2019-01-08 23:47:12 +00:00
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//! In certain situations, rust automatically inserts derefs as necessary: for
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2019-01-06 18:51:42 +00:00
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//! example, field accesses `foo.bar` still work when `foo` is actually a
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//! reference to a type with the field `bar`. This is an approximation of the
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//! logic in rustc (which lives in librustc_typeck/check/autoderef.rs).
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2019-04-13 14:43:49 +00:00
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use std::iter::successors;
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2019-01-06 18:51:42 +00:00
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2020-08-13 14:25:38 +00:00
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use base_db::CrateId;
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2021-04-08 21:34:05 +00:00
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use chalk_ir::{cast::Cast, fold::Fold, interner::HasInterner, VariableKind};
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2019-11-25 10:10:26 +00:00
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use hir_def::lang_item::LangItemTarget;
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2019-12-13 21:01:06 +00:00
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use hir_expand::name::name;
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2021-07-10 20:49:17 +00:00
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use limit::Limit;
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2021-08-15 12:46:13 +00:00
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use tracing::{info, warn};
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2019-01-06 18:51:42 +00:00
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2019-12-07 10:50:36 +00:00
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use crate::{
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2021-04-08 21:34:05 +00:00
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db::HirDatabase, static_lifetime, AliasEq, AliasTy, BoundVar, Canonical, CanonicalVarKinds,
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2021-08-09 09:30:05 +00:00
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ConstrainedSubst, DebruijnIndex, Environment, Guidance, InEnvironment, Interner,
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ProjectionTyExt, Solution, Substitution, Ty, TyBuilder, TyKind,
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2019-11-25 09:45:45 +00:00
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};
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2019-05-12 16:33:47 +00:00
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2021-07-10 20:49:17 +00:00
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const AUTODEREF_RECURSION_LIMIT: Limit = Limit::new(10);
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2021-07-09 17:12:56 +00:00
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pub(crate) enum AutoderefKind {
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Builtin,
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Overloaded,
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}
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pub(crate) struct Autoderef<'db> {
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db: &'db dyn HirDatabase,
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ty: Canonical<Ty>,
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at_start: bool,
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krate: Option<CrateId>,
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environment: Environment,
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steps: Vec<(AutoderefKind, Ty)>,
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}
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impl<'db> Autoderef<'db> {
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pub(crate) fn new(
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db: &'db dyn HirDatabase,
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krate: Option<CrateId>,
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ty: InEnvironment<Canonical<Ty>>,
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) -> Self {
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let InEnvironment { goal: ty, environment } = ty;
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Autoderef { db, ty, at_start: true, environment, krate, steps: Vec::new() }
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}
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pub(crate) fn step_count(&self) -> usize {
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self.steps.len()
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}
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pub(crate) fn steps(&self) -> &[(AutoderefKind, chalk_ir::Ty<Interner>)] {
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&self.steps
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}
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pub(crate) fn final_ty(&self) -> Ty {
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self.ty.value.clone()
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}
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}
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impl Iterator for Autoderef<'_> {
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type Item = (Canonical<Ty>, usize);
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fn next(&mut self) -> Option<Self::Item> {
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if self.at_start {
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self.at_start = false;
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return Some((self.ty.clone(), 0));
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}
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2021-07-10 20:49:17 +00:00
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if AUTODEREF_RECURSION_LIMIT.check(self.steps.len() + 1).is_err() {
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2021-07-09 17:12:56 +00:00
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return None;
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}
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let (kind, new_ty) = if let Some(derefed) = builtin_deref(&self.ty.value) {
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(AutoderefKind::Builtin, Canonical { value: derefed, binders: self.ty.binders.clone() })
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} else {
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(
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AutoderefKind::Overloaded,
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deref_by_trait(
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self.db,
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self.krate?,
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InEnvironment { goal: &self.ty, environment: self.environment.clone() },
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)?,
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)
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};
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self.steps.push((kind, self.ty.value.clone()));
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self.ty = new_ty;
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Some((self.ty.clone(), self.step_count()))
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}
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}
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// FIXME: replace uses of this with Autoderef above
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2019-11-27 14:46:02 +00:00
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pub fn autoderef<'a>(
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2020-03-13 15:05:46 +00:00
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db: &'a dyn HirDatabase,
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2019-11-25 10:10:26 +00:00
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krate: Option<CrateId>,
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ty: InEnvironment<Canonical<Ty>>,
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2019-05-12 16:33:47 +00:00
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) -> impl Iterator<Item = Canonical<Ty>> + 'a {
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2021-03-21 19:19:07 +00:00
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let InEnvironment { goal: ty, environment } = ty;
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2019-11-25 10:10:26 +00:00
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successors(Some(ty), move |ty| {
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2021-03-21 19:19:07 +00:00
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deref(db, krate?, InEnvironment { goal: ty, environment: environment.clone() })
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2019-11-25 10:10:26 +00:00
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})
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2021-07-10 20:49:17 +00:00
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.take(AUTODEREF_RECURSION_LIMIT.inner())
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2019-05-12 16:33:47 +00:00
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}
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pub(crate) fn deref(
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2020-03-13 15:05:46 +00:00
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db: &dyn HirDatabase,
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2019-11-25 10:10:26 +00:00
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krate: CrateId,
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ty: InEnvironment<&Canonical<Ty>>,
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2019-05-12 16:33:47 +00:00
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) -> Option<Canonical<Ty>> {
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2021-04-14 14:15:37 +00:00
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let _p = profile::span("deref");
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2021-04-07 11:06:48 +00:00
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if let Some(derefed) = builtin_deref(&ty.goal.value) {
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2021-03-21 19:19:07 +00:00
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Some(Canonical { value: derefed, binders: ty.goal.binders.clone() })
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2019-05-12 16:33:47 +00:00
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} else {
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2019-11-25 10:10:26 +00:00
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deref_by_trait(db, krate, ty)
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2019-01-06 18:51:42 +00:00
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}
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2019-05-12 16:33:47 +00:00
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}
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2021-04-07 11:06:48 +00:00
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fn builtin_deref(ty: &Ty) -> Option<Ty> {
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match ty.kind(&Interner) {
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TyKind::Ref(.., ty) => Some(ty.clone()),
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TyKind::Raw(.., ty) => Some(ty.clone()),
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_ => None,
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}
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}
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2019-05-12 16:33:47 +00:00
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fn deref_by_trait(
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2020-03-13 15:05:46 +00:00
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db: &dyn HirDatabase,
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2019-11-25 09:45:45 +00:00
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krate: CrateId,
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ty: InEnvironment<&Canonical<Ty>>,
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2019-05-12 16:33:47 +00:00
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) -> Option<Canonical<Ty>> {
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2021-04-14 13:59:08 +00:00
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let _p = profile::span("deref_by_trait");
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2019-12-20 20:14:30 +00:00
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let deref_trait = match db.lang_item(krate, "deref".into())? {
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2019-11-26 14:21:29 +00:00
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LangItemTarget::TraitId(it) => it,
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2019-05-12 16:33:47 +00:00
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_ => return None,
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};
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2019-12-13 21:01:06 +00:00
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let target = db.trait_data(deref_trait).associated_type_by_name(&name![Target])?;
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2019-05-12 16:33:47 +00:00
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2021-04-03 19:56:18 +00:00
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let projection = {
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let b = TyBuilder::assoc_type_projection(db, target);
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if b.remaining() != 1 {
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// the Target type + Deref trait should only have one generic parameter,
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// namely Deref's Self type
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return None;
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}
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b.push(ty.goal.value.clone()).build()
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};
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2019-06-15 16:33:30 +00:00
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2020-04-05 16:24:18 +00:00
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// FIXME make the Canonical / bound var handling nicer
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2019-05-12 16:33:47 +00:00
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2020-04-10 15:44:43 +00:00
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// Check that the type implements Deref at all
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2021-04-03 19:56:18 +00:00
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let trait_ref = projection.trait_ref(db);
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2020-06-28 19:17:27 +00:00
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let implements_goal = Canonical {
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2021-03-21 19:19:07 +00:00
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binders: ty.goal.binders.clone(),
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2020-04-10 15:44:43 +00:00
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value: InEnvironment {
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2021-03-21 19:19:07 +00:00
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goal: trait_ref.cast(&Interner),
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2020-04-10 15:44:43 +00:00
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environment: ty.environment.clone(),
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},
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};
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2021-04-14 16:11:17 +00:00
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if db.trait_solve(krate, implements_goal).is_none() {
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2020-04-10 15:44:43 +00:00
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return None;
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}
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// Now do the assoc type projection
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2021-04-03 19:56:18 +00:00
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let alias_eq = AliasEq {
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alias: AliasTy::Projection(projection),
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2021-03-21 19:05:38 +00:00
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ty: TyKind::BoundVar(BoundVar::new(
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DebruijnIndex::INNERMOST,
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2021-03-21 19:19:07 +00:00
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ty.goal.binders.len(&Interner),
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2021-03-21 19:05:38 +00:00
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))
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.intern(&Interner),
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2019-05-12 16:33:47 +00:00
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};
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2021-04-03 19:56:18 +00:00
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let in_env = InEnvironment { goal: alias_eq.cast(&Interner), environment: ty.environment };
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2019-07-07 16:14:56 +00:00
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2021-03-21 19:05:38 +00:00
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let canonical = Canonical {
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value: in_env,
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binders: CanonicalVarKinds::from_iter(
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&Interner,
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2021-03-21 19:19:07 +00:00
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ty.goal.binders.iter(&Interner).cloned().chain(Some(chalk_ir::WithKind::new(
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2021-04-08 21:34:05 +00:00
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VariableKind::Ty(chalk_ir::TyVariableKind::General),
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2021-03-21 19:05:38 +00:00
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chalk_ir::UniverseIndex::ROOT,
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))),
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),
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};
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2019-05-12 16:33:47 +00:00
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2019-12-20 20:14:30 +00:00
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let solution = db.trait_solve(krate, canonical)?;
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2019-01-06 18:51:42 +00:00
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2019-05-12 16:33:47 +00:00
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match &solution {
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2021-08-09 09:30:05 +00:00
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Solution::Unique(Canonical { value: ConstrainedSubst { subst, .. }, binders })
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| Solution::Ambig(Guidance::Definite(Canonical { value: subst, binders })) => {
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2019-06-15 16:20:59 +00:00
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// FIXME: vars may contain solutions for any inference variables
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// that happened to be inside ty. To correctly handle these, we
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// would have to pass the solution up to the inference context, but
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// that requires a larger refactoring (especially if the deref
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// happens during method resolution). So for the moment, we just
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// check that we're not in the situation we're we would actually
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// need to handle the values of the additional variables, i.e.
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// they're just being 'passed through'. In the 'standard' case where
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// we have `impl<T> Deref for Foo<T> { Target = T }`, that should be
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// the case.
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2020-04-10 15:44:43 +00:00
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// FIXME: if the trait solver decides to truncate the type, these
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// assumptions will be broken. We would need to properly introduce
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// new variables in that case
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2021-08-09 09:30:05 +00:00
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for i in 1..binders.len(&Interner) {
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if subst.at(&Interner, i - 1).assert_ty_ref(&Interner).kind(&Interner)
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2021-03-13 13:44:51 +00:00
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!= &TyKind::BoundVar(BoundVar::new(DebruijnIndex::INNERMOST, i - 1))
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2020-04-05 16:24:18 +00:00
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{
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2021-03-21 19:19:07 +00:00
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warn!("complex solution for derefing {:?}: {:?}, ignoring", ty.goal, solution);
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2019-06-15 16:20:59 +00:00
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return None;
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}
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}
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2021-04-08 21:34:05 +00:00
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// FIXME: we remove lifetime variables here since they can confuse
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// the method resolution code later
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Some(fixup_lifetime_variables(Canonical {
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2021-08-09 09:30:05 +00:00
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value: subst
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.at(&Interner, subst.len(&Interner) - 1)
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2021-04-01 19:04:02 +00:00
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.assert_ty_ref(&Interner)
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.clone(),
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2021-08-09 09:30:05 +00:00
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binders: binders.clone(),
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2021-04-08 21:34:05 +00:00
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}))
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2019-05-12 16:33:47 +00:00
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}
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Solution::Ambig(_) => {
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2021-03-21 19:19:07 +00:00
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info!("Ambiguous solution for derefing {:?}: {:?}", ty.goal, solution);
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2019-05-12 16:33:47 +00:00
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None
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}
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2019-01-06 18:51:42 +00:00
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}
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}
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2021-04-08 21:34:05 +00:00
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fn fixup_lifetime_variables<T: Fold<Interner, Result = T> + HasInterner<Interner = Interner>>(
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c: Canonical<T>,
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) -> Canonical<T> {
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// Removes lifetime variables from the Canonical, replacing them by static lifetimes.
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let mut i = 0;
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let subst = Substitution::from_iter(
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&Interner,
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c.binders.iter(&Interner).map(|vk| match vk.kind {
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VariableKind::Ty(_) => {
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let index = i;
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i += 1;
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BoundVar::new(DebruijnIndex::INNERMOST, index).to_ty(&Interner).cast(&Interner)
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}
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VariableKind::Lifetime => static_lifetime().cast(&Interner),
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VariableKind::Const(_) => unimplemented!(),
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}),
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);
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let binders = CanonicalVarKinds::from_iter(
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&Interner,
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c.binders.iter(&Interner).filter(|vk| match vk.kind {
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VariableKind::Ty(_) => true,
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VariableKind::Lifetime => false,
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VariableKind::Const(_) => true,
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}),
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);
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let value = subst.apply(c.value, &Interner);
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Canonical { binders, value }
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}
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