//! Finds a corresponding hir data structure for a syntax node in a specific //! file. use hir_def::{ child_by_source::ChildBySource, dyn_map::DynMap, keys, keys::Key, nameres::ModuleSource, ConstId, DefWithBodyId, EnumId, EnumVariantId, FunctionId, GenericDefId, ImplId, ModuleId, StaticId, StructId, TraitId, TypeAliasId, UnionId, VariantId, }; use hir_expand::{name::AsName, AstId, MacroDefId, MacroDefKind}; use ra_db::FileId; use ra_prof::profile; use ra_syntax::{ ast::{self, AstNode, NameOwner}, match_ast, SyntaxNode, }; use crate::{ db::{DefDatabase, HirDatabase}, Const, DefWithBody, Enum, EnumVariant, FieldSource, Function, ImplBlock, InFile, Local, MacroDef, Module, Static, Struct, StructField, Trait, TypeAlias, TypeParam, Union, }; pub trait FromSource: Sized { type Ast; fn from_source(db: &impl DefDatabase, src: InFile) -> Option; } pub trait FromSourceByContainer: Sized { type Ast: AstNode + 'static; type Id: Copy + 'static; const KEY: Key; } impl FromSource for T where T: From<::Id>, { type Ast = ::Ast; fn from_source(db: &impl DefDatabase, src: InFile) -> Option { analyze_container(db, src.as_ref().map(|it| it.syntax()))[T::KEY] .get(&src) .copied() .map(Self::from) } } macro_rules! from_source_by_container_impls { ($(($hir:ident, $id:ident, $ast:path, $key:path)),* ,) => {$( impl FromSourceByContainer for $hir { type Ast = $ast; type Id = $id; const KEY: Key = $key; } )*} } from_source_by_container_impls![ (Struct, StructId, ast::StructDef, keys::STRUCT), (Union, UnionId, ast::UnionDef, keys::UNION), (Enum, EnumId, ast::EnumDef, keys::ENUM), (Trait, TraitId, ast::TraitDef, keys::TRAIT), (Function, FunctionId, ast::FnDef, keys::FUNCTION), (Static, StaticId, ast::StaticDef, keys::STATIC), (Const, ConstId, ast::ConstDef, keys::CONST), (TypeAlias, TypeAliasId, ast::TypeAliasDef, keys::TYPE_ALIAS), (ImplBlock, ImplId, ast::ImplBlock, keys::IMPL), ]; impl FromSource for MacroDef { type Ast = ast::MacroCall; fn from_source(db: &impl DefDatabase, src: InFile) -> Option { let kind = MacroDefKind::Declarative; let module_src = ModuleSource::from_child_node(db, src.as_ref().map(|it| it.syntax())); let module = Module::from_definition(db, InFile::new(src.file_id, module_src))?; let krate = Some(module.krate().id); let ast_id = Some(AstId::new(src.file_id, db.ast_id_map(src.file_id).ast_id(&src.value))); let id: MacroDefId = MacroDefId { krate, ast_id, kind }; Some(MacroDef { id }) } } impl FromSource for EnumVariant { type Ast = ast::EnumVariant; fn from_source(db: &impl DefDatabase, src: InFile) -> Option { let parent_enum = src.value.parent_enum(); let src_enum = InFile { file_id: src.file_id, value: parent_enum }; let parent_enum = Enum::from_source(db, src_enum)?; parent_enum.id.child_by_source(db)[keys::ENUM_VARIANT] .get(&src) .copied() .map(EnumVariant::from) } } impl FromSource for StructField { type Ast = FieldSource; fn from_source(db: &impl DefDatabase, src: InFile) -> Option { let src = src.as_ref(); // FIXME this is buggy let variant_id: VariantId = match src.value { FieldSource::Named(field) => { let value = field.syntax().ancestors().find_map(ast::StructDef::cast)?; let src = InFile { file_id: src.file_id, value }; let def = Struct::from_source(db, src)?; def.id.into() } FieldSource::Pos(field) => { let value = field.syntax().ancestors().find_map(ast::EnumVariant::cast)?; let src = InFile { file_id: src.file_id, value }; let def = EnumVariant::from_source(db, src)?; EnumVariantId::from(def).into() } }; let dyn_map = variant_id.child_by_source(db); match src.value { FieldSource::Pos(it) => dyn_map[keys::TUPLE_FIELD].get(&src.with_value(it.clone())), FieldSource::Named(it) => dyn_map[keys::RECORD_FIELD].get(&src.with_value(it.clone())), } .copied() .map(StructField::from) } } impl Local { pub fn from_source(db: &impl HirDatabase, src: InFile) -> Option { let file_id = src.file_id; let parent: DefWithBody = src.value.syntax().ancestors().find_map(|it| { let res = match_ast! { match it { ast::ConstDef(value) => { Const::from_source(db, InFile { value, file_id})?.into() }, ast::StaticDef(value) => { Static::from_source(db, InFile { value, file_id})?.into() }, ast::FnDef(value) => { Function::from_source(db, InFile { value, file_id})?.into() }, _ => return None, } }; Some(res) })?; let (_body, source_map) = db.body_with_source_map(parent.into()); let src = src.map(ast::Pat::from); let pat_id = source_map.node_pat(src.as_ref())?; Some(Local { parent, pat_id }) } } impl TypeParam { pub fn from_source(db: &impl HirDatabase, src: InFile) -> Option { let file_id = src.file_id; let parent: GenericDefId = src.value.syntax().ancestors().find_map(|it| { let res = match_ast! { match it { ast::FnDef(value) => { Function::from_source(db, InFile { value, file_id})?.id.into() }, ast::StructDef(value) => { Struct::from_source(db, InFile { value, file_id})?.id.into() }, ast::EnumDef(value) => { Enum::from_source(db, InFile { value, file_id})?.id.into() }, ast::TraitDef(value) => { Trait::from_source(db, InFile { value, file_id})?.id.into() }, ast::TypeAliasDef(value) => { TypeAlias::from_source(db, InFile { value, file_id})?.id.into() }, ast::ImplBlock(value) => { ImplBlock::from_source(db, InFile { value, file_id})?.id.into() }, _ => return None, } }; Some(res) })?; let &id = parent.child_by_source(db)[keys::TYPE_PARAM].get(&src)?; Some(TypeParam { id }) } } impl Module { pub fn from_declaration(db: &impl DefDatabase, src: InFile) -> Option { let _p = profile("Module::from_declaration"); let parent_declaration = src.value.syntax().ancestors().skip(1).find_map(ast::Module::cast); let parent_module = match parent_declaration { Some(parent_declaration) => { let src_parent = InFile { file_id: src.file_id, value: parent_declaration }; Module::from_declaration(db, src_parent) } None => { let source_file = db.parse(src.file_id.original_file(db)).tree(); let src_parent = InFile { file_id: src.file_id, value: ModuleSource::SourceFile(source_file) }; Module::from_definition(db, src_parent) } }?; let child_name = src.value.name()?.as_name(); let def_map = db.crate_def_map(parent_module.id.krate); let child_id = def_map[parent_module.id.local_id].children.get(&child_name)?; Some(parent_module.with_module_id(*child_id)) } pub fn from_definition(db: &impl DefDatabase, src: InFile) -> Option { let _p = profile("Module::from_definition"); match src.value { ModuleSource::Module(ref module) => { assert!(!module.has_semi()); return Module::from_declaration( db, InFile { file_id: src.file_id, value: module.clone() }, ); } ModuleSource::SourceFile(_) => (), }; let original_file = src.file_id.original_file(db); Module::from_file(db, original_file) } fn from_file(db: &impl DefDatabase, file: FileId) -> Option { let _p = profile("Module::from_file"); let (krate, local_id) = db.relevant_crates(file).iter().find_map(|&crate_id| { let crate_def_map = db.crate_def_map(crate_id); let local_id = crate_def_map.modules_for_file(file).next()?; Some((crate_id, local_id)) })?; Some(Module { id: ModuleId { krate, local_id } }) } } fn analyze_container(db: &impl DefDatabase, src: InFile<&SyntaxNode>) -> DynMap { let _p = profile("analyze_container"); return child_by_source(db, src).unwrap_or_default(); fn child_by_source(db: &impl DefDatabase, src: InFile<&SyntaxNode>) -> Option { for container in src.value.ancestors().skip(1) { let res = match_ast! { match container { ast::TraitDef(it) => { let def = Trait::from_source(db, src.with_value(it))?; def.id.child_by_source(db) }, ast::ImplBlock(it) => { let def = ImplBlock::from_source(db, src.with_value(it))?; def.id.child_by_source(db) }, ast::FnDef(it) => { let def = Function::from_source(db, src.with_value(it))?; DefWithBodyId::from(def.id) .child_by_source(db) }, ast::StaticDef(it) => { let def = Static::from_source(db, src.with_value(it))?; DefWithBodyId::from(def.id) .child_by_source(db) }, ast::ConstDef(it) => { let def = Const::from_source(db, src.with_value(it))?; DefWithBodyId::from(def.id) .child_by_source(db) }, _ => { continue }, } }; return Some(res); } let module_source = ModuleSource::from_child_node(db, src); let c = Module::from_definition(db, src.with_value(module_source))?; Some(c.id.child_by_source(db)) } }