use anyhow::{Context, Error}; use std::future::Future; use std::path::{Path, PathBuf}; use std::sync::Arc; use helix_core::{ syntax::{LanguageConfiguration, LOADER}, ChangeSet, Diagnostic, History, Rope, Selection, State, Syntax, Transaction, }; use crate::{DocumentId, ViewId}; use std::collections::HashMap; #[derive(Copy, Clone, PartialEq, Eq, Hash)] pub enum Mode { Normal, Select, Insert, } pub struct Document { // rope + selection pub(crate) id: DocumentId, text: Rope, pub(crate) selections: HashMap, path: Option, /// Current editing mode. pub mode: Mode, pub restore_cursor: bool, syntax: Option, // /// Corresponding language scope name. Usually `source.`. pub(crate) language: Option>, /// Pending changes since last history commit. changes: ChangeSet, /// State at last commit. Used for calculating reverts. old_state: Option, /// Undo tree. history: History, last_saved_revision: usize, version: i32, // should be usize? pub diagnostics: Vec, language_server: Option>, } /// Like std::mem::replace() except it allows the replacement value to be mapped from the /// original value. fn take_with(mut_ref: &mut T, closure: F) where F: FnOnce(T) -> T, { use std::{panic, ptr}; unsafe { let old_t = ptr::read(mut_ref); let new_t = panic::catch_unwind(panic::AssertUnwindSafe(|| closure(old_t))) .unwrap_or_else(|_| ::std::process::abort()); ptr::write(mut_ref, new_t); } } use helix_lsp::lsp; use url::Url; impl Document { pub fn new(text: Rope) -> Self { let changes = ChangeSet::new(&text); let old_state = None; Self { id: DocumentId::default(), path: None, text, selections: HashMap::default(), mode: Mode::Normal, restore_cursor: false, syntax: None, language: None, changes, old_state, diagnostics: Vec::new(), version: 0, history: History::default(), last_saved_revision: 0, language_server: None, } } // TODO: passing scopes here is awkward // TODO: async fn? pub fn load(path: PathBuf, scopes: &[String]) -> Result { use std::{env, fs::File, io::BufReader}; let _current_dir = env::current_dir()?; let file = File::open(path.clone()).context(format!("unable to open {:?}", path))?; let doc = Rope::from_reader(BufReader::new(file))?; // TODO: create if not found let mut doc = Self::new(doc); let language_config = LOADER .get() .unwrap() .language_config_for_file_name(path.as_path()); doc.set_language(language_config, scopes); // canonicalize path to absolute value doc.path = Some(std::fs::canonicalize(path)?); Ok(doc) } // TODO: do we need some way of ensuring two save operations on the same doc can't run at once? // or is that handled by the OS/async layer pub fn save(&mut self) -> impl Future> { // we clone and move text + path into the future so that we asynchronously save the current // state without blocking any further edits. let text = self.text().clone(); let path = self.path.clone().expect("Can't save with no path set!"); // TODO: handle no path let identifier = self.identifier(); // TODO: mark changes up to now as saved let language_server = self.language_server.clone(); // reset the modified flag self.last_saved_revision = self.history.current_revision(); async move { use tokio::{fs::File, io::AsyncWriteExt}; let mut file = File::create(path).await?; // write all the rope chunks to file for chunk in text.chunks() { file.write_all(chunk.as_bytes()).await?; } // TODO: flush? if let Some(language_server) = language_server { language_server .text_document_did_save(identifier, &text) .await?; } Ok(()) } } pub fn set_language( &mut self, language_config: Option>, scopes: &[String], ) { if let Some(language_config) = language_config { if let Some(highlight_config) = language_config.highlight_config(scopes) { let syntax = Syntax::new(&self.text, highlight_config); self.syntax = Some(syntax); // TODO: config.configure(scopes) is now delayed, is that ok? } self.language = Some(language_config); } else { self.syntax = None; self.language = None; }; } pub fn set_language2(&mut self, scope: &str, scopes: &[String]) { let language_config = LOADER.get().unwrap().language_config_for_scope(scope); self.set_language(language_config, scopes); } pub fn set_language_server(&mut self, language_server: Option>) { self.language_server = language_server; } pub fn set_selection(&mut self, view_id: ViewId, selection: Selection) { // TODO: use a transaction? self.selections.insert(view_id, selection); } fn _apply(&mut self, transaction: &Transaction, view_id: ViewId) -> bool { let old_doc = self.text().clone(); let success = transaction.changes().apply(&mut self.text); if success { // update the selection: either take the selection specified in the transaction, or map the // current selection through changes. let selection = transaction .selection() .cloned() .unwrap_or_else(|| self.selection(view_id).clone().map(transaction.changes())); self.set_selection(view_id, selection); } if !transaction.changes().is_empty() { self.version += 1; // update tree-sitter syntax tree if let Some(syntax) = &mut self.syntax { // TODO: no unwrap syntax .update(&old_doc, &self.text, transaction.changes()) .unwrap(); } // map state.diagnostics over changes::map_pos too // NOTE: seems to do nothing since the language server resends diagnostics on each edit // for diagnostic in &mut self.diagnostics { // use helix_core::Assoc; // let changes = transaction.changes(); // diagnostic.range.start = changes.map_pos(diagnostic.range.start, Assoc::After); // diagnostic.range.end = changes.map_pos(diagnostic.range.end, Assoc::After); // diagnostic.line = self.text.char_to_line(diagnostic.range.start); // } // emit lsp notification if let Some(language_server) = &self.language_server { let notify = language_server.text_document_did_change( self.versioned_identifier(), &old_doc, self.text(), transaction.changes(), ); if let Some(notify) = notify { tokio::spawn(notify); } //.expect("failed to emit textDocument/didChange"); } } success } pub fn apply(&mut self, transaction: &Transaction, view_id: ViewId) -> bool { // store the state just before any changes are made. This allows us to undo to the // state just before a transaction was applied. if self.changes.is_empty() && !transaction.changes().is_empty() { self.old_state = Some(State { doc: self.text.clone(), selection: self.selection(view_id).clone(), }); } let success = self._apply(transaction, view_id); if !transaction.changes().is_empty() { // Compose this transaction with the previous one take_with(&mut self.changes, |changes| { changes.compose(transaction.changes().clone()) }); } success } pub fn undo(&mut self, view_id: ViewId) -> bool { if let Some(transaction) = self.history.undo() { let success = self._apply(&transaction, view_id); // reset changeset to fix len self.changes = ChangeSet::new(self.text()); return success; } false } pub fn redo(&mut self, view_id: ViewId) -> bool { if let Some(transaction) = self.history.redo() { let success = self._apply(&transaction, view_id); // reset changeset to fix len self.changes = ChangeSet::new(self.text()); return success; } false } pub fn append_changes_to_history(&mut self, view_id: ViewId) { if self.changes.is_empty() { return; } let new_changeset = ChangeSet::new(self.text()); let changes = std::mem::replace(&mut self.changes, new_changeset); // Instead of doing this messy merge we could always commit, and based on transaction // annotations either add a new layer or compose into the previous one. let transaction = Transaction::from(changes).with_selection(self.selection(view_id).clone()); // HAXX: we need to reconstruct the state as it was before the changes.. let old_state = self.old_state.take().expect("no old_state available"); self.history.commit_revision(&transaction, &old_state); } #[inline] pub fn id(&self) -> DocumentId { self.id } #[inline] pub fn is_modified(&self) -> bool { self.path.is_some() && (self.history.current_revision() != self.last_saved_revision || !self.changes.is_empty()) } #[inline] pub fn mode(&self) -> Mode { self.mode } #[inline] /// Corresponding language scope name. Usually `source.`. pub fn language(&self) -> Option<&str> { self.language .as_ref() .map(|language| language.scope.as_str()) } #[inline] /// Current document version, incremented at each change. pub fn version(&self) -> i32 { self.version } pub fn language_server(&self) -> Option<&helix_lsp::Client> { self.language_server.as_deref() } /// Tree-sitter AST tree pub fn syntax(&self) -> Option<&Syntax> { self.syntax.as_ref() } /// Tab size in columns. pub fn tab_width(&self) -> usize { self.language .as_ref() .and_then(|config| config.indent.as_ref()) .map_or(4, |config| config.tab_width) // fallback to 4 columns } /// Returns a string containing a single level of indentation. pub fn indent_unit(&self) -> &str { self.language .as_ref() .and_then(|config| config.indent.as_ref()) .map_or(" ", |config| config.unit.as_str()) // fallback to 2 spaces // " ".repeat(TAB_WIDTH) } #[inline] /// File path on disk. pub fn path(&self) -> Option<&PathBuf> { self.path.as_ref() } pub fn url(&self) -> Option { self.path().map(|path| Url::from_file_path(path).unwrap()) } pub fn text(&self) -> &Rope { &self.text } pub fn selection(&self, view_id: ViewId) -> &Selection { &self.selections[&view_id] } pub fn relative_path(&self) -> Option<&Path> { let cwdir = std::env::current_dir().expect("couldn't determine current directory"); self.path .as_ref() .map(|path| path.strip_prefix(cwdir).unwrap_or(path)) } // pub fn slice(&self, range: R) -> RopeSlice where R: RangeBounds { // self.state.doc.slice // } // transact(Fn) ? // -- LSP methods pub fn identifier(&self) -> lsp::TextDocumentIdentifier { lsp::TextDocumentIdentifier::new(self.url().unwrap()) } pub fn versioned_identifier(&self) -> lsp::VersionedTextDocumentIdentifier { lsp::VersionedTextDocumentIdentifier::new(self.url().unwrap(), self.version) } } #[cfg(test)] mod test { use super::*; #[test] fn changeset_to_changes() { use helix_lsp::{lsp, Client, OffsetEncoding}; let text = Rope::from("hello"); let mut doc = Document::new(text); let view = ViewId::default(); doc.set_selection(view, Selection::single(5, 5)); // insert let transaction = Transaction::insert(doc.text(), doc.selection(view), " world".into()); let old_doc = doc.text().clone(); doc.apply(&transaction, view); let changes = Client::changeset_to_changes( &old_doc, doc.text(), transaction.changes(), OffsetEncoding::Utf8, ); assert_eq!( changes, &[lsp::TextDocumentContentChangeEvent { range: Some(lsp::Range::new( lsp::Position::new(0, 5), lsp::Position::new(0, 5) )), text: " world".into(), range_length: None, }] ); // delete let transaction = transaction.invert(&old_doc); let old_doc = doc.text().clone(); doc.apply(&transaction, view); let changes = Client::changeset_to_changes( &old_doc, doc.text(), transaction.changes(), OffsetEncoding::Utf8, ); // line: 0-based. // col: 0-based, gaps between chars. // 0 1 2 3 4 5 6 7 8 9 0 1 // |h|e|l|l|o| |w|o|r|l|d| // ------------- // (0, 5)-(0, 11) assert_eq!( changes, &[lsp::TextDocumentContentChangeEvent { range: Some(lsp::Range::new( lsp::Position::new(0, 5), lsp::Position::new(0, 11) )), text: "".into(), range_length: None, }] ); // replace // also tests that changes are layered, positions depend on previous changes. doc.set_selection(view, Selection::single(0, 5)); let transaction = Transaction::change( doc.text(), vec![(0, 2, Some("aei".into())), (3, 5, Some("ou".into()))].into_iter(), ); // aeilou let old_doc = doc.text().clone(); doc.apply(&transaction, view); let changes = Client::changeset_to_changes( &old_doc, doc.text(), transaction.changes(), OffsetEncoding::Utf8, ); assert_eq!( changes, &[ // 0 1 2 3 4 5 // |h|e|l|l|o| // ---- // // aeillo lsp::TextDocumentContentChangeEvent { range: Some(lsp::Range::new( lsp::Position::new(0, 0), lsp::Position::new(0, 2) )), text: "aei".into(), range_length: None, }, // 0 1 2 3 4 5 6 // |a|e|i|l|l|o| // ----- // // aeilou lsp::TextDocumentContentChangeEvent { range: Some(lsp::Range::new( lsp::Position::new(0, 4), lsp::Position::new(0, 6) )), text: "ou".into(), range_length: None, } ] ); } }