//! Contains basic data about various HIR declarations. use std::sync::Arc; use hir_expand::{ name::{self, AsName, Name}, AstId, }; use ra_syntax::ast::{self, NameOwner, TypeAscriptionOwner}; use crate::{ db::DefDatabase, src::HasSource, type_ref::{Mutability, TypeRef}, AssocItemId, AstItemDef, ConstId, ConstLoc, ContainerId, FunctionId, FunctionLoc, ImplId, Intern, Lookup, StaticId, TraitId, TypeAliasId, TypeAliasLoc, }; #[derive(Debug, Clone, PartialEq, Eq)] pub struct FunctionData { pub name: Name, pub params: Vec, pub ret_type: TypeRef, /// True if the first param is `self`. This is relevant to decide whether this /// can be called as a method. pub has_self_param: bool, } impl FunctionData { pub(crate) fn fn_data_query(db: &impl DefDatabase, func: FunctionId) -> Arc { let src = func.lookup(db).source(db); let name = src.value.name().map(|n| n.as_name()).unwrap_or_else(Name::missing); let mut params = Vec::new(); let mut has_self_param = false; if let Some(param_list) = src.value.param_list() { if let Some(self_param) = param_list.self_param() { let self_type = if let Some(type_ref) = self_param.ascribed_type() { TypeRef::from_ast(type_ref) } else { let self_type = TypeRef::Path(name::SELF_TYPE.into()); match self_param.kind() { ast::SelfParamKind::Owned => self_type, ast::SelfParamKind::Ref => { TypeRef::Reference(Box::new(self_type), Mutability::Shared) } ast::SelfParamKind::MutRef => { TypeRef::Reference(Box::new(self_type), Mutability::Mut) } } }; params.push(self_type); has_self_param = true; } for param in param_list.params() { let type_ref = TypeRef::from_ast_opt(param.ascribed_type()); params.push(type_ref); } } let ret_type = if let Some(type_ref) = src.value.ret_type().and_then(|rt| rt.type_ref()) { TypeRef::from_ast(type_ref) } else { TypeRef::unit() }; let sig = FunctionData { name, params, ret_type, has_self_param }; Arc::new(sig) } } #[derive(Debug, Clone, PartialEq, Eq)] pub struct TypeAliasData { pub name: Name, pub type_ref: Option, } impl TypeAliasData { pub(crate) fn type_alias_data_query( db: &impl DefDatabase, typ: TypeAliasId, ) -> Arc { let node = typ.lookup(db).source(db).value; let name = node.name().map_or_else(Name::missing, |n| n.as_name()); let type_ref = node.type_ref().map(TypeRef::from_ast); Arc::new(TypeAliasData { name, type_ref }) } } #[derive(Debug, Clone, PartialEq, Eq)] pub struct TraitData { pub name: Name, pub items: Vec<(Name, AssocItemId)>, pub auto: bool, } impl TraitData { pub(crate) fn trait_data_query(db: &impl DefDatabase, tr: TraitId) -> Arc { let src = tr.source(db); let name = src.value.name().map_or_else(Name::missing, |n| n.as_name()); let auto = src.value.is_auto(); let ast_id_map = db.ast_id_map(src.file_id); let container = ContainerId::TraitId(tr); let items = if let Some(item_list) = src.value.item_list() { item_list .impl_items() .map(|item_node| match item_node { ast::ImplItem::FnDef(it) => { let name = it.name().map_or_else(Name::missing, |it| it.as_name()); let def = FunctionLoc { container, ast_id: AstId::new(src.file_id, ast_id_map.ast_id(&it)), } .intern(db) .into(); (name, def) } ast::ImplItem::ConstDef(it) => { let name = it.name().map_or_else(Name::missing, |it| it.as_name()); let def = ConstLoc { container, ast_id: AstId::new(src.file_id, ast_id_map.ast_id(&it)), } .intern(db) .into(); (name, def) } ast::ImplItem::TypeAliasDef(it) => { let name = it.name().map_or_else(Name::missing, |it| it.as_name()); let def = TypeAliasLoc { container, ast_id: AstId::new(src.file_id, ast_id_map.ast_id(&it)), } .intern(db) .into(); (name, def) } }) .collect() } else { Vec::new() }; Arc::new(TraitData { name, items, auto }) } pub fn associated_types(&self) -> impl Iterator + '_ { self.items.iter().filter_map(|(_name, item)| match item { AssocItemId::TypeAliasId(t) => Some(*t), _ => None, }) } pub fn associated_type_by_name(&self, name: &Name) -> Option { self.items.iter().find_map(|(item_name, item)| match item { AssocItemId::TypeAliasId(t) if item_name == name => Some(*t), _ => None, }) } } #[derive(Debug, Clone, PartialEq, Eq)] pub struct ImplData { pub target_trait: Option, pub target_type: TypeRef, pub items: Vec, pub is_negative: bool, } impl ImplData { pub(crate) fn impl_data_query(db: &impl DefDatabase, id: ImplId) -> Arc { let src = id.lookup(db).source(db); let items = db.ast_id_map(src.file_id); let target_trait = src.value.target_trait().map(TypeRef::from_ast); let target_type = TypeRef::from_ast_opt(src.value.target_type()); let is_negative = src.value.is_negative(); let items = if let Some(item_list) = src.value.item_list() { item_list .impl_items() .map(|item_node| match item_node { ast::ImplItem::FnDef(it) => { let def = FunctionLoc { container: ContainerId::ImplId(id), ast_id: AstId::new(src.file_id, items.ast_id(&it)), } .intern(db); def.into() } ast::ImplItem::ConstDef(it) => { let def = ConstLoc { container: ContainerId::ImplId(id), ast_id: AstId::new(src.file_id, items.ast_id(&it)), } .intern(db); def.into() } ast::ImplItem::TypeAliasDef(it) => { let def = TypeAliasLoc { container: ContainerId::ImplId(id), ast_id: AstId::new(src.file_id, items.ast_id(&it)), } .intern(db); def.into() } }) .collect() } else { Vec::new() }; let res = ImplData { target_trait, target_type, items, is_negative }; Arc::new(res) } } #[derive(Debug, Clone, PartialEq, Eq)] pub struct ConstData { /// const _: () = (); pub name: Option, pub type_ref: TypeRef, } impl ConstData { pub(crate) fn const_data_query(db: &impl DefDatabase, konst: ConstId) -> Arc { let node = konst.lookup(db).source(db).value; Arc::new(ConstData::new(&node)) } pub(crate) fn static_data_query(db: &impl DefDatabase, konst: StaticId) -> Arc { let node = konst.lookup(db).source(db).value; Arc::new(ConstData::new(&node)) } fn new(node: &N) -> ConstData { let name = node.name().map(|n| n.as_name()); let type_ref = TypeRef::from_ast_opt(node.ascribed_type()); ConstData { name, type_ref } } }