2019-11-20 03:25:02 -06:00
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//! Many kinds of items or constructs can have generic parameters: functions,
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//! structs, impls, traits, etc. This module provides a common HIR for these
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//! generic parameters. See also the `Generics` type and the `generics_of` query
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//! in rustc.
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use std::sync::Arc;
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use hir_expand::name::{self, AsName, Name};
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use ra_syntax::ast::{self, NameOwner, TypeBoundsOwner, TypeParamsOwner};
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use crate::{
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db::DefDatabase2,
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type_ref::{TypeBound, TypeRef},
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2019-11-20 07:03:59 -06:00
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AdtId, AstItemDef, GenericDefId, HasSource, Lookup,
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2019-11-20 03:25:02 -06:00
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};
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/// Data about a generic parameter (to a function, struct, impl, ...).
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#[derive(Clone, PartialEq, Eq, Debug)]
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pub struct GenericParam {
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// FIXME: give generic params proper IDs
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pub idx: u32,
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pub name: Name,
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pub default: Option<TypeRef>,
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}
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/// Data about the generic parameters of a function, struct, impl, etc.
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#[derive(Clone, PartialEq, Eq, Debug)]
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pub struct GenericParams {
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pub def: GenericDefId,
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pub parent_params: Option<Arc<GenericParams>>,
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pub params: Vec<GenericParam>,
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pub where_predicates: Vec<WherePredicate>,
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}
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/// A single predicate from a where clause, i.e. `where Type: Trait`. Combined
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/// where clauses like `where T: Foo + Bar` are turned into multiple of these.
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/// It might still result in multiple actual predicates though, because of
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/// associated type bindings like `Iterator<Item = u32>`.
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#[derive(Clone, PartialEq, Eq, Debug)]
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pub struct WherePredicate {
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pub type_ref: TypeRef,
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pub bound: TypeBound,
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}
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impl GenericParams {
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pub fn new(
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db: &impl DefDatabase2,
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def: GenericDefId,
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parent_params: Option<Arc<GenericParams>>,
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) -> GenericParams {
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let mut generics =
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GenericParams { def, params: Vec::new(), parent_params, where_predicates: Vec::new() };
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let start = generics.parent_params.as_ref().map(|p| p.params.len()).unwrap_or(0) as u32;
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// FIXME: add `: Sized` bound for everything except for `Self` in traits
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match def {
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GenericDefId::FunctionId(it) => generics.fill(&it.lookup(db).source(db).value, start),
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GenericDefId::AdtId(AdtId::StructId(it)) => {
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generics.fill(&it.0.source(db).value, start)
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}
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GenericDefId::AdtId(AdtId::UnionId(it)) => generics.fill(&it.0.source(db).value, start),
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GenericDefId::AdtId(AdtId::EnumId(it)) => generics.fill(&it.source(db).value, start),
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GenericDefId::TraitId(it) => {
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// traits get the Self type as an implicit first type parameter
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generics.params.push(GenericParam {
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idx: start,
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name: name::SELF_TYPE,
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default: None,
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});
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generics.fill(&it.source(db).value, start + 1);
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// add super traits as bounds on Self
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// i.e., trait Foo: Bar is equivalent to trait Foo where Self: Bar
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let self_param = TypeRef::Path(name::SELF_TYPE.into());
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generics.fill_bounds(&it.source(db).value, self_param);
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}
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GenericDefId::TypeAliasId(it) => generics.fill(&it.source(db).value, start),
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// Note that we don't add `Self` here: in `impl`s, `Self` is not a
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// type-parameter, but rather is a type-alias for impl's target
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// type, so this is handled by the resolver.
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GenericDefId::ImplId(it) => generics.fill(&it.source(db).value, start),
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GenericDefId::EnumVariantId(_) | GenericDefId::ConstId(_) => {}
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}
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generics
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}
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fn fill(&mut self, node: &impl TypeParamsOwner, start: u32) {
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if let Some(params) = node.type_param_list() {
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self.fill_params(params, start)
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}
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if let Some(where_clause) = node.where_clause() {
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self.fill_where_predicates(where_clause);
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}
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}
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fn fill_bounds(&mut self, node: &impl ast::TypeBoundsOwner, type_ref: TypeRef) {
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for bound in
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node.type_bound_list().iter().flat_map(|type_bound_list| type_bound_list.bounds())
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{
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self.add_where_predicate_from_bound(bound, type_ref.clone());
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}
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}
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fn fill_params(&mut self, params: ast::TypeParamList, start: u32) {
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for (idx, type_param) in params.type_params().enumerate() {
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let name = type_param.name().map_or_else(Name::missing, |it| it.as_name());
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// FIXME: Use `Path::from_src`
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let default = type_param.default_type().map(TypeRef::from_ast);
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let param = GenericParam { idx: idx as u32 + start, name: name.clone(), default };
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self.params.push(param);
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let type_ref = TypeRef::Path(name.into());
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self.fill_bounds(&type_param, type_ref);
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}
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}
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fn fill_where_predicates(&mut self, where_clause: ast::WhereClause) {
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for pred in where_clause.predicates() {
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let type_ref = match pred.type_ref() {
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Some(type_ref) => type_ref,
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None => continue,
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};
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let type_ref = TypeRef::from_ast(type_ref);
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for bound in pred.type_bound_list().iter().flat_map(|l| l.bounds()) {
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self.add_where_predicate_from_bound(bound, type_ref.clone());
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}
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}
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}
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fn add_where_predicate_from_bound(&mut self, bound: ast::TypeBound, type_ref: TypeRef) {
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if bound.has_question_mark() {
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// FIXME: remove this bound
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return;
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}
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let bound = TypeBound::from_ast(bound);
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self.where_predicates.push(WherePredicate { type_ref, bound });
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}
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pub fn find_by_name(&self, name: &Name) -> Option<&GenericParam> {
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self.params.iter().find(|p| &p.name == name)
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}
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pub fn count_parent_params(&self) -> usize {
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self.parent_params.as_ref().map(|p| p.count_params_including_parent()).unwrap_or(0)
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}
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pub fn count_params_including_parent(&self) -> usize {
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let parent_count = self.count_parent_params();
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parent_count + self.params.len()
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}
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fn for_each_param<'a>(&'a self, f: &mut impl FnMut(&'a GenericParam)) {
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if let Some(parent) = &self.parent_params {
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parent.for_each_param(f);
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}
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self.params.iter().for_each(f);
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}
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pub fn params_including_parent(&self) -> Vec<&GenericParam> {
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let mut vec = Vec::with_capacity(self.count_params_including_parent());
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self.for_each_param(&mut |p| vec.push(p));
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vec
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}
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}
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