2019-05-01 10:06:11 -05:00
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//! Trait solving using Chalk.
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2020-03-06 16:04:14 -06:00
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use std::{panic, sync::Arc};
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2019-03-31 13:02:16 -05:00
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2019-12-21 07:46:15 -06:00
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use chalk_ir::cast::Cast;
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2019-11-27 03:02:54 -06:00
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use hir_def::{expr::ExprId, DefWithBodyId, ImplId, TraitId, TypeAliasId};
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2020-03-06 16:04:14 -06:00
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use ra_db::{impl_intern_key, salsa, CrateId};
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2019-05-21 08:04:17 -05:00
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use ra_prof::profile;
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2019-07-04 15:05:17 -05:00
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use rustc_hash::FxHashSet;
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2019-03-31 13:02:16 -05:00
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2019-11-27 03:47:18 -06:00
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use crate::db::HirDatabase;
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2019-11-26 09:02:50 -06:00
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2019-09-03 06:10:00 -05:00
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use super::{Canonical, GenericPredicate, HirDisplay, ProjectionTy, TraitRef, Ty, TypeWalk};
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2019-05-01 10:06:11 -05:00
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2020-02-24 14:36:57 -06:00
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use self::chalk::{from_chalk, Interner, ToChalk};
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2019-05-01 10:06:11 -05:00
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2019-06-26 04:54:13 -05:00
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pub(crate) mod chalk;
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2019-12-03 05:16:39 -06:00
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mod builtin;
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2019-03-31 13:02:16 -05:00
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2019-05-07 10:35:45 -05:00
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/// This controls the maximum size of types Chalk considers. If we set this too
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/// high, we can run into slow edge cases; if we set it too low, Chalk won't
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/// find some solutions.
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2020-01-27 14:38:20 -06:00
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const CHALK_SOLVER_MAX_SIZE: usize = 10;
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2020-01-17 15:12:15 -06:00
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/// This controls how much 'time' we give the Chalk solver before giving up.
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const CHALK_SOLVER_FUEL: i32 = 100;
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2019-05-07 10:35:45 -05:00
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2019-04-20 05:34:36 -05:00
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#[derive(Debug, Copy, Clone)]
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struct ChalkContext<'a, DB> {
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db: &'a DB,
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2019-11-27 00:42:55 -06:00
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krate: CrateId,
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2019-04-20 05:34:36 -05:00
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}
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2019-03-31 13:02:16 -05:00
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2020-02-24 14:36:57 -06:00
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fn create_chalk_solver() -> chalk_solve::Solver<Interner> {
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2020-01-17 15:12:15 -06:00
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let solver_choice =
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chalk_solve::SolverChoice::SLG { max_size: CHALK_SOLVER_MAX_SIZE, expected_answers: None };
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2020-01-13 10:15:50 -06:00
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solver_choice.into_solver()
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2019-04-20 05:34:36 -05:00
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}
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/// Collects impls for the given trait in the whole dependency tree of `krate`.
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2019-05-21 04:44:08 -05:00
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pub(crate) fn impls_for_trait_query(
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2019-04-20 05:34:36 -05:00
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db: &impl HirDatabase,
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2019-11-26 13:26:47 -06:00
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krate: CrateId,
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trait_: TraitId,
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2019-11-27 03:02:54 -06:00
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) -> Arc<[ImplId]> {
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2019-05-07 05:09:57 -05:00
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let mut impls = FxHashSet::default();
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2019-04-20 05:34:36 -05:00
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// We call the query recursively here. On the one hand, this means we can
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// reuse results from queries for different crates; on the other hand, this
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// will only ever get called for a few crates near the root of the tree (the
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// ones the user is editing), so this may actually be a waste of memory. I'm
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// doing it like this mainly for simplicity for now.
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2020-03-09 04:26:46 -05:00
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for dep in &db.crate_graph().crate_data(&krate).dependencies {
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2019-11-26 13:26:47 -06:00
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impls.extend(db.impls_for_trait(dep.crate_id, trait_).iter());
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2019-04-20 05:34:36 -05:00
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}
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2020-02-29 14:24:40 -06:00
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let crate_impl_defs = db.impls_in_crate(krate);
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impls.extend(crate_impl_defs.lookup_impl_defs_for_trait(trait_));
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2019-10-13 23:06:05 -05:00
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impls.into_iter().collect()
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2019-04-20 05:34:36 -05:00
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}
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2019-06-29 10:40:00 -05:00
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/// A set of clauses that we assume to be true. E.g. if we are inside this function:
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/// ```rust
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/// fn foo<T: Default>(t: T) {}
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/// ```
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/// we assume that `T: Default`.
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2019-06-29 12:14:52 -05:00
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#[derive(Clone, Debug, PartialEq, Eq, Hash)]
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2019-07-09 14:34:23 -05:00
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pub struct TraitEnvironment {
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2019-06-29 12:14:52 -05:00
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pub predicates: Vec<GenericPredicate>,
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}
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2019-06-29 10:40:00 -05:00
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2019-09-07 09:24:26 -05:00
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impl TraitEnvironment {
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/// Returns trait refs with the given self type which are supposed to hold
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/// in this trait env. E.g. if we are in `foo<T: SomeTrait>()`, this will
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/// find that `T: SomeTrait` if we call it for `T`.
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pub(crate) fn trait_predicates_for_self_ty<'a>(
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&'a self,
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ty: &'a Ty,
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) -> impl Iterator<Item = &'a TraitRef> + 'a {
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self.predicates.iter().filter_map(move |pred| match pred {
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GenericPredicate::Implemented(tr) if tr.self_ty() == ty => Some(tr),
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_ => None,
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})
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}
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}
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2019-06-29 10:40:00 -05:00
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/// Something (usually a goal), along with an environment.
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2019-06-29 12:14:52 -05:00
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#[derive(Clone, Debug, PartialEq, Eq, Hash)]
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pub struct InEnvironment<T> {
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pub environment: Arc<TraitEnvironment>,
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2019-06-29 10:40:00 -05:00
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pub value: T,
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}
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impl<T> InEnvironment<T> {
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2019-07-09 14:34:23 -05:00
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pub fn new(environment: Arc<TraitEnvironment>, value: T) -> InEnvironment<T> {
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2019-06-29 10:40:00 -05:00
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InEnvironment { environment, value }
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}
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}
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2019-03-31 13:02:16 -05:00
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/// Something that needs to be proven (by Chalk) during type checking, e.g. that
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/// a certain type implements a certain trait. Proving the Obligation might
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/// result in additional information about inference variables.
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2019-07-08 14:43:52 -05:00
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#[derive(Clone, Debug, PartialEq, Eq, Hash)]
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2019-03-31 13:02:16 -05:00
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pub enum Obligation {
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/// Prove that a certain type implements a trait (the type is the `Self` type
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/// parameter to the `TraitRef`).
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Trait(TraitRef),
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2019-07-07 02:31:09 -05:00
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Projection(ProjectionPredicate),
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2019-05-12 10:53:44 -05:00
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}
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2019-07-06 09:41:04 -05:00
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impl Obligation {
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pub fn from_predicate(predicate: GenericPredicate) -> Option<Obligation> {
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match predicate {
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GenericPredicate::Implemented(trait_ref) => Some(Obligation::Trait(trait_ref)),
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2019-08-23 10:19:37 -05:00
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GenericPredicate::Projection(projection_pred) => {
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Some(Obligation::Projection(projection_pred))
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}
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2019-07-06 09:41:04 -05:00
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GenericPredicate::Error => None,
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}
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}
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}
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2019-05-12 10:53:44 -05:00
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#[derive(Clone, Debug, PartialEq, Eq, Hash)]
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pub struct ProjectionPredicate {
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2019-05-12 11:33:47 -05:00
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pub projection_ty: ProjectionTy,
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pub ty: Ty,
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2019-03-31 13:02:16 -05:00
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}
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2019-09-03 06:10:00 -05:00
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impl TypeWalk for ProjectionPredicate {
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fn walk(&self, f: &mut impl FnMut(&Ty)) {
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2019-08-23 10:19:37 -05:00
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self.projection_ty.walk(f);
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self.ty.walk(f);
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}
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2019-11-16 05:53:13 -06:00
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fn walk_mut_binders(&mut self, f: &mut impl FnMut(&mut Ty, usize), binders: usize) {
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self.projection_ty.walk_mut_binders(f, binders);
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self.ty.walk_mut_binders(f, binders);
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2019-08-23 10:19:37 -05:00
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}
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}
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2019-07-08 14:43:52 -05:00
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/// Solve a trait goal using Chalk.
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2019-07-09 14:34:23 -05:00
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pub(crate) fn trait_solve_query(
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2019-05-21 12:57:36 -05:00
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db: &impl HirDatabase,
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2019-11-27 00:42:55 -06:00
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krate: CrateId,
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2019-08-10 05:13:39 -05:00
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goal: Canonical<InEnvironment<Obligation>>,
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2019-04-20 05:34:36 -05:00
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) -> Option<Solution> {
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2020-03-06 10:23:08 -06:00
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let _p = profile("trait_solve_query").detail(|| match &goal.value.value {
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Obligation::Trait(it) => db.trait_data(it.trait_).name.to_string(),
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Obligation::Projection(_) => "projection".to_string(),
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});
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2020-01-13 10:15:50 -06:00
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log::debug!("trait_solve_query({})", goal.value.value.display(db));
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2019-09-24 12:04:53 -05:00
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if let Obligation::Projection(pred) = &goal.value.value {
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if let Ty::Bound(_) = &pred.projection_ty.parameters[0] {
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// Hack: don't ask Chalk to normalize with an unknown self type, it'll say that's impossible
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return Some(Solution::Ambig(Guidance::Unknown));
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}
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}
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2019-08-10 05:13:39 -05:00
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let canonical = goal.to_chalk(db).cast();
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2019-11-16 05:53:13 -06:00
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2019-05-21 12:57:36 -05:00
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// We currently don't deal with universes (I think / hope they're not yet
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// relevant for our use cases?)
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let u_canonical = chalk_ir::UCanonical { canonical, universes: 1 };
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2020-03-06 16:04:14 -06:00
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let solution = solve(db, krate, &u_canonical);
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2019-05-21 12:57:36 -05:00
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solution.map(|solution| solution_from_chalk(db, solution))
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2019-03-31 13:02:16 -05:00
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}
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2020-03-06 16:04:14 -06:00
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fn solve(
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db: &impl HirDatabase,
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krate: CrateId,
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goal: &chalk_ir::UCanonical<chalk_ir::InEnvironment<chalk_ir::Goal<Interner>>>,
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) -> Option<chalk_solve::Solution<Interner>> {
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let context = ChalkContext { db, krate };
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log::debug!("solve goal: {:?}", goal);
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let mut solver = create_chalk_solver();
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let fuel = std::cell::Cell::new(CHALK_SOLVER_FUEL);
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let solution = solver.solve_limited(&context, goal, || {
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context.db.check_canceled();
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let remaining = fuel.get();
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fuel.set(remaining - 1);
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if remaining == 0 {
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log::debug!("fuel exhausted");
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}
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remaining > 0
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});
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log::debug!("solve({:?}) => {:?}", goal, solution);
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solution
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}
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2019-11-16 06:21:51 -06:00
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fn solution_from_chalk(
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db: &impl HirDatabase,
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2020-02-24 14:36:57 -06:00
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solution: chalk_solve::Solution<Interner>,
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2019-11-16 06:21:51 -06:00
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) -> Solution {
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2020-02-24 14:36:57 -06:00
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let convert_subst = |subst: chalk_ir::Canonical<chalk_ir::Substitution<Interner>>| {
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2019-04-20 05:34:36 -05:00
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let value = subst
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.value
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.into_iter()
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2020-02-18 07:32:19 -06:00
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.map(|p| match p.ty() {
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Some(ty) => from_chalk(db, ty.clone()),
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None => unimplemented!(),
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2019-04-20 05:34:36 -05:00
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})
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.collect();
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let result = Canonical { value, num_vars: subst.binders.len() };
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SolutionVariables(result)
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};
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match solution {
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2019-05-01 09:37:52 -05:00
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chalk_solve::Solution::Unique(constr_subst) => {
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2019-04-20 05:34:36 -05:00
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let subst = chalk_ir::Canonical {
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value: constr_subst.value.subst,
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binders: constr_subst.binders,
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};
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2019-05-01 09:37:52 -05:00
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Solution::Unique(convert_subst(subst))
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2019-04-20 05:34:36 -05:00
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}
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2019-05-01 09:37:52 -05:00
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chalk_solve::Solution::Ambig(chalk_solve::Guidance::Definite(subst)) => {
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Solution::Ambig(Guidance::Definite(convert_subst(subst)))
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2019-04-20 05:34:36 -05:00
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}
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2019-05-01 09:37:52 -05:00
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chalk_solve::Solution::Ambig(chalk_solve::Guidance::Suggested(subst)) => {
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Solution::Ambig(Guidance::Suggested(convert_subst(subst)))
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2019-03-31 13:02:16 -05:00
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}
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2019-05-01 09:37:52 -05:00
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chalk_solve::Solution::Ambig(chalk_solve::Guidance::Unknown) => {
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Solution::Ambig(Guidance::Unknown)
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2019-04-20 05:34:36 -05:00
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}
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2019-03-31 13:02:16 -05:00
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}
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2019-04-20 05:34:36 -05:00
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}
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#[derive(Clone, Debug, PartialEq, Eq)]
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2019-05-05 09:04:31 -05:00
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pub struct SolutionVariables(pub Canonical<Vec<Ty>>);
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2019-04-20 05:34:36 -05:00
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#[derive(Clone, Debug, PartialEq, Eq)]
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/// A (possible) solution for a proposed goal.
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2019-05-05 09:04:31 -05:00
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pub enum Solution {
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2019-04-20 05:34:36 -05:00
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/// The goal indeed holds, and there is a unique value for all existential
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/// variables.
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Unique(SolutionVariables),
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/// The goal may be provable in multiple ways, but regardless we may have some guidance
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/// for type inference. In this case, we don't return any lifetime
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/// constraints, since we have not "committed" to any particular solution
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/// yet.
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Ambig(Guidance),
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}
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#[derive(Clone, Debug, PartialEq, Eq)]
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/// When a goal holds ambiguously (e.g., because there are multiple possible
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/// solutions), we issue a set of *guidance* back to type inference.
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2019-05-05 09:04:31 -05:00
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pub enum Guidance {
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2019-04-20 05:34:36 -05:00
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/// The existential variables *must* have the given values if the goal is
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/// ever to hold, but that alone isn't enough to guarantee the goal will
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/// actually hold.
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Definite(SolutionVariables),
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/// There are multiple plausible values for the existentials, but the ones
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/// here are suggested as the preferred choice heuristically. These should
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/// be used for inference fallback only.
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Suggested(SolutionVariables),
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/// There's no useful information to feed back to type inference
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Unknown,
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2019-03-31 13:02:16 -05:00
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}
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2019-09-09 15:10:58 -05:00
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#[derive(Debug, Copy, Clone, PartialEq, Eq, Hash)]
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pub enum FnTrait {
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FnOnce,
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FnMut,
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Fn,
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}
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impl FnTrait {
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fn lang_item_name(self) -> &'static str {
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match self {
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FnTrait::FnOnce => "fn_once",
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FnTrait::FnMut => "fn_mut",
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FnTrait::Fn => "fn",
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}
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}
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}
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2019-12-21 08:00:44 -06:00
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#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
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2019-09-09 15:10:58 -05:00
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pub struct ClosureFnTraitImplData {
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2019-11-25 09:31:48 -06:00
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def: DefWithBodyId,
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2019-09-09 15:10:58 -05:00
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expr: ExprId,
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fn_trait: FnTrait,
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}
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2020-02-21 12:05:27 -06:00
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#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
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pub struct UnsizeToSuperTraitObjectData {
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trait_: TraitId,
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super_trait: TraitId,
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}
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2019-09-09 15:10:58 -05:00
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/// An impl. Usually this comes from an impl block, but some built-in types get
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/// synthetic impls.
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2019-12-21 08:00:44 -06:00
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#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
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2019-09-09 15:10:58 -05:00
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pub enum Impl {
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/// A normal impl from an impl block.
|
2020-02-29 14:24:40 -06:00
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ImplDef(ImplId),
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2019-09-09 15:10:58 -05:00
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/// Closure types implement the Fn traits synthetically.
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ClosureFnTraitImpl(ClosureFnTraitImplData),
|
2020-02-21 11:24:18 -06:00
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|
/// [T; n]: Unsize<[T]>
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|
UnsizeArray,
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2020-02-21 12:05:27 -06:00
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|
/// T: Unsize<dyn Trait> where T: Trait
|
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|
|
UnsizeToTraitObject(TraitId),
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|
|
|
/// dyn Trait: Unsize<dyn SuperTrait> if Trait: SuperTrait
|
|
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|
UnsizeToSuperTraitObject(UnsizeToSuperTraitObjectData),
|
2019-09-09 15:10:58 -05:00
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|
}
|
2019-11-24 05:25:48 -06:00
|
|
|
/// This exists just for Chalk, because our ImplIds are only unique per module.
|
|
|
|
#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
|
|
|
|
pub struct GlobalImplId(salsa::InternId);
|
|
|
|
impl_intern_key!(GlobalImplId);
|
2019-11-15 13:32:58 -06:00
|
|
|
|
|
|
|
/// An associated type value. Usually this comes from a `type` declaration
|
|
|
|
/// inside an impl block, but for built-in impls we have to synthesize it.
|
|
|
|
/// (We only need this because Chalk wants a unique ID for each of these.)
|
|
|
|
#[derive(Debug, Clone, PartialEq, Eq, Hash)]
|
|
|
|
pub enum AssocTyValue {
|
|
|
|
/// A normal assoc type value from an impl block.
|
2019-11-27 02:40:10 -06:00
|
|
|
TypeAlias(TypeAliasId),
|
2019-11-15 13:32:58 -06:00
|
|
|
/// The output type of the Fn trait implementation.
|
|
|
|
ClosureFnTraitImplOutput(ClosureFnTraitImplData),
|
|
|
|
}
|
2019-11-24 05:25:48 -06:00
|
|
|
/// This exists just for Chalk, because it needs a unique ID for each associated
|
|
|
|
/// type value in an impl (even synthetic ones).
|
|
|
|
#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
|
|
|
|
pub struct AssocTyValueId(salsa::InternId);
|
|
|
|
impl_intern_key!(AssocTyValueId);
|