use std::{panic, sync::Arc}; use once_cell::sync::OnceCell; use ra_editor::LineIndex; use ra_syntax::File; use rayon::prelude::*; use rustc_hash::{FxHashMap, FxHashSet}; use salsa::Database; use crate::{ db::{self, FilesDatabase, SyntaxDatabase}, descriptors::{ModuleDescriptor, ModuleTreeDescriptor}, imp::FileResolverImp, module_map::ModulesDatabase, symbol_index::SymbolIndex, FileId, }; pub(crate) trait SourceRoot { fn contains(&self, file_id: FileId) -> bool; fn module_tree(&self) -> Arc; fn lines(&self, file_id: FileId) -> Arc; fn syntax(&self, file_id: FileId) -> File; fn symbols(&self, acc: &mut Vec>); } #[derive(Default, Debug, Clone)] pub(crate) struct WritableSourceRoot { db: db::RootDatabase, } impl WritableSourceRoot { pub fn apply_changes( &mut self, changes: &mut dyn Iterator)>, file_resolver: Option, ) { let mut changed = FxHashSet::default(); let mut removed = FxHashSet::default(); for (file_id, text) in changes { match text { None => { removed.insert(file_id); } Some(text) => { self.db .query(db::FileTextQuery) .set(file_id, Arc::new(text)); changed.insert(file_id); } } } let file_set = self.db.file_set(()); let mut files: FxHashSet = file_set.files.clone(); for file_id in removed { files.remove(&file_id); } files.extend(changed); let resolver = file_resolver.unwrap_or_else(|| file_set.resolver.clone()); self.db .query(db::FileSetQuery) .set((), Arc::new(db::FileSet { files, resolver })); } } impl SourceRoot for WritableSourceRoot { fn module_tree(&self) -> Arc { self.db.module_tree(()) } fn contains(&self, file_id: FileId) -> bool { self.db.file_set(()).files.contains(&file_id) } fn lines(&self, file_id: FileId) -> Arc { self.db.file_lines(file_id) } fn syntax(&self, file_id: FileId) -> File { self.db.file_syntax(file_id) } fn symbols<'a>(&'a self, acc: &mut Vec>) { let db = &self.db; let symbols = db.file_set(()); let symbols = symbols .files .iter() .map(|&file_id| db.file_symbols(file_id)); acc.extend(symbols); } } #[derive(Debug)] struct FileData { text: String, lines: OnceCell>, syntax: OnceCell, } impl FileData { fn new(text: String) -> FileData { FileData { text, syntax: OnceCell::new(), lines: OnceCell::new(), } } fn lines(&self) -> &Arc { self.lines .get_or_init(|| Arc::new(LineIndex::new(&self.text))) } fn syntax(&self) -> &File { let text = &self.text; let syntax = &self.syntax; match panic::catch_unwind(panic::AssertUnwindSafe(|| { syntax.get_or_init(|| File::parse(text)) })) { Ok(file) => file, Err(err) => { error!("Parser paniced on:\n------\n{}\n------\n", text); panic::resume_unwind(err) } } } } #[derive(Debug)] pub(crate) struct ReadonlySourceRoot { symbol_index: Arc, file_map: FxHashMap, module_tree: Arc, } impl ReadonlySourceRoot { pub(crate) fn new( files: Vec<(FileId, String)>, file_resolver: FileResolverImp, ) -> ReadonlySourceRoot { let modules = files .par_iter() .map(|(file_id, text)| { let syntax = File::parse(text); let mod_descr = ModuleDescriptor::new(syntax.ast()); (*file_id, syntax, mod_descr) }) .collect::>(); let module_tree = ModuleTreeDescriptor::new(modules.iter().map(|it| (it.0, &it.2)), &file_resolver); let symbol_index = SymbolIndex::for_files(modules.par_iter().map(|it| (it.0, it.1.clone()))); let file_map: FxHashMap = files .into_iter() .map(|(id, text)| (id, FileData::new(text))) .collect(); ReadonlySourceRoot { symbol_index: Arc::new(symbol_index), file_map, module_tree: Arc::new(module_tree), } } fn data(&self, file_id: FileId) -> &FileData { match self.file_map.get(&file_id) { Some(data) => data, None => panic!("unknown file: {:?}", file_id), } } } impl SourceRoot for ReadonlySourceRoot { fn module_tree(&self) -> Arc { Arc::clone(&self.module_tree) } fn contains(&self, file_id: FileId) -> bool { self.file_map.contains_key(&file_id) } fn lines(&self, file_id: FileId) -> Arc { Arc::clone(self.data(file_id).lines()) } fn syntax(&self, file_id: FileId) -> File { self.data(file_id).syntax().clone() } fn symbols(&self, acc: &mut Vec>) { acc.push(Arc::clone(&self.symbol_index)) } }