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https://github.com/rust-lang/rust-analyzer
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Register obligations during path inference
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parent
c6aea8c2f9
commit
12ba5cab11
5 changed files with 132 additions and 37 deletions
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@ -18,7 +18,6 @@ use crate::{
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consteval::unknown_const_as_generic, db::HirDatabase, infer::unify::InferenceTable, primitive,
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to_assoc_type_id, to_chalk_trait_id, utils::generics, Binders, BoundVar, CallableSig,
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GenericArg, Interner, ProjectionTy, Substitution, TraitRef, Ty, TyDefId, TyExt, TyKind,
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ValueTyDefId,
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};
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#[derive(Debug, Clone, PartialEq, Eq)]
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@ -362,21 +361,4 @@ impl TyBuilder<Binders<Ty>> {
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pub fn impl_self_ty(db: &dyn HirDatabase, def: hir_def::ImplId) -> TyBuilder<Binders<Ty>> {
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TyBuilder::subst_for_def(db, def, None).with_data(db.impl_self_ty(def))
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}
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pub fn value_ty(
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db: &dyn HirDatabase,
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def: ValueTyDefId,
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parent_subst: Option<Substitution>,
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) -> TyBuilder<Binders<Ty>> {
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let poly_value_ty = db.value_ty(def);
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let id = match def.to_generic_def_id() {
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Some(id) => id,
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None => {
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// static items
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assert!(parent_subst.is_none());
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return TyBuilder::new_empty(poly_value_ty);
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}
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};
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TyBuilder::subst_for_def(db, id, parent_subst).with_data(poly_value_ty)
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}
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}
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@ -16,7 +16,10 @@
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use std::sync::Arc;
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use std::{convert::identity, ops::Index};
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use chalk_ir::{cast::Cast, DebruijnIndex, Mutability, Safety, Scalar, TypeFlags};
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use chalk_ir::{
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cast::Cast, fold::TypeFoldable, interner::HasInterner, DebruijnIndex, Mutability, Safety,
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Scalar, TypeFlags,
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};
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use either::Either;
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use hir_def::{
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body::Body,
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@ -798,7 +801,10 @@ impl<'a> InferenceContext<'a> {
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self.table.insert_type_vars_shallow(ty)
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}
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fn insert_type_vars(&mut self, ty: Ty) -> Ty {
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fn insert_type_vars<T>(&mut self, ty: T) -> T
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where
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T: HasInterner<Interner = Interner> + TypeFoldable<Interner>,
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{
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self.table.insert_type_vars(ty)
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}
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@ -875,7 +881,10 @@ impl<'a> InferenceContext<'a> {
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/// type annotation (e.g. from a let type annotation, field type or function
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/// call). `make_ty` handles this already, but e.g. for field types we need
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/// to do it as well.
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fn normalize_associated_types_in(&mut self, ty: Ty) -> Ty {
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fn normalize_associated_types_in<T>(&mut self, ty: T) -> T
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where
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T: HasInterner<Interner = Interner> + TypeFoldable<Interner>,
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{
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self.table.normalize_associated_types_in(ty)
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}
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@ -4,7 +4,7 @@ use chalk_ir::cast::Cast;
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use hir_def::{
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path::{Path, PathSegment},
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resolver::{ResolveValueResult, TypeNs, ValueNs},
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AdtId, AssocItemId, EnumVariantId, ItemContainerId, Lookup,
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AdtId, AssocItemId, EnumVariantId, GenericDefId, ItemContainerId, Lookup,
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};
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use hir_expand::name::Name;
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use stdx::never;
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@ -13,6 +13,7 @@ use crate::{
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builder::ParamKind,
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consteval,
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method_resolution::{self, VisibleFromModule},
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to_chalk_trait_id,
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utils::generics,
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InferenceDiagnostic, Interner, Substitution, TraitRefExt, Ty, TyBuilder, TyExt, TyKind,
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ValueTyDefId,
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@ -20,15 +21,25 @@ use crate::{
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use super::{ExprOrPatId, InferenceContext, TraitRef};
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impl<'a> InferenceContext<'a> {
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impl InferenceContext<'_> {
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pub(super) fn infer_path(&mut self, path: &Path, id: ExprOrPatId) -> Option<Ty> {
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let ty = self.resolve_value_path(path, id)?;
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let ty = self.insert_type_vars(ty);
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let (value_def, generic_def, substs) = match self.resolve_value_path(path, id)? {
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ValuePathResolution::GenericDef(value_def, generic_def, substs) => {
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(value_def, generic_def, substs)
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}
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ValuePathResolution::NonGeneric(ty) => return Some(ty),
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};
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let substs = self.insert_type_vars(substs);
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let substs = self.normalize_associated_types_in(substs);
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self.add_required_obligations_for_value_path(generic_def, &substs);
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let ty = self.db.value_ty(value_def).substitute(Interner, &substs);
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let ty = self.normalize_associated_types_in(ty);
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Some(ty)
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}
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fn resolve_value_path(&mut self, path: &Path, id: ExprOrPatId) -> Option<Ty> {
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fn resolve_value_path(&mut self, path: &Path, id: ExprOrPatId) -> Option<ValuePathResolution> {
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let (value, self_subst) = if let Some(type_ref) = path.type_anchor() {
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let last = path.segments().last()?;
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@ -56,9 +67,9 @@ impl<'a> InferenceContext<'a> {
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}
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};
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let typable: ValueTyDefId = match value {
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let value_def = match value {
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ValueNs::LocalBinding(pat) => match self.result.type_of_binding.get(pat) {
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Some(ty) => return Some(ty.clone()),
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Some(ty) => return Some(ValuePathResolution::NonGeneric(ty.clone())),
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None => {
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never!("uninferred pattern?");
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return None;
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@ -82,28 +93,45 @@ impl<'a> InferenceContext<'a> {
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let substs = generics.placeholder_subst(self.db);
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let ty = self.db.impl_self_ty(impl_id).substitute(Interner, &substs);
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if let Some((AdtId::StructId(struct_id), substs)) = ty.as_adt() {
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let ty = self.db.value_ty(struct_id.into()).substitute(Interner, &substs);
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return Some(ty);
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return Some(ValuePathResolution::GenericDef(
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struct_id.into(),
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struct_id.into(),
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substs.clone(),
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));
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} else {
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// FIXME: report error, invalid Self reference
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return None;
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}
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}
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ValueNs::GenericParam(it) => return Some(self.db.const_param_ty(it)),
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ValueNs::GenericParam(it) => {
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return Some(ValuePathResolution::NonGeneric(self.db.const_param_ty(it)))
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}
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};
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let ctx = crate::lower::TyLoweringContext::new(self.db, &self.resolver);
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let substs = ctx.substs_from_path(path, typable, true);
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let substs = ctx.substs_from_path(path, value_def, true);
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let substs = substs.as_slice(Interner);
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let parent_substs = self_subst.or_else(|| {
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let generics = generics(self.db.upcast(), typable.to_generic_def_id()?);
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let generics = generics(self.db.upcast(), value_def.to_generic_def_id()?);
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let parent_params_len = generics.parent_generics()?.len();
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let parent_args = &substs[substs.len() - parent_params_len..];
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Some(Substitution::from_iter(Interner, parent_args))
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});
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let parent_substs_len = parent_substs.as_ref().map_or(0, |s| s.len(Interner));
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let mut it = substs.iter().take(substs.len() - parent_substs_len).cloned();
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let ty = TyBuilder::value_ty(self.db, typable, parent_substs)
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let Some(generic_def) = value_def.to_generic_def_id() else {
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// `value_def` is the kind of item that can never be generic (i.e. statics, at least
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// currently). We can just skip the binders to get its type.
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let (ty, binders) = self.db.value_ty(value_def).into_value_and_skipped_binders();
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stdx::always!(
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parent_substs.is_none() && binders.is_empty(Interner),
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"non-empty binders for non-generic def",
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);
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return Some(ValuePathResolution::NonGeneric(ty));
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};
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let builder = TyBuilder::subst_for_def(self.db, generic_def, parent_substs);
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let substs = builder
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.fill(|x| {
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it.next().unwrap_or_else(|| match x {
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ParamKind::Type => self.result.standard_types.unknown.clone().cast(Interner),
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@ -111,7 +139,35 @@ impl<'a> InferenceContext<'a> {
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})
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})
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.build();
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Some(ty)
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Some(ValuePathResolution::GenericDef(value_def, generic_def, substs))
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}
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fn add_required_obligations_for_value_path(&mut self, def: GenericDefId, subst: &Substitution) {
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let predicates = self.db.generic_predicates(def);
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for predicate in predicates.iter() {
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let (predicate, binders) =
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predicate.clone().substitute(Interner, &subst).into_value_and_skipped_binders();
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// Quantified where clauses are not yet handled.
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stdx::always!(binders.is_empty(Interner));
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self.push_obligation(predicate.cast(Interner));
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}
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// We need to add `Self: Trait` obligation when `def` is a trait assoc item.
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let container = match def {
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GenericDefId::FunctionId(id) => id.lookup(self.db.upcast()).container,
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GenericDefId::ConstId(id) => id.lookup(self.db.upcast()).container,
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_ => return,
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};
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if let ItemContainerId::TraitId(trait_) = container {
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let param_len = generics(self.db.upcast(), def).len_self();
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let parent_subst =
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Substitution::from_iter(Interner, subst.iter(Interner).skip(param_len));
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let trait_ref =
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TraitRef { trait_id: to_chalk_trait_id(trait_), substitution: parent_subst };
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self.push_obligation(trait_ref.cast(Interner));
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}
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}
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fn resolve_assoc_item(
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@ -307,3 +363,10 @@ impl<'a> InferenceContext<'a> {
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Some((ValueNs::EnumVariantId(variant), subst.clone()))
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}
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}
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enum ValuePathResolution {
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// It's awkward to wrap a single ID in two enums, but we need both and this saves fallible
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// conversion between them + `unwrap()`.
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GenericDef(ValueTyDefId, GenericDefId, Substitution),
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NonGeneric(Ty),
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}
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@ -231,7 +231,10 @@ impl<'a> InferenceTable<'a> {
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/// type annotation (e.g. from a let type annotation, field type or function
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/// call). `make_ty` handles this already, but e.g. for field types we need
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/// to do it as well.
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pub(crate) fn normalize_associated_types_in(&mut self, ty: Ty) -> Ty {
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pub(crate) fn normalize_associated_types_in<T>(&mut self, ty: T) -> T
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where
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T: HasInterner<Interner = Interner> + TypeFoldable<Interner>,
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{
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fold_tys(
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ty,
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|ty, _| match ty.kind(Interner) {
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@ -720,7 +723,10 @@ impl<'a> InferenceTable<'a> {
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}
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}
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pub(super) fn insert_type_vars(&mut self, ty: Ty) -> Ty {
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pub(super) fn insert_type_vars<T>(&mut self, ty: T) -> T
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where
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T: HasInterner<Interner = Interner> + TypeFoldable<Interner>,
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{
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fold_tys_and_consts(
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ty,
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|x, _| match x {
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@ -4375,3 +4375,38 @@ fn derive_macro_bounds() {
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"#,
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);
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}
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#[test]
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fn trait_obligations_should_be_registered_during_path_inference() {
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check_types(
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r#"
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//- minicore: fn, from
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struct S<T>(T);
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fn map<T, U, F: FnOnce(T) -> S<U>>(_: T, _: F) -> U { loop {} }
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fn test(v: S<i32>) {
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let res = map(v, Into::into);
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//^^^ i32
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}
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"#,
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);
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}
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#[test]
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fn fn_obligation_should_be_registered_during_path_inference() {
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check_types(
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r#"
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//- minicore: fn, from
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struct S<T>(T);
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impl<T> S<T> {
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fn foo<U: Into<S<T>>>(_: U) -> Self { loop {} }
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}
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fn map<T, U, F: FnOnce(T) -> U>(_: T, _: F) -> U { loop {} }
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fn test(v: S<i32>) {
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let res = map(v, S::foo);
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//^^^ S<i32>
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}
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"#,
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);
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}
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