//! Many kinds of items or constructs can have generic parameters: functions, //! structs, impls, traits, etc. This module provides a common HIR for these //! generic parameters. See also the `Generics` type and the `generics_of` query //! in rustc. use std::sync::Arc; use either::Either; use hir_expand::{ name::{name, AsName, Name}, InFile, }; use ra_arena::{map::ArenaMap, Arena}; use ra_db::FileId; use ra_syntax::ast::{self, NameOwner, TypeBoundsOwner, TypeParamsOwner}; use crate::{ child_by_source::ChildBySource, db::DefDatabase, dyn_map::DynMap, keys, src::HasChildSource, src::HasSource, type_ref::{TypeBound, TypeRef}, AdtId, GenericDefId, LocalTypeParamId, Lookup, TypeParamId, }; /// Data about a generic parameter (to a function, struct, impl, ...). #[derive(Clone, PartialEq, Eq, Debug)] pub struct TypeParamData { pub name: Name, pub default: Option, } /// Data about the generic parameters of a function, struct, impl, etc. #[derive(Clone, PartialEq, Eq, Debug)] pub struct GenericParams { pub types: Arena, // lifetimes: Arena, pub where_predicates: Vec, } /// A single predicate from a where clause, i.e. `where Type: Trait`. Combined /// where clauses like `where T: Foo + Bar` are turned into multiple of these. /// It might still result in multiple actual predicates though, because of /// associated type bindings like `Iterator`. #[derive(Clone, PartialEq, Eq, Debug)] pub struct WherePredicate { pub type_ref: TypeRef, pub bound: TypeBound, } type SourceMap = ArenaMap>; impl GenericParams { pub(crate) fn generic_params_query( db: &impl DefDatabase, def: GenericDefId, ) -> Arc { let (params, _source_map) = GenericParams::new(db, def.into()); Arc::new(params) } fn new(db: &impl DefDatabase, def: GenericDefId) -> (GenericParams, InFile) { let mut generics = GenericParams { types: Arena::default(), where_predicates: Vec::new() }; let mut sm = ArenaMap::default(); // FIXME: add `: Sized` bound for everything except for `Self` in traits let file_id = match def { GenericDefId::FunctionId(it) => { let src = it.lookup(db).source(db); generics.fill(&mut sm, &src.value); src.file_id } GenericDefId::AdtId(AdtId::StructId(it)) => { let src = it.lookup(db).source(db); generics.fill(&mut sm, &src.value); src.file_id } GenericDefId::AdtId(AdtId::UnionId(it)) => { let src = it.lookup(db).source(db); generics.fill(&mut sm, &src.value); src.file_id } GenericDefId::AdtId(AdtId::EnumId(it)) => { let src = it.lookup(db).source(db); generics.fill(&mut sm, &src.value); src.file_id } GenericDefId::TraitId(it) => { let src = it.lookup(db).source(db); // traits get the Self type as an implicit first type parameter let self_param_id = generics.types.alloc(TypeParamData { name: name![Self], default: None }); sm.insert(self_param_id, Either::Left(src.value.clone())); // add super traits as bounds on Self // i.e., trait Foo: Bar is equivalent to trait Foo where Self: Bar let self_param = TypeRef::Path(name![Self].into()); generics.fill_bounds(&src.value, self_param); generics.fill(&mut sm, &src.value); src.file_id } GenericDefId::TypeAliasId(it) => { let src = it.lookup(db).source(db); generics.fill(&mut sm, &src.value); src.file_id } // Note that we don't add `Self` here: in `impl`s, `Self` is not a // type-parameter, but rather is a type-alias for impl's target // type, so this is handled by the resolver. GenericDefId::ImplId(it) => { let src = it.lookup(db).source(db); generics.fill(&mut sm, &src.value); src.file_id } // We won't be using this ID anyway GenericDefId::EnumVariantId(_) | GenericDefId::ConstId(_) => FileId(!0).into(), }; (generics, InFile::new(file_id, sm)) } fn fill(&mut self, sm: &mut SourceMap, node: &dyn TypeParamsOwner) { if let Some(params) = node.type_param_list() { self.fill_params(sm, params) } if let Some(where_clause) = node.where_clause() { self.fill_where_predicates(where_clause); } } fn fill_bounds(&mut self, node: &dyn ast::TypeBoundsOwner, type_ref: TypeRef) { for bound in node.type_bound_list().iter().flat_map(|type_bound_list| type_bound_list.bounds()) { self.add_where_predicate_from_bound(bound, type_ref.clone()); } } fn fill_params(&mut self, sm: &mut SourceMap, params: ast::TypeParamList) { for type_param in params.type_params() { let name = type_param.name().map_or_else(Name::missing, |it| it.as_name()); // FIXME: Use `Path::from_src` let default = type_param.default_type().map(TypeRef::from_ast); let param = TypeParamData { name: name.clone(), default }; let param_id = self.types.alloc(param); sm.insert(param_id, Either::Right(type_param.clone())); let type_ref = TypeRef::Path(name.into()); self.fill_bounds(&type_param, type_ref); } } fn fill_where_predicates(&mut self, where_clause: ast::WhereClause) { for pred in where_clause.predicates() { let type_ref = match pred.type_ref() { Some(type_ref) => type_ref, None => continue, }; let type_ref = TypeRef::from_ast(type_ref); for bound in pred.type_bound_list().iter().flat_map(|l| l.bounds()) { self.add_where_predicate_from_bound(bound, type_ref.clone()); } } } fn add_where_predicate_from_bound(&mut self, bound: ast::TypeBound, type_ref: TypeRef) { if bound.has_question_mark() { // FIXME: remove this bound return; } let bound = TypeBound::from_ast(bound); self.where_predicates.push(WherePredicate { type_ref, bound }); } pub fn find_by_name(&self, name: &Name) -> Option { self.types.iter().find_map(|(id, p)| if &p.name == name { Some(id) } else { None }) } } impl HasChildSource for GenericDefId { type ChildId = LocalTypeParamId; type Value = Either; fn child_source(&self, db: &impl DefDatabase) -> InFile { let (_, sm) = GenericParams::new(db, *self); sm } } impl ChildBySource for GenericDefId { fn child_by_source(&self, db: &impl DefDatabase) -> DynMap { let mut res = DynMap::default(); let arena_map = self.child_source(db); let arena_map = arena_map.as_ref(); for (local_id, src) in arena_map.value.iter() { let id = TypeParamId { parent: *self, local_id }; if let Either::Right(type_param) = src { res[keys::TYPE_PARAM].insert(arena_map.with_value(type_param.clone()), id) } } res } }