diff options
Diffstat (limited to 'crates/ra_hir_ty/src/infer/unify.rs')
| -rw-r--r-- | crates/ra_hir_ty/src/infer/unify.rs | 55 |
1 files changed, 40 insertions, 15 deletions
diff --git a/crates/ra_hir_ty/src/infer/unify.rs b/crates/ra_hir_ty/src/infer/unify.rs index 269495ca0..2e895d911 100644 --- a/crates/ra_hir_ty/src/infer/unify.rs +++ b/crates/ra_hir_ty/src/infer/unify.rs | |||
| @@ -9,7 +9,7 @@ use test_utils::mark; | |||
| 9 | use super::{InferenceContext, Obligation}; | 9 | use super::{InferenceContext, Obligation}; |
| 10 | use crate::{ | 10 | use crate::{ |
| 11 | BoundVar, Canonical, DebruijnIndex, GenericPredicate, InEnvironment, InferTy, Substs, Ty, | 11 | BoundVar, Canonical, DebruijnIndex, GenericPredicate, InEnvironment, InferTy, Substs, Ty, |
| 12 | TypeCtor, TypeWalk, | 12 | TyKind, TypeCtor, TypeWalk, |
| 13 | }; | 13 | }; |
| 14 | 14 | ||
| 15 | impl<'a> InferenceContext<'a> { | 15 | impl<'a> InferenceContext<'a> { |
| @@ -86,10 +86,20 @@ where | |||
| 86 | } | 86 | } |
| 87 | 87 | ||
| 88 | fn into_canonicalized<T>(self, result: T) -> Canonicalized<T> { | 88 | fn into_canonicalized<T>(self, result: T) -> Canonicalized<T> { |
| 89 | Canonicalized { | 89 | let kinds = self |
| 90 | value: Canonical { value: result, num_vars: self.free_vars.len() }, | 90 | .free_vars |
| 91 | free_vars: self.free_vars, | 91 | .iter() |
| 92 | } | 92 | .map(|v| match v { |
| 93 | // mapping MaybeNeverTypeVar to the same kind as general ones | ||
| 94 | // should be fine, because as opposed to int or float type vars, | ||
| 95 | // they don't restrict what kind of type can go into them, they | ||
| 96 | // just affect fallback. | ||
| 97 | InferTy::TypeVar(_) | InferTy::MaybeNeverTypeVar(_) => TyKind::General, | ||
| 98 | InferTy::IntVar(_) => TyKind::Integer, | ||
| 99 | InferTy::FloatVar(_) => TyKind::Float, | ||
| 100 | }) | ||
| 101 | .collect(); | ||
| 102 | Canonicalized { value: Canonical { value: result, kinds }, free_vars: self.free_vars } | ||
| 93 | } | 103 | } |
| 94 | 104 | ||
| 95 | pub(crate) fn canonicalize_ty(mut self, ty: Ty) -> Canonicalized<Ty> { | 105 | pub(crate) fn canonicalize_ty(mut self, ty: Ty) -> Canonicalized<Ty> { |
| @@ -131,26 +141,41 @@ impl<T> Canonicalized<T> { | |||
| 131 | ty | 141 | ty |
| 132 | } | 142 | } |
| 133 | 143 | ||
| 134 | pub fn apply_solution(&self, ctx: &mut InferenceContext<'_>, solution: Canonical<Vec<Ty>>) { | 144 | pub fn apply_solution(&self, ctx: &mut InferenceContext<'_>, solution: Canonical<Substs>) { |
| 135 | // the solution may contain new variables, which we need to convert to new inference vars | 145 | // the solution may contain new variables, which we need to convert to new inference vars |
| 136 | let new_vars = Substs((0..solution.num_vars).map(|_| ctx.table.new_type_var()).collect()); | 146 | let new_vars = Substs( |
| 147 | solution | ||
| 148 | .kinds | ||
| 149 | .iter() | ||
| 150 | .map(|k| match k { | ||
| 151 | TyKind::General => ctx.table.new_type_var(), | ||
| 152 | TyKind::Integer => ctx.table.new_integer_var(), | ||
| 153 | TyKind::Float => ctx.table.new_float_var(), | ||
| 154 | }) | ||
| 155 | .collect(), | ||
| 156 | ); | ||
| 137 | for (i, ty) in solution.value.into_iter().enumerate() { | 157 | for (i, ty) in solution.value.into_iter().enumerate() { |
| 138 | let var = self.free_vars[i]; | 158 | let var = self.free_vars[i]; |
| 139 | // eagerly replace projections in the type; we may be getting types | 159 | // eagerly replace projections in the type; we may be getting types |
| 140 | // e.g. from where clauses where this hasn't happened yet | 160 | // e.g. from where clauses where this hasn't happened yet |
| 141 | let ty = ctx.normalize_associated_types_in(ty.subst_bound_vars(&new_vars)); | 161 | let ty = ctx.normalize_associated_types_in(ty.clone().subst_bound_vars(&new_vars)); |
| 142 | ctx.table.unify(&Ty::Infer(var), &ty); | 162 | ctx.table.unify(&Ty::Infer(var), &ty); |
| 143 | } | 163 | } |
| 144 | } | 164 | } |
| 145 | } | 165 | } |
| 146 | 166 | ||
| 147 | pub fn unify(ty1: &Canonical<Ty>, ty2: &Canonical<Ty>) -> Option<Substs> { | 167 | pub fn unify(tys: &Canonical<(Ty, Ty)>) -> Option<Substs> { |
| 148 | let mut table = InferenceTable::new(); | 168 | let mut table = InferenceTable::new(); |
| 149 | let num_vars = ty1.num_vars.max(ty2.num_vars); | 169 | let vars = Substs( |
| 150 | let vars = | 170 | tys.kinds |
| 151 | Substs::builder(num_vars).fill(std::iter::repeat_with(|| table.new_type_var())).build(); | 171 | .iter() |
| 152 | let ty1_with_vars = ty1.value.clone().subst_bound_vars(&vars); | 172 | // we always use type vars here because we want everything to |
| 153 | let ty2_with_vars = ty2.value.clone().subst_bound_vars(&vars); | 173 | // fallback to Unknown in the end (kind of hacky, as below) |
| 174 | .map(|_| table.new_type_var()) | ||
| 175 | .collect(), | ||
| 176 | ); | ||
| 177 | let ty1_with_vars = tys.value.0.clone().subst_bound_vars(&vars); | ||
| 178 | let ty2_with_vars = tys.value.1.clone().subst_bound_vars(&vars); | ||
| 154 | if !table.unify(&ty1_with_vars, &ty2_with_vars) { | 179 | if !table.unify(&ty1_with_vars, &ty2_with_vars) { |
| 155 | return None; | 180 | return None; |
| 156 | } | 181 | } |
| @@ -162,7 +187,7 @@ pub fn unify(ty1: &Canonical<Ty>, ty2: &Canonical<Ty>) -> Option<Substs> { | |||
| 162 | } | 187 | } |
| 163 | } | 188 | } |
| 164 | Some( | 189 | Some( |
| 165 | Substs::builder(ty1.num_vars) | 190 | Substs::builder(tys.kinds.len()) |
| 166 | .fill(vars.iter().map(|v| table.resolve_ty_completely(v.clone()))) | 191 | .fill(vars.iter().map(|v| table.resolve_ty_completely(v.clone()))) |
| 167 | .build(), | 192 | .build(), |
| 168 | ) | 193 | ) |