//! This module contains the implementations of the `ToChalk` trait, which //! handles conversion between our data types and their corresponding types in //! Chalk (in both directions); plus some helper functions for more specialized //! conversions. use chalk_ir::{ cast::Cast, fold::shift::Shift, interner::HasInterner, PlaceholderIndex, Scalar, TypeName, UniverseIndex, }; use chalk_solve::rust_ir; use base_db::salsa::InternKey; use hir_def::{type_ref::Mutability, AssocContainerId, GenericDefId, Lookup, TypeAliasId}; use crate::{ db::HirDatabase, primitive::{FloatBitness, FloatTy, IntBitness, IntTy, Signedness}, traits::{Canonical, Obligation}, ApplicationTy, CallableDefId, GenericPredicate, InEnvironment, OpaqueTy, OpaqueTyId, ProjectionPredicate, ProjectionTy, Substs, TraitEnvironment, TraitRef, Ty, TyKind, TypeCtor, }; use super::interner::*; use super::*; impl ToChalk for Ty { type Chalk = chalk_ir::Ty; fn to_chalk(self, db: &dyn HirDatabase) -> chalk_ir::Ty { match self { Ty::Apply(apply_ty) => match apply_ty.ctor { TypeCtor::Ref(m) => ref_to_chalk(db, m, apply_ty.parameters), TypeCtor::Array => array_to_chalk(db, apply_ty.parameters), TypeCtor::FnPtr { num_args: _, is_varargs } => { let substitution = apply_ty.parameters.to_chalk(db).shifted_in(&Interner); chalk_ir::TyData::Function(chalk_ir::FnPointer { num_binders: 0, sig: chalk_ir::FnSig { abi: (), safety: chalk_ir::Safety::Safe, variadic: is_varargs, }, substitution, }) .intern(&Interner) } _ => { let name = apply_ty.ctor.to_chalk(db); let substitution = apply_ty.parameters.to_chalk(db); chalk_ir::ApplicationTy { name, substitution }.cast(&Interner).intern(&Interner) } }, Ty::Projection(proj_ty) => { let associated_ty_id = TypeAliasAsAssocType(proj_ty.associated_ty).to_chalk(db); let substitution = proj_ty.parameters.to_chalk(db); chalk_ir::AliasTy::Projection(chalk_ir::ProjectionTy { associated_ty_id, substitution, }) .cast(&Interner) .intern(&Interner) } Ty::Placeholder(id) => { let interned_id = db.intern_type_param_id(id); PlaceholderIndex { ui: UniverseIndex::ROOT, idx: interned_id.as_intern_id().as_usize(), } .to_ty::(&Interner) } Ty::Bound(idx) => chalk_ir::TyData::BoundVar(idx).intern(&Interner), Ty::Infer(_infer_ty) => panic!("uncanonicalized infer ty"), Ty::Dyn(predicates) => { let where_clauses = chalk_ir::QuantifiedWhereClauses::from_iter( &Interner, predicates.iter().filter(|p| !p.is_error()).cloned().map(|p| p.to_chalk(db)), ); let bounded_ty = chalk_ir::DynTy { bounds: make_binders(where_clauses, 1), lifetime: FAKE_PLACEHOLDER.to_lifetime(&Interner), }; chalk_ir::TyData::Dyn(bounded_ty).intern(&Interner) } Ty::Opaque(opaque_ty) => { let opaque_ty_id = opaque_ty.opaque_ty_id.to_chalk(db); let substitution = opaque_ty.parameters.to_chalk(db); chalk_ir::TyData::Alias(chalk_ir::AliasTy::Opaque(chalk_ir::OpaqueTy { opaque_ty_id, substitution, })) .intern(&Interner) } Ty::Unknown => { let substitution = chalk_ir::Substitution::empty(&Interner); let name = TypeName::Error; chalk_ir::ApplicationTy { name, substitution }.cast(&Interner).intern(&Interner) } } } fn from_chalk(db: &dyn HirDatabase, chalk: chalk_ir::Ty) -> Self { match chalk.data(&Interner).clone() { chalk_ir::TyData::Apply(apply_ty) => match apply_ty.name { TypeName::Error => Ty::Unknown, TypeName::Ref(m) => ref_from_chalk(db, m, apply_ty.substitution), TypeName::Array => array_from_chalk(db, apply_ty.substitution), _ => { let ctor = from_chalk(db, apply_ty.name); let parameters = from_chalk(db, apply_ty.substitution); Ty::Apply(ApplicationTy { ctor, parameters }) } }, chalk_ir::TyData::Placeholder(idx) => { assert_eq!(idx.ui, UniverseIndex::ROOT); let interned_id = crate::db::GlobalTypeParamId::from_intern_id( crate::salsa::InternId::from(idx.idx), ); Ty::Placeholder(db.lookup_intern_type_param_id(interned_id)) } chalk_ir::TyData::Alias(chalk_ir::AliasTy::Projection(proj)) => { let associated_ty = from_chalk::(db, proj.associated_ty_id).0; let parameters = from_chalk(db, proj.substitution); Ty::Projection(ProjectionTy { associated_ty, parameters }) } chalk_ir::TyData::Alias(chalk_ir::AliasTy::Opaque(opaque_ty)) => { let impl_trait_id = from_chalk(db, opaque_ty.opaque_ty_id); let parameters = from_chalk(db, opaque_ty.substitution); Ty::Opaque(OpaqueTy { opaque_ty_id: impl_trait_id, parameters }) } chalk_ir::TyData::Function(chalk_ir::FnPointer { num_binders, sig: chalk_ir::FnSig { variadic, .. }, substitution, .. }) => { assert_eq!(num_binders, 0); let parameters: Substs = from_chalk( db, substitution.shifted_out(&Interner).expect("fn ptr should have no binders"), ); Ty::Apply(ApplicationTy { ctor: TypeCtor::FnPtr { num_args: (parameters.len() - 1) as u16, is_varargs: variadic, }, parameters, }) } chalk_ir::TyData::BoundVar(idx) => Ty::Bound(idx), chalk_ir::TyData::InferenceVar(_iv, _kind) => Ty::Unknown, chalk_ir::TyData::Dyn(where_clauses) => { assert_eq!(where_clauses.bounds.binders.len(&Interner), 1); let predicates = where_clauses .bounds .skip_binders() .iter(&Interner) .map(|c| from_chalk(db, c.clone())) .collect(); Ty::Dyn(predicates) } } } } const FAKE_PLACEHOLDER: PlaceholderIndex = PlaceholderIndex { ui: UniverseIndex::ROOT, idx: usize::MAX }; /// We currently don't model lifetimes, but Chalk does. So, we have to insert a /// fake lifetime here, because Chalks built-in logic may expect it to be there. fn ref_to_chalk( db: &dyn HirDatabase, mutability: Mutability, subst: Substs, ) -> chalk_ir::Ty { let arg = subst[0].clone().to_chalk(db); let lifetime = FAKE_PLACEHOLDER.to_lifetime(&Interner); chalk_ir::ApplicationTy { name: TypeName::Ref(mutability.to_chalk(db)), substitution: chalk_ir::Substitution::from_iter( &Interner, vec![lifetime.cast(&Interner), arg.cast(&Interner)], ), } .intern(&Interner) } /// Here we remove the lifetime from the type we got from Chalk. fn ref_from_chalk( db: &dyn HirDatabase, mutability: chalk_ir::Mutability, subst: chalk_ir::Substitution, ) -> Ty { let tys = subst .iter(&Interner) .filter_map(|p| Some(from_chalk(db, p.ty(&Interner)?.clone()))) .collect(); Ty::apply(TypeCtor::Ref(from_chalk(db, mutability)), Substs(tys)) } /// We currently don't model constants, but Chalk does. So, we have to insert a /// fake constant here, because Chalks built-in logic may expect it to be there. fn array_to_chalk(db: &dyn HirDatabase, subst: Substs) -> chalk_ir::Ty { let arg = subst[0].clone().to_chalk(db); let usize_ty = chalk_ir::ApplicationTy { name: TypeName::Scalar(Scalar::Uint(chalk_ir::UintTy::Usize)), substitution: chalk_ir::Substitution::empty(&Interner), } .intern(&Interner); let const_ = FAKE_PLACEHOLDER.to_const(&Interner, usize_ty); chalk_ir::ApplicationTy { name: TypeName::Array, substitution: chalk_ir::Substitution::from_iter( &Interner, vec![arg.cast(&Interner), const_.cast(&Interner)], ), } .intern(&Interner) } /// Here we remove the const from the type we got from Chalk. fn array_from_chalk(db: &dyn HirDatabase, subst: chalk_ir::Substitution) -> Ty { let tys = subst .iter(&Interner) .filter_map(|p| Some(from_chalk(db, p.ty(&Interner)?.clone()))) .collect(); Ty::apply(TypeCtor::Array, Substs(tys)) } impl ToChalk for Substs { type Chalk = chalk_ir::Substitution; fn to_chalk(self, db: &dyn HirDatabase) -> chalk_ir::Substitution { chalk_ir::Substitution::from_iter(&Interner, self.iter().map(|ty| ty.clone().to_chalk(db))) } fn from_chalk(db: &dyn HirDatabase, parameters: chalk_ir::Substitution) -> Substs { let tys = parameters .iter(&Interner) .map(|p| match p.ty(&Interner) { Some(ty) => from_chalk(db, ty.clone()), None => unimplemented!(), }) .collect(); Substs(tys) } } impl ToChalk for TraitRef { type Chalk = chalk_ir::TraitRef; fn to_chalk(self: TraitRef, db: &dyn HirDatabase) -> chalk_ir::TraitRef { let trait_id = self.trait_.to_chalk(db); let substitution = self.substs.to_chalk(db); chalk_ir::TraitRef { trait_id, substitution } } fn from_chalk(db: &dyn HirDatabase, trait_ref: chalk_ir::TraitRef) -> Self { let trait_ = from_chalk(db, trait_ref.trait_id); let substs = from_chalk(db, trait_ref.substitution); TraitRef { trait_, substs } } } impl ToChalk for hir_def::TraitId { type Chalk = TraitId; fn to_chalk(self, _db: &dyn HirDatabase) -> TraitId { chalk_ir::TraitId(self.as_intern_id()) } fn from_chalk(_db: &dyn HirDatabase, trait_id: TraitId) -> hir_def::TraitId { InternKey::from_intern_id(trait_id.0) } } impl ToChalk for OpaqueTyId { type Chalk = chalk_ir::OpaqueTyId; fn to_chalk(self, db: &dyn HirDatabase) -> chalk_ir::OpaqueTyId { db.intern_impl_trait_id(self).into() } fn from_chalk( db: &dyn HirDatabase, opaque_ty_id: chalk_ir::OpaqueTyId, ) -> OpaqueTyId { db.lookup_intern_impl_trait_id(opaque_ty_id.into()) } } impl ToChalk for TypeCtor { type Chalk = TypeName; fn to_chalk(self, db: &dyn HirDatabase) -> TypeName { match self { TypeCtor::AssociatedType(type_alias) => { let assoc_type = TypeAliasAsAssocType(type_alias); let assoc_type_id = assoc_type.to_chalk(db); TypeName::AssociatedType(assoc_type_id) } TypeCtor::OpaqueType(impl_trait_id) => { let id = impl_trait_id.to_chalk(db); TypeName::OpaqueType(id) } TypeCtor::ForeignType(type_alias) => { let foreign_type = TypeAliasAsForeignType(type_alias); let foreign_type_id = foreign_type.to_chalk(db); TypeName::Foreign(foreign_type_id) } TypeCtor::Bool => TypeName::Scalar(Scalar::Bool), TypeCtor::Char => TypeName::Scalar(Scalar::Char), TypeCtor::Int(int_ty) => TypeName::Scalar(int_ty_to_chalk(int_ty)), TypeCtor::Float(FloatTy { bitness: FloatBitness::X32 }) => { TypeName::Scalar(Scalar::Float(chalk_ir::FloatTy::F32)) } TypeCtor::Float(FloatTy { bitness: FloatBitness::X64 }) => { TypeName::Scalar(Scalar::Float(chalk_ir::FloatTy::F64)) } TypeCtor::Tuple { cardinality } => TypeName::Tuple(cardinality.into()), TypeCtor::RawPtr(mutability) => TypeName::Raw(mutability.to_chalk(db)), TypeCtor::Slice => TypeName::Slice, TypeCtor::Array => TypeName::Array, TypeCtor::Ref(mutability) => TypeName::Ref(mutability.to_chalk(db)), TypeCtor::Str => TypeName::Str, TypeCtor::FnDef(callable_def) => { let id = callable_def.to_chalk(db); TypeName::FnDef(id) } TypeCtor::Never => TypeName::Never, TypeCtor::Closure { def, expr } => { let closure_id = db.intern_closure((def, expr)); TypeName::Closure(closure_id.into()) } TypeCtor::Adt(adt_id) => TypeName::Adt(chalk_ir::AdtId(adt_id)), TypeCtor::FnPtr { .. } => { // This should not be reached, since Chalk doesn't represent // function pointers with TypeName unreachable!() } } } fn from_chalk(db: &dyn HirDatabase, type_name: TypeName) -> TypeCtor { match type_name { TypeName::Adt(struct_id) => TypeCtor::Adt(struct_id.0), TypeName::AssociatedType(type_id) => { TypeCtor::AssociatedType(from_chalk::(db, type_id).0) } TypeName::OpaqueType(opaque_type_id) => { TypeCtor::OpaqueType(from_chalk(db, opaque_type_id)) } TypeName::Scalar(Scalar::Bool) => TypeCtor::Bool, TypeName::Scalar(Scalar::Char) => TypeCtor::Char, TypeName::Scalar(Scalar::Int(int_ty)) => TypeCtor::Int(IntTy { signedness: Signedness::Signed, bitness: bitness_from_chalk_int(int_ty), }), TypeName::Scalar(Scalar::Uint(uint_ty)) => TypeCtor::Int(IntTy { signedness: Signedness::Unsigned, bitness: bitness_from_chalk_uint(uint_ty), }), TypeName::Scalar(Scalar::Float(chalk_ir::FloatTy::F32)) => { TypeCtor::Float(FloatTy { bitness: FloatBitness::X32 }) } TypeName::Scalar(Scalar::Float(chalk_ir::FloatTy::F64)) => { TypeCtor::Float(FloatTy { bitness: FloatBitness::X64 }) } TypeName::Tuple(cardinality) => TypeCtor::Tuple { cardinality: cardinality as u16 }, TypeName::Raw(mutability) => TypeCtor::RawPtr(from_chalk(db, mutability)), TypeName::Slice => TypeCtor::Slice, TypeName::Ref(mutability) => TypeCtor::Ref(from_chalk(db, mutability)), TypeName::Str => TypeCtor::Str, TypeName::Never => TypeCtor::Never, TypeName::FnDef(fn_def_id) => { let callable_def = from_chalk(db, fn_def_id); TypeCtor::FnDef(callable_def) } TypeName::Array => TypeCtor::Array, TypeName::Closure(id) => { let id: crate::db::ClosureId = id.into(); let (def, expr) = db.lookup_intern_closure(id); TypeCtor::Closure { def, expr } } TypeName::Foreign(foreign_def_id) => { TypeCtor::ForeignType(from_chalk::(db, foreign_def_id).0) } TypeName::Error => { // this should not be reached, since we don't represent TypeName::Error with TypeCtor unreachable!() } _ => unimplemented!(), // FIXME } } } fn bitness_from_chalk_uint(uint_ty: chalk_ir::UintTy) -> IntBitness { use chalk_ir::UintTy; match uint_ty { UintTy::Usize => IntBitness::Xsize, UintTy::U8 => IntBitness::X8, UintTy::U16 => IntBitness::X16, UintTy::U32 => IntBitness::X32, UintTy::U64 => IntBitness::X64, UintTy::U128 => IntBitness::X128, } } fn bitness_from_chalk_int(int_ty: chalk_ir::IntTy) -> IntBitness { use chalk_ir::IntTy; match int_ty { IntTy::Isize => IntBitness::Xsize, IntTy::I8 => IntBitness::X8, IntTy::I16 => IntBitness::X16, IntTy::I32 => IntBitness::X32, IntTy::I64 => IntBitness::X64, IntTy::I128 => IntBitness::X128, } } fn int_ty_to_chalk(int_ty: IntTy) -> Scalar { use chalk_ir::{IntTy, UintTy}; match int_ty.signedness { Signedness::Signed => Scalar::Int(match int_ty.bitness { IntBitness::Xsize => IntTy::Isize, IntBitness::X8 => IntTy::I8, IntBitness::X16 => IntTy::I16, IntBitness::X32 => IntTy::I32, IntBitness::X64 => IntTy::I64, IntBitness::X128 => IntTy::I128, }), Signedness::Unsigned => Scalar::Uint(match int_ty.bitness { IntBitness::Xsize => UintTy::Usize, IntBitness::X8 => UintTy::U8, IntBitness::X16 => UintTy::U16, IntBitness::X32 => UintTy::U32, IntBitness::X64 => UintTy::U64, IntBitness::X128 => UintTy::U128, }), } } impl ToChalk for Mutability { type Chalk = chalk_ir::Mutability; fn to_chalk(self, _db: &dyn HirDatabase) -> Self::Chalk { match self { Mutability::Shared => chalk_ir::Mutability::Not, Mutability::Mut => chalk_ir::Mutability::Mut, } } fn from_chalk(_db: &dyn HirDatabase, chalk: Self::Chalk) -> Self { match chalk { chalk_ir::Mutability::Mut => Mutability::Mut, chalk_ir::Mutability::Not => Mutability::Shared, } } } impl ToChalk for hir_def::ImplId { type Chalk = ImplId; fn to_chalk(self, _db: &dyn HirDatabase) -> ImplId { chalk_ir::ImplId(self.as_intern_id()) } fn from_chalk(_db: &dyn HirDatabase, impl_id: ImplId) -> hir_def::ImplId { InternKey::from_intern_id(impl_id.0) } } impl ToChalk for hir_def::AdtId { type Chalk = AdtId; fn to_chalk(self, _db: &dyn HirDatabase) -> Self::Chalk { chalk_ir::AdtId(self.into()) } fn from_chalk(_db: &dyn HirDatabase, id: AdtId) -> Self { id.0 } } impl ToChalk for CallableDefId { type Chalk = FnDefId; fn to_chalk(self, db: &dyn HirDatabase) -> FnDefId { db.intern_callable_def(self).into() } fn from_chalk(db: &dyn HirDatabase, fn_def_id: FnDefId) -> CallableDefId { db.lookup_intern_callable_def(fn_def_id.into()) } } pub struct TypeAliasAsAssocType(pub TypeAliasId); impl ToChalk for TypeAliasAsAssocType { type Chalk = AssocTypeId; fn to_chalk(self, _db: &dyn HirDatabase) -> AssocTypeId { chalk_ir::AssocTypeId(self.0.as_intern_id()) } fn from_chalk(_db: &dyn HirDatabase, assoc_type_id: AssocTypeId) -> TypeAliasAsAssocType { TypeAliasAsAssocType(InternKey::from_intern_id(assoc_type_id.0)) } } pub struct TypeAliasAsForeignType(pub TypeAliasId); impl ToChalk for TypeAliasAsForeignType { type Chalk = ForeignDefId; fn to_chalk(self, _db: &dyn HirDatabase) -> ForeignDefId { chalk_ir::ForeignDefId(self.0.as_intern_id()) } fn from_chalk(_db: &dyn HirDatabase, foreign_def_id: ForeignDefId) -> TypeAliasAsForeignType { TypeAliasAsForeignType(InternKey::from_intern_id(foreign_def_id.0)) } } pub struct TypeAliasAsValue(pub TypeAliasId); impl ToChalk for TypeAliasAsValue { type Chalk = AssociatedTyValueId; fn to_chalk(self, _db: &dyn HirDatabase) -> AssociatedTyValueId { rust_ir::AssociatedTyValueId(self.0.as_intern_id()) } fn from_chalk( _db: &dyn HirDatabase, assoc_ty_value_id: AssociatedTyValueId, ) -> TypeAliasAsValue { TypeAliasAsValue(TypeAliasId::from_intern_id(assoc_ty_value_id.0)) } } impl ToChalk for GenericPredicate { type Chalk = chalk_ir::QuantifiedWhereClause; fn to_chalk(self, db: &dyn HirDatabase) -> chalk_ir::QuantifiedWhereClause { match self { GenericPredicate::Implemented(trait_ref) => { let chalk_trait_ref = trait_ref.to_chalk(db); let chalk_trait_ref = chalk_trait_ref.shifted_in(&Interner); make_binders(chalk_ir::WhereClause::Implemented(chalk_trait_ref), 0) } GenericPredicate::Projection(projection_pred) => { let ty = projection_pred.ty.to_chalk(db).shifted_in(&Interner); let projection = projection_pred.projection_ty.to_chalk(db).shifted_in(&Interner); let alias = chalk_ir::AliasTy::Projection(projection); make_binders(chalk_ir::WhereClause::AliasEq(chalk_ir::AliasEq { alias, ty }), 0) } GenericPredicate::Error => panic!("tried passing GenericPredicate::Error to Chalk"), } } fn from_chalk( db: &dyn HirDatabase, where_clause: chalk_ir::QuantifiedWhereClause, ) -> GenericPredicate { // we don't produce any where clauses with binders and can't currently deal with them match where_clause .skip_binders() .shifted_out(&Interner) .expect("unexpected bound vars in where clause") { chalk_ir::WhereClause::Implemented(tr) => { GenericPredicate::Implemented(from_chalk(db, tr)) } chalk_ir::WhereClause::AliasEq(projection_eq) => { let projection_ty = from_chalk( db, match projection_eq.alias { chalk_ir::AliasTy::Projection(p) => p, _ => unimplemented!(), }, ); let ty = from_chalk(db, projection_eq.ty); GenericPredicate::Projection(ProjectionPredicate { projection_ty, ty }) } chalk_ir::WhereClause::LifetimeOutlives(_) => { // we shouldn't get these from Chalk panic!("encountered LifetimeOutlives from Chalk") } chalk_ir::WhereClause::TypeOutlives(_) => { // we shouldn't get these from Chalk panic!("encountered TypeOutlives from Chalk") } } } } impl ToChalk for ProjectionTy { type Chalk = chalk_ir::ProjectionTy; fn to_chalk(self, db: &dyn HirDatabase) -> chalk_ir::ProjectionTy { chalk_ir::ProjectionTy { associated_ty_id: TypeAliasAsAssocType(self.associated_ty).to_chalk(db), substitution: self.parameters.to_chalk(db), } } fn from_chalk( db: &dyn HirDatabase, projection_ty: chalk_ir::ProjectionTy, ) -> ProjectionTy { ProjectionTy { associated_ty: from_chalk::( db, projection_ty.associated_ty_id, ) .0, parameters: from_chalk(db, projection_ty.substitution), } } } impl ToChalk for ProjectionPredicate { type Chalk = chalk_ir::AliasEq; fn to_chalk(self, db: &dyn HirDatabase) -> chalk_ir::AliasEq { chalk_ir::AliasEq { alias: chalk_ir::AliasTy::Projection(self.projection_ty.to_chalk(db)), ty: self.ty.to_chalk(db), } } fn from_chalk(_db: &dyn HirDatabase, _normalize: chalk_ir::AliasEq) -> Self { unimplemented!() } } impl ToChalk for Obligation { type Chalk = chalk_ir::DomainGoal; fn to_chalk(self, db: &dyn HirDatabase) -> chalk_ir::DomainGoal { match self { Obligation::Trait(tr) => tr.to_chalk(db).cast(&Interner), Obligation::Projection(pr) => pr.to_chalk(db).cast(&Interner), } } fn from_chalk(_db: &dyn HirDatabase, _goal: chalk_ir::DomainGoal) -> Self { unimplemented!() } } impl ToChalk for Canonical where T: ToChalk, T::Chalk: HasInterner, { type Chalk = chalk_ir::Canonical; fn to_chalk(self, db: &dyn HirDatabase) -> chalk_ir::Canonical { let kinds = self .kinds .iter() .map(|k| match k { TyKind::General => chalk_ir::TyKind::General, TyKind::Integer => chalk_ir::TyKind::Integer, TyKind::Float => chalk_ir::TyKind::Float, }) .map(|tk| { chalk_ir::CanonicalVarKind::new( chalk_ir::VariableKind::Ty(tk), chalk_ir::UniverseIndex::ROOT, ) }); let value = self.value.to_chalk(db); chalk_ir::Canonical { value, binders: chalk_ir::CanonicalVarKinds::from_iter(&Interner, kinds), } } fn from_chalk(db: &dyn HirDatabase, canonical: chalk_ir::Canonical) -> Canonical { let kinds = canonical .binders .iter(&Interner) .map(|k| match k.kind { chalk_ir::VariableKind::Ty(tk) => match tk { chalk_ir::TyKind::General => TyKind::General, chalk_ir::TyKind::Integer => TyKind::Integer, chalk_ir::TyKind::Float => TyKind::Float, }, chalk_ir::VariableKind::Lifetime => panic!("unexpected lifetime from Chalk"), chalk_ir::VariableKind::Const(_) => panic!("unexpected const from Chalk"), }) .collect(); Canonical { kinds, value: from_chalk(db, canonical.value) } } } impl ToChalk for Arc { type Chalk = chalk_ir::Environment; fn to_chalk(self, db: &dyn HirDatabase) -> chalk_ir::Environment { let mut clauses = Vec::new(); for pred in &self.predicates { if pred.is_error() { // for env, we just ignore errors continue; } let program_clause: chalk_ir::ProgramClause = pred.clone().to_chalk(db).cast(&Interner); clauses.push(program_clause.into_from_env_clause(&Interner)); } chalk_ir::Environment::new(&Interner).add_clauses(&Interner, clauses) } fn from_chalk( _db: &dyn HirDatabase, _env: chalk_ir::Environment, ) -> Arc { unimplemented!() } } impl ToChalk for InEnvironment where T::Chalk: chalk_ir::interner::HasInterner, { type Chalk = chalk_ir::InEnvironment; fn to_chalk(self, db: &dyn HirDatabase) -> chalk_ir::InEnvironment { chalk_ir::InEnvironment { environment: self.environment.to_chalk(db), goal: self.value.to_chalk(db), } } fn from_chalk( db: &dyn HirDatabase, in_env: chalk_ir::InEnvironment, ) -> InEnvironment { InEnvironment { environment: from_chalk(db, in_env.environment), value: from_chalk(db, in_env.goal), } } } pub(super) fn make_binders(value: T, num_vars: usize) -> chalk_ir::Binders where T: HasInterner, { chalk_ir::Binders::new( chalk_ir::VariableKinds::from_iter( &Interner, std::iter::repeat(chalk_ir::VariableKind::Ty(chalk_ir::TyKind::General)).take(num_vars), ), value, ) } pub(super) fn convert_where_clauses( db: &dyn HirDatabase, def: GenericDefId, substs: &Substs, ) -> Vec> { let generic_predicates = db.generic_predicates(def); let mut result = Vec::with_capacity(generic_predicates.len()); for pred in generic_predicates.iter() { if pred.value.is_error() { // skip errored predicates completely continue; } result.push(pred.clone().subst(substs).to_chalk(db)); } result } pub(super) fn generic_predicate_to_inline_bound( db: &dyn HirDatabase, pred: &GenericPredicate, self_ty: &Ty, ) -> Option> { // An InlineBound is like a GenericPredicate, except the self type is left out. // We don't have a special type for this, but Chalk does. match pred { GenericPredicate::Implemented(trait_ref) => { if &trait_ref.substs[0] != self_ty { // we can only convert predicates back to type bounds if they // have the expected self type return None; } let args_no_self = trait_ref.substs[1..] .iter() .map(|ty| ty.clone().to_chalk(db).cast(&Interner)) .collect(); let trait_bound = rust_ir::TraitBound { trait_id: trait_ref.trait_.to_chalk(db), args_no_self }; Some(rust_ir::InlineBound::TraitBound(trait_bound)) } GenericPredicate::Projection(proj) => { if &proj.projection_ty.parameters[0] != self_ty { return None; } let trait_ = match proj.projection_ty.associated_ty.lookup(db.upcast()).container { AssocContainerId::TraitId(t) => t, _ => panic!("associated type not in trait"), }; let args_no_self = proj.projection_ty.parameters[1..] .iter() .map(|ty| ty.clone().to_chalk(db).cast(&Interner)) .collect(); let alias_eq_bound = rust_ir::AliasEqBound { value: proj.ty.clone().to_chalk(db), trait_bound: rust_ir::TraitBound { trait_id: trait_.to_chalk(db), args_no_self }, associated_ty_id: TypeAliasAsAssocType(proj.projection_ty.associated_ty) .to_chalk(db), parameters: Vec::new(), // FIXME we don't support generic associated types yet }; Some(rust_ir::InlineBound::AliasEqBound(alias_eq_bound)) } GenericPredicate::Error => None, } }