: A) { } "#, expect![[r#" - me local_method() fn(&self) me pub_module_method() fn(&self) "#]], ); @@ -1526,6 +1524,8 @@ async fn bar() { check_no_kw( r#" //- minicore: receiver +#![feature(arbitrary_self_types)] + use core::ops::Receiver; struct Foo; diff --git a/crates/ide-completion/src/completions/expr.rs b/crates/ide-completion/src/completions/expr.rs index 5cae7bd89fff..6bdf873426aa 100644 --- a/crates/ide-completion/src/completions/expr.rs +++ b/crates/ide-completion/src/completions/expr.rs @@ -126,13 +126,12 @@ pub(crate) fn complete_expr_path( ctx.db, &ctx.scope, &ctx.traits_in_scope(), - Some(ctx.module), None, PathCallback { ctx, acc, add_assoc_item, seen: FxHashSet::default() }, ); // Iterate assoc types separately - ty.iterate_assoc_items(ctx.db, ctx.krate, |item| { + ty.iterate_assoc_items(ctx.db, |item| { if let hir::AssocItem::TypeAlias(ty) = item { acc.add_type_alias(ctx, ty) } @@ -196,13 +195,12 @@ pub(crate) fn complete_expr_path( ctx.db, &ctx.scope, &ctx.traits_in_scope(), - Some(ctx.module), None, PathCallback { ctx, acc, add_assoc_item, seen: FxHashSet::default() }, ); // Iterate assoc types separately - ty.iterate_assoc_items(ctx.db, ctx.krate, |item| { + ty.iterate_assoc_items(ctx.db, |item| { if let hir::AssocItem::TypeAlias(ty) = item { acc.add_type_alias(ctx, ty) } @@ -232,7 +230,6 @@ pub(crate) fn complete_expr_path( ctx.db, &ctx.scope, &ctx.traits_in_scope(), - Some(ctx.module), None, PathCallback { ctx, acc, add_assoc_item, seen: FxHashSet::default() }, ); diff --git a/crates/ide-completion/src/completions/type.rs b/crates/ide-completion/src/completions/type.rs index 3465b73321e9..abcf9fca6f29 100644 --- a/crates/ide-completion/src/completions/type.rs +++ b/crates/ide-completion/src/completions/type.rs @@ -67,7 +67,7 @@ pub(crate) fn complete_type_path( }); // Iterate assoc types separately - ty.iterate_assoc_items(ctx.db, ctx.krate, |item| { + ty.iterate_assoc_items(ctx.db, |item| { if let hir::AssocItem::TypeAlias(ty) = item { acc.add_type_alias(ctx, ty) } @@ -110,7 +110,7 @@ pub(crate) fn complete_type_path( }); // Iterate assoc types separately - ty.iterate_assoc_items(ctx.db, ctx.krate, |item| { + ty.iterate_assoc_items(ctx.db, |item| { if let hir::AssocItem::TypeAlias(ty) = item { acc.add_type_alias(ctx, ty) } diff --git a/crates/ide-completion/src/context.rs b/crates/ide-completion/src/context.rs index 2f166b718451..31a9a74aa890 100644 --- a/crates/ide-completion/src/context.rs +++ b/crates/ide-completion/src/context.rs @@ -615,21 +615,14 @@ impl CompletionContext<'_> { mut cb: impl FnMut(hir::AssocItem), ) { let mut seen = FxHashSet::default(); - ty.iterate_path_candidates( - self.db, - &self.scope, - &self.traits_in_scope(), - Some(self.module), - None, - |item| { - // We might iterate candidates of a trait multiple times here, so deduplicate - // them. - if seen.insert(item) { - cb(item) - } - None::<()> - }, - ); + ty.iterate_path_candidates(self.db, &self.scope, &self.traits_in_scope(), None, |item| { + // We might iterate candidates of a trait multiple times here, so deduplicate + // them. + if seen.insert(item) { + cb(item) + } + None::<()> + }); } /// A version of [`SemanticsScope::process_all_names`] that filters out `#[doc(hidden)]` items and diff --git a/crates/ide-completion/src/tests/expression.rs b/crates/ide-completion/src/tests/expression.rs index 4033aa5d9c5e..034bc24f6ccb 100644 --- a/crates/ide-completion/src/tests/expression.rs +++ b/crates/ide-completion/src/tests/expression.rs @@ -3198,6 +3198,7 @@ fn main() { fn ambiguous_float_literal() { check( r#" +//- /core.rs crate:core #![rustc_coherence_is_core] impl i32 { @@ -3232,6 +3233,7 @@ fn foo() { fn ambiguous_float_literal_in_ambiguous_method_call() { check( r#" +//- /core.rs crate:core #![rustc_coherence_is_core] impl i32 { diff --git a/crates/ide-completion/src/tests/flyimport.rs b/crates/ide-completion/src/tests/flyimport.rs index e139a5e27088..155f0b5a9815 100644 --- a/crates/ide-completion/src/tests/flyimport.rs +++ b/crates/ide-completion/src/tests/flyimport.rs @@ -780,9 +780,9 @@ fn main() { } "#, expect![[r#" + me random_method(…) (use dep::test_mod::TestTrait) fn(&self) DEPRECATED ct SPECIAL_CONST (use dep::test_mod::TestTrait) u8 DEPRECATED fn weird_function() (use dep::test_mod::TestTrait) fn() DEPRECATED - me random_method(…) (use dep::test_mod::TestTrait) fn(&self) DEPRECATED "#]], ); } diff --git a/crates/ide-completion/src/tests/pattern.rs b/crates/ide-completion/src/tests/pattern.rs index 6eb0b818d697..df0c4e540cd9 100644 --- a/crates/ide-completion/src/tests/pattern.rs +++ b/crates/ide-completion/src/tests/pattern.rs @@ -653,6 +653,7 @@ fn f(u: U) { check( r#" +//- /core.rs crate:core #![rustc_coherence_is_core] #[lang = "u32"] impl u32 { diff --git a/crates/ide-db/src/imports/import_assets.rs b/crates/ide-db/src/imports/import_assets.rs index 50edfcaa78ee..c49ade235043 100644 --- a/crates/ide-db/src/imports/import_assets.rs +++ b/crates/ide-db/src/imports/import_assets.rs @@ -5,7 +5,7 @@ use std::{convert::Infallible, ops::ControlFlow}; use hir::{ AsAssocItem, AssocItem, AssocItemContainer, Complete, Crate, FindPathConfig, HasCrate, ItemInNs, ModPath, Module, ModuleDef, Name, PathResolution, PrefixKind, ScopeDef, Semantics, - SemanticsScope, Trait, TyFingerprint, Type, db::HirDatabase, + SemanticsScope, Trait, Type, }; use itertools::Itertools; use rustc_hash::{FxHashMap, FxHashSet}; @@ -500,44 +500,37 @@ fn validate_resolvable( ModuleDef::Adt(adt) => adt.ty(db), _ => return SmallVec::new(), }; - ty.iterate_path_candidates::( - db, - scope, - &FxHashSet::default(), - None, - None, - |assoc| { - // FIXME: Support extra trait imports - if assoc.container_or_implemented_trait(db).is_some() { - return None; - } - let name = assoc.name(db)?; - let is_match = match candidate { - NameToImport::Prefix(text, true) => name.as_str().starts_with(text), - NameToImport::Prefix(text, false) => { - name.as_str().chars().zip(text.chars()).all(|(name_char, candidate_char)| { - name_char.eq_ignore_ascii_case(&candidate_char) - }) - } - NameToImport::Exact(text, true) => name.as_str() == text, - NameToImport::Exact(text, false) => name.as_str().eq_ignore_ascii_case(text), - NameToImport::Fuzzy(text, true) => text.chars().all(|c| name.as_str().contains(c)), - NameToImport::Fuzzy(text, false) => text.chars().all(|c| { - name.as_str().chars().any(|name_char| name_char.eq_ignore_ascii_case(&c)) - }), - }; - if !is_match { - return None; + ty.iterate_path_candidates::(db, scope, &FxHashSet::default(), None, |assoc| { + // FIXME: Support extra trait imports + if assoc.container_or_implemented_trait(db).is_some() { + return None; + } + let name = assoc.name(db)?; + let is_match = match candidate { + NameToImport::Prefix(text, true) => name.as_str().starts_with(text), + NameToImport::Prefix(text, false) => { + name.as_str().chars().zip(text.chars()).all(|(name_char, candidate_char)| { + name_char.eq_ignore_ascii_case(&candidate_char) + }) } - result.push(LocatedImport::new( - import_path_candidate.clone(), - resolved_qualifier, - assoc_to_item(assoc), - complete_in_flyimport, - )); - None - }, - ); + NameToImport::Exact(text, true) => name.as_str() == text, + NameToImport::Exact(text, false) => name.as_str().eq_ignore_ascii_case(text), + NameToImport::Fuzzy(text, true) => text.chars().all(|c| name.as_str().contains(c)), + NameToImport::Fuzzy(text, false) => text + .chars() + .all(|c| name.as_str().chars().any(|name_char| name_char.eq_ignore_ascii_case(&c))), + }; + if !is_match { + return None; + } + result.push(LocatedImport::new( + import_path_candidate.clone(), + resolved_qualifier, + assoc_to_item(assoc), + complete_in_flyimport, + )); + None + }); result } @@ -608,7 +601,6 @@ fn trait_applicable_items<'db>( deref_chain .into_iter() .filter_map(|ty| Some((ty.krate(db).into(), ty.fingerprint_for_trait_impl()?))) - .sorted() .unique() .collect::>() }; @@ -619,11 +611,11 @@ fn trait_applicable_items<'db>( } // in order to handle implied bounds through an associated type, keep all traits if any - // type in the deref chain matches `TyFingerprint::Unnameable`. This fingerprint + // type in the deref chain matches `SimplifiedType::Placeholder`. This fingerprint // won't be in `TraitImpls` anyways, as `TraitImpls` only contains actual implementations. if !autoderef_method_receiver .iter() - .any(|(_, fingerprint)| matches!(fingerprint, TyFingerprint::Unnameable)) + .any(|(_, fingerprint)| matches!(fingerprint, hir::SimplifiedType::Placeholder)) { trait_candidates.retain(|&candidate_trait_id| { // we care about the following cases: @@ -635,17 +627,18 @@ fn trait_applicable_items<'db>( // a. This is recursive for fundamental types let defining_crate_for_trait = Trait::from(candidate_trait_id).krate(db); - let trait_impls_in_crate = db.trait_impls_in_crate(defining_crate_for_trait.into()); + let trait_impls_in_crate = + hir::TraitImpls::for_crate(db, defining_crate_for_trait.into()); let definitions_exist_in_trait_crate = - autoderef_method_receiver.iter().any(|&(_, fingerprint)| { + autoderef_method_receiver.iter().any(|(_, fingerprint)| { trait_impls_in_crate .has_impls_for_trait_and_self_ty(candidate_trait_id, fingerprint) }); // this is a closure for laziness: if `definitions_exist_in_trait_crate` is true, // we can avoid a second db lookup. let definitions_exist_in_receiver_crate = || { - autoderef_method_receiver.iter().any(|&(krate, fingerprint)| { - db.trait_impls_in_crate(krate) + autoderef_method_receiver.iter().any(|(krate, fingerprint)| { + hir::TraitImpls::for_crate(db, *krate) .has_impls_for_trait_and_self_ty(candidate_trait_id, fingerprint) }) }; @@ -663,7 +656,6 @@ fn trait_applicable_items<'db>( scope, &trait_candidates, None, - None, |assoc| { if let Some(&complete_in_flyimport) = required_assoc_items.get(&assoc) { let located_trait = assoc.container_trait(db).filter(|&it| scope_filter(it))?; @@ -688,7 +680,6 @@ fn trait_applicable_items<'db>( scope, &trait_candidates, None, - None, |function| { let assoc = function.as_assoc_item(db)?; if let Some(&complete_in_flyimport) = required_assoc_items.get(&assoc) { diff --git a/crates/ide-diagnostics/src/handlers/missing_fields.rs b/crates/ide-diagnostics/src/handlers/missing_fields.rs index 49f925e2e0c9..ab7256d63c40 100644 --- a/crates/ide-diagnostics/src/handlers/missing_fields.rs +++ b/crates/ide-diagnostics/src/handlers/missing_fields.rs @@ -226,7 +226,7 @@ fn get_default_constructor( // Look for a ::new() associated function let has_new_func = ty - .iterate_assoc_items(ctx.sema.db, krate, |assoc_item| { + .iterate_assoc_items(ctx.sema.db, |assoc_item| { if let AssocItem::Function(func) = assoc_item && func.name(ctx.sema.db) == sym::new && func.assoc_fn_params(ctx.sema.db).is_empty() diff --git a/crates/ide-diagnostics/src/handlers/missing_match_arms.rs b/crates/ide-diagnostics/src/handlers/missing_match_arms.rs index 1fc96b78eda2..d52fc7387053 100644 --- a/crates/ide-diagnostics/src/handlers/missing_match_arms.rs +++ b/crates/ide-diagnostics/src/handlers/missing_match_arms.rs @@ -390,7 +390,6 @@ fn main() { #[test] fn expr_diverges() { - cov_mark::check_count!(validate_match_bailed_out, 2); check_diagnostics( r#" enum Either { A, B } @@ -401,6 +400,7 @@ fn main() { Either::B => (), } match loop {} { + // ^^^^^^^ error: missing match arm: `B` not covered Either::A => (), } match loop { break Either::A } { diff --git a/crates/ide-diagnostics/src/handlers/mutability_errors.rs b/crates/ide-diagnostics/src/handlers/mutability_errors.rs index eefa1ac24add..18280a4addec 100644 --- a/crates/ide-diagnostics/src/handlers/mutability_errors.rs +++ b/crates/ide-diagnostics/src/handlers/mutability_errors.rs @@ -806,7 +806,7 @@ fn f() { _ = (x, y); let x = Foo; let y = &mut *x; - //^^ 💡 error: cannot mutate immutable variable `x` + // ^ 💡 error: cannot mutate immutable variable `x` _ = (x, y); let x = Foo; //^ 💡 warn: unused variable @@ -815,13 +815,13 @@ fn f() { //^^^^^^ 💡 error: cannot mutate immutable variable `x` _ = (x, y); let ref mut y = *x; - //^^ 💡 error: cannot mutate immutable variable `x` + // ^ 💡 error: cannot mutate immutable variable `x` _ = y; let (ref mut y, _) = *x; - //^^ 💡 error: cannot mutate immutable variable `x` + // ^ 💡 error: cannot mutate immutable variable `x` _ = y; match *x { - //^^ 💡 error: cannot mutate immutable variable `x` + // ^ 💡 error: cannot mutate immutable variable `x` (ref y, 5) => _ = y, (_, ref mut y) => _ = y, } @@ -1130,7 +1130,7 @@ fn f() { //^^^^^^^ 💡 error: cannot mutate immutable variable `x` let x = Box::new(5); let closure = || *x = 2; - //^ 💡 error: cannot mutate immutable variable `x` + //^^^^^^ 💡 error: cannot mutate immutable variable `x` _ = closure; } "#, diff --git a/crates/ide-ssr/src/resolving.rs b/crates/ide-ssr/src/resolving.rs index a48c0f8a57ec..461de4092e30 100644 --- a/crates/ide-ssr/src/resolving.rs +++ b/crates/ide-ssr/src/resolving.rs @@ -228,12 +228,10 @@ impl<'db> ResolutionScope<'db> { let resolved_qualifier = self.scope.speculative_resolve(&path.qualifier()?)?; if let hir::PathResolution::Def(hir::ModuleDef::Adt(adt)) = resolved_qualifier { let name = path.segment()?.name_ref()?; - let module = self.scope.module(); adt.ty(self.scope.db).iterate_path_candidates( self.scope.db, &self.scope, &self.scope.visible_traits().0, - Some(module), None, |assoc_item| { let item_name = assoc_item.name(self.scope.db)?; diff --git a/crates/ide/src/hover/tests.rs b/crates/ide/src/hover/tests.rs index 3a195314a781..071eacf6604c 100644 --- a/crates/ide/src/hover/tests.rs +++ b/crates/ide/src/hover/tests.rs @@ -350,7 +350,7 @@ fn main() { fn hover_closure() { check( r#" -//- minicore: copy +//- minicore: copy, add, builtin_impls fn main() { let x = 2; let y = $0|z| x + z; @@ -3280,7 +3280,7 @@ fn test_hover_no_memory_layout() { check_hover_no_memory_layout( r#" -//- minicore: copy +//- minicore: copy, add, builtin_impls fn main() { let x = 2; let y = $0|z| x + z; diff --git a/crates/ide/src/inlay_hints/adjustment.rs b/crates/ide/src/inlay_hints/adjustment.rs index ebb0d5752501..b2584b6f75d2 100644 --- a/crates/ide/src/inlay_hints/adjustment.rs +++ b/crates/ide/src/inlay_hints/adjustment.rs @@ -352,7 +352,7 @@ mod tests { check_with_config( InlayHintsConfig { adjustment_hints: AdjustmentHints::Always, ..DISABLED_CONFIG }, r#" -//- minicore: coerce_unsized, fn, eq, index, dispatch_from_dyn +//- minicore: coerce_unsized, fn, eq, index, dispatch_from_dyn, builtin_impls fn main() { let _: u32 = loop {}; //^^^^^^^ @@ -466,9 +466,8 @@ impl core::ops::IndexMut for Struct {} ..DISABLED_CONFIG }, r#" -//- minicore: coerce_unsized, fn, eq, index, dispatch_from_dyn +//- minicore: coerce_unsized, fn, eq, index, dispatch_from_dyn, builtin_impls fn main() { - Struct.consume(); Struct.by_ref(); //^^^^^^.& diff --git a/crates/intern/src/symbol/symbols.rs b/crates/intern/src/symbol/symbols.rs index 756377fe56f7..c55d45a02e38 100644 --- a/crates/intern/src/symbol/symbols.rs +++ b/crates/intern/src/symbol/symbols.rs @@ -519,4 +519,7 @@ define_symbols! { never_type_fallback, specialization, min_specialization, + arbitrary_self_types, + arbitrary_self_types_pointers, + supertrait_item_shadowing, } diff --git a/crates/test-utils/src/lib.rs b/crates/test-utils/src/lib.rs index d3afac85017f..62867fd5b55b 100644 --- a/crates/test-utils/src/lib.rs +++ b/crates/test-utils/src/lib.rs @@ -43,7 +43,7 @@ pub const ESCAPED_CURSOR_MARKER: &str = "\\$0"; #[macro_export] macro_rules! assert_eq_text { ($left:expr, $right:expr) => { - assert_eq_text!($left, $right,) + $crate::assert_eq_text!($left, $right,) }; ($left:expr, $right:expr, $($tt:tt)*) => {{ let left = $left; diff --git a/crates/test-utils/src/minicore.rs b/crates/test-utils/src/minicore.rs index 696928b522f9..d5905afc3896 100644 --- a/crates/test-utils/src/minicore.rs +++ b/crates/test-utils/src/minicore.rs @@ -68,6 +68,7 @@ //! transmute: //! try: infallible //! tuple: +//! unary_ops: //! unpin: sized //! unsize: sized //! write: fmt @@ -591,13 +592,13 @@ pub mod ops { impl Deref for &T { type Target = T; fn deref(&self) -> &T { - loop {} + *self } } impl Deref for &mut T { type Target = T; fn deref(&self) -> &T { - loop {} + *self } } // region:deref_mut @@ -1056,6 +1057,9 @@ pub mod ops { type Output = $t; fn add(self, other: $t) -> $t { self + other } } + impl AddAssign for $t { + fn add_assign(&mut self, other: $t) { *self += other; } + } )*) } @@ -1063,6 +1067,24 @@ pub mod ops { // endregion:builtin_impls // endregion:add + // region:unary_ops + #[lang = "not"] + pub const trait Not { + type Output; + + #[must_use] + fn not(self) -> Self::Output; + } + + #[lang = "neg"] + pub const trait Neg { + type Output; + + #[must_use = "this returns the result of the operation, without modifying the original"] + fn neg(self) -> Self::Output; + } + // endregion:unary_ops + // region:coroutine mod coroutine { use crate::pin::Pin; @@ -1118,6 +1140,12 @@ pub mod cmp { pub trait Eq: PartialEq + PointeeSized {} + // region:builtin_impls + impl PartialEq for () { + fn eq(&self, other: &()) -> bool { true } + } + // endregion:builtin_impls + // region:derive #[rustc_builtin_macro] pub macro PartialEq($item:item) {} From 3f0a563cbd75b6c31cad95d4d73e878221714eed Mon Sep 17 00:00:00 2001 From: Chayim Refael Friedman Date: Mon, 10 Nov 2025 08:50:11 +0200 Subject: [PATCH 2/2] Lower `ConstArgHasType` predicate for each const param This is required now that we send this clause to the solver. --- crates/hir-ty/src/lower.rs | 41 ++++++++++++++++++++++++++++++++++---- 1 file changed, 37 insertions(+), 4 deletions(-) diff --git a/crates/hir-ty/src/lower.rs b/crates/hir-ty/src/lower.rs index 63a50a59eeae..dfb289cd52e8 100644 --- a/crates/hir-ty/src/lower.rs +++ b/crates/hir-ty/src/lower.rs @@ -56,10 +56,10 @@ use crate::{ db::{HirDatabase, InternedOpaqueTyId}, generics::{Generics, generics, trait_self_param_idx}, next_solver::{ - AliasTy, Binder, BoundExistentialPredicates, Clause, Clauses, Const, DbInterner, - EarlyBinder, EarlyParamRegion, ErrorGuaranteed, GenericArg, GenericArgs, ParamConst, - ParamEnv, PolyFnSig, Predicate, Region, SolverDefId, TraitPredicate, TraitRef, Ty, Tys, - UnevaluatedConst, abi::Safety, + AliasTy, Binder, BoundExistentialPredicates, Clause, ClauseKind, Clauses, Const, + DbInterner, EarlyBinder, EarlyParamRegion, ErrorGuaranteed, GenericArg, GenericArgs, + ParamConst, ParamEnv, PolyFnSig, Predicate, Region, SolverDefId, TraitPredicate, TraitRef, + Ty, Tys, UnevaluatedConst, abi::Safety, }, }; @@ -1651,6 +1651,8 @@ pub(crate) fn trait_environment_query<'db>( clauses.push(pred); } } + + push_const_arg_has_type_predicates(db, &mut clauses, maybe_parent_generics); } if let Some(trait_id) = def.assoc_trait_container(db) { @@ -1788,6 +1790,8 @@ where )); } + push_const_arg_has_type_predicates(db, &mut predicates, maybe_parent_generics); + if let Some(sized_trait) = sized_trait { let mut add_sized_clause = |param_idx, param_id, param_data| { let ( @@ -1893,6 +1897,35 @@ where } } +fn push_const_arg_has_type_predicates<'db>( + db: &'db dyn HirDatabase, + predicates: &mut Vec>, + generics: &Generics, +) { + let interner = DbInterner::new_with(db, None, None); + let const_params_offset = generics.len_parent() + generics.len_lifetimes_self(); + for (param_index, (param_idx, param_data)) in generics.iter_self_type_or_consts().enumerate() { + if !matches!(param_data, TypeOrConstParamData::ConstParamData(_)) { + continue; + } + + let param_id = ConstParamId::from_unchecked(TypeOrConstParamId { + parent: generics.def(), + local_id: param_idx, + }); + predicates.push(Clause( + ClauseKind::ConstArgHasType( + Const::new_param( + interner, + ParamConst { id: param_id, index: (param_index + const_params_offset) as u32 }, + ), + db.const_param_ty_ns(param_id), + ) + .upcast(interner), + )); + } +} + /// Generate implicit `: Sized` predicates for all generics that has no `?Sized` bound. /// Exception is Self of a trait def. fn implicitly_sized_clauses<'a, 'subst, 'db>(