mirror of
https://github.com/rust-lang/rust-analyzer
synced 2024-12-28 22:13:39 +00:00
301 lines
11 KiB
Rust
301 lines
11 KiB
Rust
//! Helper functions for working with def, which don't need to be a separate
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//! query, but can't be computed directly from `*Data` (ie, which need a `db`).
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use std::{array, iter};
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use base_db::CrateId;
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use chalk_ir::{fold::Shift, BoundVar, DebruijnIndex};
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use hir_def::{
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db::DefDatabase,
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generics::{
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GenericParams, TypeParamData, TypeParamProvenance, WherePredicate, WherePredicateTypeTarget,
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},
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intern::Interned,
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path::Path,
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resolver::{HasResolver, TypeNs},
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type_ref::{TraitBoundModifier, TypeRef},
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AssocContainerId, GenericDefId, Lookup, TraitId, TypeAliasId, TypeParamId,
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};
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use hir_expand::name::{name, Name};
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use rustc_hash::FxHashSet;
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use crate::{
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db::HirDatabase, ChalkTraitId, Interner, Substitution, TraitRef, TraitRefExt, TyKind,
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WhereClause,
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};
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pub(crate) fn fn_traits(db: &dyn DefDatabase, krate: CrateId) -> impl Iterator<Item = TraitId> {
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let fn_traits = [
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db.lang_item(krate, "fn".into()),
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db.lang_item(krate, "fn_mut".into()),
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db.lang_item(krate, "fn_once".into()),
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];
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array::IntoIter::new(fn_traits).into_iter().flatten().flat_map(|it| it.as_trait())
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}
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fn direct_super_traits(db: &dyn DefDatabase, trait_: TraitId) -> Vec<TraitId> {
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let resolver = trait_.resolver(db);
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// returning the iterator directly doesn't easily work because of
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// lifetime problems, but since there usually shouldn't be more than a
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// few direct traits this should be fine (we could even use some kind of
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// SmallVec if performance is a concern)
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let generic_params = db.generic_params(trait_.into());
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let trait_self = generic_params.find_trait_self_param();
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generic_params
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.where_predicates
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.iter()
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.filter_map(|pred| match pred {
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WherePredicate::ForLifetime { target, bound, .. }
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| WherePredicate::TypeBound { target, bound } => match target {
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WherePredicateTypeTarget::TypeRef(type_ref) => match &**type_ref {
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TypeRef::Path(p) if p == &Path::from(name![Self]) => bound.as_path(),
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_ => None,
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},
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WherePredicateTypeTarget::TypeParam(local_id) if Some(*local_id) == trait_self => {
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bound.as_path()
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}
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_ => None,
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},
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WherePredicate::Lifetime { .. } => None,
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})
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.filter_map(|(path, bound_modifier)| match bound_modifier {
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TraitBoundModifier::None => Some(path),
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TraitBoundModifier::Maybe => None,
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})
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.filter_map(|path| match resolver.resolve_path_in_type_ns_fully(db, path.mod_path()) {
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Some(TypeNs::TraitId(t)) => Some(t),
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_ => None,
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})
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.collect()
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}
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fn direct_super_trait_refs(db: &dyn HirDatabase, trait_ref: &TraitRef) -> Vec<TraitRef> {
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// returning the iterator directly doesn't easily work because of
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// lifetime problems, but since there usually shouldn't be more than a
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// few direct traits this should be fine (we could even use some kind of
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// SmallVec if performance is a concern)
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let generic_params = db.generic_params(trait_ref.hir_trait_id().into());
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let trait_self = match generic_params.find_trait_self_param() {
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Some(p) => TypeParamId { parent: trait_ref.hir_trait_id().into(), local_id: p },
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None => return Vec::new(),
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};
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db.generic_predicates_for_param(trait_self)
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.iter()
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.filter_map(|pred| {
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pred.as_ref().filter_map(|pred| match pred.skip_binders() {
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// FIXME: how to correctly handle higher-ranked bounds here?
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WhereClause::Implemented(tr) => Some(
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tr.clone()
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.shifted_out_to(&Interner, DebruijnIndex::ONE)
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.expect("FIXME unexpected higher-ranked trait bound"),
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),
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_ => None,
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})
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})
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.map(|pred| pred.substitute(&Interner, &trait_ref.substitution))
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.collect()
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}
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/// Returns an iterator over the whole super trait hierarchy (including the
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/// trait itself).
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pub fn all_super_traits(db: &dyn DefDatabase, trait_: TraitId) -> Vec<TraitId> {
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// we need to take care a bit here to avoid infinite loops in case of cycles
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// (i.e. if we have `trait A: B; trait B: A;`)
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let mut result = vec![trait_];
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let mut i = 0;
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while i < result.len() {
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let t = result[i];
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// yeah this is quadratic, but trait hierarchies should be flat
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// enough that this doesn't matter
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for tt in direct_super_traits(db, t) {
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if !result.contains(&tt) {
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result.push(tt);
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}
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}
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i += 1;
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}
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result
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}
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/// Given a trait ref (`Self: Trait`), builds all the implied trait refs for
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/// super traits. The original trait ref will be included. So the difference to
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/// `all_super_traits` is that we keep track of type parameters; for example if
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/// we have `Self: Trait<u32, i32>` and `Trait<T, U>: OtherTrait<U>` we'll get
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/// `Self: OtherTrait<i32>`.
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pub(super) fn all_super_trait_refs(db: &dyn HirDatabase, trait_ref: TraitRef) -> SuperTraits {
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SuperTraits { db, seen: iter::once(trait_ref.trait_id).collect(), stack: vec![trait_ref] }
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}
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pub(super) struct SuperTraits<'a> {
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db: &'a dyn HirDatabase,
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stack: Vec<TraitRef>,
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seen: FxHashSet<ChalkTraitId>,
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}
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impl<'a> SuperTraits<'a> {
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fn elaborate(&mut self, trait_ref: &TraitRef) {
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let mut trait_refs = direct_super_trait_refs(self.db, trait_ref);
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trait_refs.retain(|tr| !self.seen.contains(&tr.trait_id));
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self.stack.extend(trait_refs);
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}
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}
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impl<'a> Iterator for SuperTraits<'a> {
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type Item = TraitRef;
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fn next(&mut self) -> Option<Self::Item> {
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if let Some(next) = self.stack.pop() {
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self.elaborate(&next);
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Some(next)
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} else {
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None
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}
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}
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}
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pub(super) fn associated_type_by_name_including_super_traits(
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db: &dyn HirDatabase,
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trait_ref: TraitRef,
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name: &Name,
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) -> Option<(TraitRef, TypeAliasId)> {
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all_super_trait_refs(db, trait_ref).find_map(|t| {
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let assoc_type = db.trait_data(t.hir_trait_id()).associated_type_by_name(name)?;
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Some((t, assoc_type))
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})
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}
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pub(crate) fn generics(db: &dyn DefDatabase, def: GenericDefId) -> Generics {
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let parent_generics = parent_generic_def(db, def).map(|def| Box::new(generics(db, def)));
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Generics { def, params: db.generic_params(def), parent_generics }
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}
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#[derive(Debug)]
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pub(crate) struct Generics {
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def: GenericDefId,
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pub(crate) params: Interned<GenericParams>,
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parent_generics: Option<Box<Generics>>,
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}
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impl Generics {
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pub(crate) fn iter<'a>(
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&'a self,
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) -> impl Iterator<Item = (TypeParamId, &'a TypeParamData)> + 'a {
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self.parent_generics
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.as_ref()
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.into_iter()
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.flat_map(|it| {
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it.params
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.types
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.iter()
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.map(move |(local_id, p)| (TypeParamId { parent: it.def, local_id }, p))
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})
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.chain(
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self.params
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.types
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.iter()
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.map(move |(local_id, p)| (TypeParamId { parent: self.def, local_id }, p)),
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)
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}
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pub(crate) fn iter_parent<'a>(
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&'a self,
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) -> impl Iterator<Item = (TypeParamId, &'a TypeParamData)> + 'a {
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self.parent_generics.as_ref().into_iter().flat_map(|it| {
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it.params
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.types
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.iter()
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.map(move |(local_id, p)| (TypeParamId { parent: it.def, local_id }, p))
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})
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}
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pub(crate) fn len(&self) -> usize {
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self.len_split().0
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}
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/// (total, parents, child)
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pub(crate) fn len_split(&self) -> (usize, usize, usize) {
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let parent = self.parent_generics.as_ref().map_or(0, |p| p.len());
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let child = self.params.types.len();
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(parent + child, parent, child)
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}
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/// (parent total, self param, type param list, impl trait)
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pub(crate) fn provenance_split(&self) -> (usize, usize, usize, usize) {
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let parent = self.parent_generics.as_ref().map_or(0, |p| p.len());
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let self_params = self
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.params
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.types
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.iter()
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.filter(|(_, p)| p.provenance == TypeParamProvenance::TraitSelf)
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.count();
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let list_params = self
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.params
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.types
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.iter()
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.filter(|(_, p)| p.provenance == TypeParamProvenance::TypeParamList)
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.count();
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let impl_trait_params = self
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.params
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.types
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.iter()
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.filter(|(_, p)| p.provenance == TypeParamProvenance::ArgumentImplTrait)
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.count();
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(parent, self_params, list_params, impl_trait_params)
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}
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pub(crate) fn param_idx(&self, param: TypeParamId) -> Option<usize> {
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Some(self.find_param(param)?.0)
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}
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fn find_param(&self, param: TypeParamId) -> Option<(usize, &TypeParamData)> {
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if param.parent == self.def {
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let (idx, (_local_id, data)) = self
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.params
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.types
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.iter()
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.enumerate()
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.find(|(_, (idx, _))| *idx == param.local_id)
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.unwrap();
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let (_total, parent_len, _child) = self.len_split();
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Some((parent_len + idx, data))
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} else {
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self.parent_generics.as_ref().and_then(|g| g.find_param(param))
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}
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}
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/// Returns a Substitution that replaces each parameter by a bound variable.
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pub(crate) fn bound_vars_subst(&self, debruijn: DebruijnIndex) -> Substitution {
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Substitution::from_iter(
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&Interner,
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self.iter()
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.enumerate()
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.map(|(idx, _)| TyKind::BoundVar(BoundVar::new(debruijn, idx)).intern(&Interner)),
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)
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}
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/// Returns a Substitution that replaces each parameter by itself (i.e. `Ty::Param`).
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pub(crate) fn type_params_subst(&self, db: &dyn HirDatabase) -> Substitution {
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Substitution::from_iter(
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&Interner,
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self.iter().map(|(id, _)| {
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TyKind::Placeholder(crate::to_placeholder_idx(db, id)).intern(&Interner)
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}),
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)
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}
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}
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fn parent_generic_def(db: &dyn DefDatabase, def: GenericDefId) -> Option<GenericDefId> {
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let container = match def {
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GenericDefId::FunctionId(it) => it.lookup(db).container,
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GenericDefId::TypeAliasId(it) => it.lookup(db).container,
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GenericDefId::ConstId(it) => it.lookup(db).container,
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GenericDefId::EnumVariantId(it) => return Some(it.parent.into()),
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GenericDefId::AdtId(_) | GenericDefId::TraitId(_) | GenericDefId::ImplId(_) => return None,
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};
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match container {
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AssocContainerId::ImplId(it) => Some(it.into()),
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AssocContainerId::TraitId(it) => Some(it.into()),
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AssocContainerId::ModuleId(_) => None,
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}
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}
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