//! FIXME: write short doc here mod lower; pub mod scope; use std::{ops::Index, sync::Arc}; use hir_expand::{ either::Either, hygiene::Hygiene, AstId, HirFileId, MacroCallLoc, MacroDefId, MacroFileKind, Source, }; use ra_arena::{map::ArenaMap, Arena}; use ra_syntax::{ast, AstNode, AstPtr}; use rustc_hash::FxHashMap; use crate::{ db::DefDatabase2, expr::{Expr, ExprId, Pat, PatId}, nameres::CrateDefMap, path::Path, AstItemDef, DefWithBodyId, ModuleId, }; pub struct Expander { crate_def_map: Arc, current_file_id: HirFileId, hygiene: Hygiene, module: ModuleId, } impl Expander { pub fn new(db: &impl DefDatabase2, current_file_id: HirFileId, module: ModuleId) -> Expander { let crate_def_map = db.crate_def_map(module.krate); let hygiene = Hygiene::new(db, current_file_id); Expander { crate_def_map, current_file_id, hygiene, module } } fn enter_expand( &mut self, db: &impl DefDatabase2, macro_call: ast::MacroCall, ) -> Option<(Mark, ast::Expr)> { let ast_id = AstId::new( self.current_file_id, db.ast_id_map(self.current_file_id).ast_id(¯o_call), ); if let Some(path) = macro_call.path().and_then(|path| self.parse_path(path)) { if let Some(def) = self.resolve_path_as_macro(db, &path) { let call_id = db.intern_macro(MacroCallLoc { def, ast_id }); let file_id = call_id.as_file(MacroFileKind::Expr); if let Some(node) = db.parse_or_expand(file_id) { if let Some(expr) = ast::Expr::cast(node) { log::debug!("macro expansion {:#?}", expr.syntax()); let mark = Mark { file_id: self.current_file_id }; self.hygiene = Hygiene::new(db, file_id); self.current_file_id = file_id; return Some((mark, expr)); } } } } // FIXME: Instead of just dropping the error from expansion // report it None } fn exit(&mut self, db: &impl DefDatabase2, mark: Mark) { self.hygiene = Hygiene::new(db, mark.file_id); self.current_file_id = mark.file_id; std::mem::forget(mark); } fn to_source(&self, ast: T) -> Source { Source { file_id: self.current_file_id, ast } } fn parse_path(&mut self, path: ast::Path) -> Option { Path::from_src(path, &self.hygiene) } fn resolve_path_as_macro(&self, db: &impl DefDatabase2, path: &Path) -> Option { self.crate_def_map.resolve_path(db, self.module.module_id, path).0.get_macros() } } struct Mark { file_id: HirFileId, } impl Drop for Mark { fn drop(&mut self) { if !std::thread::panicking() { panic!("dropped mark") } } } /// The body of an item (function, const etc.). #[derive(Debug, Eq, PartialEq)] pub struct Body { exprs: Arena, pats: Arena, /// The patterns for the function's parameters. While the parameter types are /// part of the function signature, the patterns are not (they don't change /// the external type of the function). /// /// If this `Body` is for the body of a constant, this will just be /// empty. params: Vec, /// The `ExprId` of the actual body expression. body_expr: ExprId, } pub type ExprPtr = Either, AstPtr>; pub type ExprSource = Source; pub type PatPtr = Either, AstPtr>; pub type PatSource = Source; /// An item body together with the mapping from syntax nodes to HIR expression /// IDs. This is needed to go from e.g. a position in a file to the HIR /// expression containing it; but for type inference etc., we want to operate on /// a structure that is agnostic to the actual positions of expressions in the /// file, so that we don't recompute types whenever some whitespace is typed. /// /// One complication here is that, due to macro expansion, a single `Body` might /// be spread across several files. So, for each ExprId and PatId, we record /// both the HirFileId and the position inside the file. However, we only store /// AST -> ExprId mapping for non-macro files, as it is not clear how to handle /// this properly for macros. #[derive(Default, Debug, Eq, PartialEq)] pub struct BodySourceMap { expr_map: FxHashMap, expr_map_back: ArenaMap, pat_map: FxHashMap, pat_map_back: ArenaMap, field_map: FxHashMap<(ExprId, usize), AstPtr>, } impl Body { pub(crate) fn body_with_source_map_query( db: &impl DefDatabase2, def: DefWithBodyId, ) -> (Arc, Arc) { let mut params = None; let (file_id, module, body) = match def { DefWithBodyId::FunctionId(f) => { let src = f.source(db); params = src.ast.param_list(); (src.file_id, f.module(db), src.ast.body().map(ast::Expr::from)) } DefWithBodyId::ConstId(c) => { let src = c.source(db); (src.file_id, c.module(db), src.ast.body()) } DefWithBodyId::StaticId(s) => { let src = s.source(db); (src.file_id, s.module(db), src.ast.body()) } }; let expander = Expander::new(db, file_id, module); let (body, source_map) = Body::new(db, expander, params, body); (Arc::new(body), Arc::new(source_map)) } pub(crate) fn body_query(db: &impl DefDatabase2, def: DefWithBodyId) -> Arc { db.body_with_source_map(def).0 } fn new( db: &impl DefDatabase2, expander: Expander, params: Option, body: Option, ) -> (Body, BodySourceMap) { lower::lower(db, expander, params, body) } pub fn params(&self) -> &[PatId] { &self.params } pub fn body_expr(&self) -> ExprId { self.body_expr } pub fn exprs(&self) -> impl Iterator { self.exprs.iter() } pub fn pats(&self) -> impl Iterator { self.pats.iter() } } impl Index for Body { type Output = Expr; fn index(&self, expr: ExprId) -> &Expr { &self.exprs[expr] } } impl Index for Body { type Output = Pat; fn index(&self, pat: PatId) -> &Pat { &self.pats[pat] } } impl BodySourceMap { pub fn expr_syntax(&self, expr: ExprId) -> Option { self.expr_map_back.get(expr).copied() } pub fn node_expr(&self, node: Source<&ast::Expr>) -> Option { let src = node.map(|it| Either::A(AstPtr::new(it))); self.expr_map.get(&src).cloned() } pub fn pat_syntax(&self, pat: PatId) -> Option { self.pat_map_back.get(pat).copied() } pub fn node_pat(&self, node: Source<&ast::Pat>) -> Option { let src = node.map(|it| Either::A(AstPtr::new(it))); self.pat_map.get(&src).cloned() } pub fn field_syntax(&self, expr: ExprId, field: usize) -> AstPtr { self.field_map[&(expr, field)] } }