use super::*; use crate::Buffer; use clock::ReplicaId; use collections::BTreeMap; use futures::FutureExt as _; use gpui::{App, AppContext as _, BorrowAppContext, Entity}; use gpui::{HighlightStyle, TestAppContext}; use indoc::indoc; use pretty_assertions::assert_eq; use proto::deserialize_operation; use rand::prelude::*; use regex::RegexBuilder; use settings::SettingsStore; use settings::{AllLanguageSettingsContent, LanguageSettingsContent}; use std::collections::BTreeSet; use std::{ env, ops::Range, sync::LazyLock, time::{Duration, Instant}, }; use syntax_map::TreeSitterOptions; use text::network::Network; use text::{BufferId, LineEnding}; use text::{Point, ToPoint}; use theme::ActiveTheme; use unindent::Unindent as _; use util::rel_path::rel_path; use util::test::marked_text_offsets; use util::{RandomCharIter, assert_set_eq, post_inc, test::marked_text_ranges}; pub static TRAILING_WHITESPACE_REGEX: LazyLock = LazyLock::new(|| { RegexBuilder::new(r"[ \t]+$") .multi_line(true) .build() .expect("Failed to create TRAILING_WHITESPACE_REGEX") }); #[cfg(test)] #[ctor::ctor] fn init_logger() { zlog::init_test(); } #[gpui::test] fn test_line_endings(cx: &mut gpui::App) { init_settings(cx, |_| {}); cx.new(|cx| { let mut buffer = Buffer::local("one\r\ntwo\rthree", cx).with_language(rust_lang(), cx); assert_eq!(buffer.text(), "one\ntwo\nthree"); assert_eq!(buffer.line_ending(), LineEnding::Windows); buffer.check_invariants(); buffer.edit( [(buffer.len()..buffer.len(), "\r\nfour")], Some(AutoindentMode::EachLine), cx, ); buffer.edit([(0..0, "zero\r\n")], None, cx); assert_eq!(buffer.text(), "zero\none\ntwo\nthree\nfour"); assert_eq!(buffer.line_ending(), LineEnding::Windows); buffer.check_invariants(); buffer }); } #[gpui::test] fn test_set_line_ending(cx: &mut TestAppContext) { let base = cx.new(|cx| Buffer::local("one\ntwo\nthree\n", cx)); let base_replica = cx.new(|cx| { Buffer::from_proto( ReplicaId::new(1), Capability::ReadWrite, base.read(cx).to_proto(cx), None, ) .unwrap() }); base.update(cx, |_buffer, cx| { cx.subscribe(&base_replica, |this, _, event, cx| { if let BufferEvent::Operation { operation, is_local: true, } = event { this.apply_ops([operation.clone()], cx); } }) .detach(); }); base_replica.update(cx, |_buffer, cx| { cx.subscribe(&base, |this, _, event, cx| { if let BufferEvent::Operation { operation, is_local: true, } = event { this.apply_ops([operation.clone()], cx); } }) .detach(); }); // Base base_replica.read_with(cx, |buffer, _| { assert_eq!(buffer.line_ending(), LineEnding::Unix); }); base.update(cx, |buffer, cx| { assert_eq!(buffer.line_ending(), LineEnding::Unix); buffer.set_line_ending(LineEnding::Windows, cx); assert_eq!(buffer.line_ending(), LineEnding::Windows); }); base_replica.read_with(cx, |buffer, _| { assert_eq!(buffer.line_ending(), LineEnding::Windows); }); base.update(cx, |buffer, cx| { buffer.set_line_ending(LineEnding::Unix, cx); assert_eq!(buffer.line_ending(), LineEnding::Unix); }); base_replica.read_with(cx, |buffer, _| { assert_eq!(buffer.line_ending(), LineEnding::Unix); }); // Replica base.read_with(cx, |buffer, _| { assert_eq!(buffer.line_ending(), LineEnding::Unix); }); base_replica.update(cx, |buffer, cx| { assert_eq!(buffer.line_ending(), LineEnding::Unix); buffer.set_line_ending(LineEnding::Windows, cx); assert_eq!(buffer.line_ending(), LineEnding::Windows); }); base.read_with(cx, |buffer, _| { assert_eq!(buffer.line_ending(), LineEnding::Windows); }); base_replica.update(cx, |buffer, cx| { buffer.set_line_ending(LineEnding::Unix, cx); assert_eq!(buffer.line_ending(), LineEnding::Unix); }); base.read_with(cx, |buffer, _| { assert_eq!(buffer.line_ending(), LineEnding::Unix); }); } #[gpui::test] fn test_select_language(cx: &mut App) { init_settings(cx, |_| {}); let registry = Arc::new(LanguageRegistry::test(cx.background_executor().clone())); registry.add(Arc::new(Language::new( LanguageConfig { name: LanguageName::new_static("Rust"), matcher: LanguageMatcher { path_suffixes: vec!["rs".to_string()], ..Default::default() }, ..Default::default() }, Some(tree_sitter_rust::LANGUAGE.into()), ))); registry.add(Arc::new(Language::new( LanguageConfig { name: "Rust with longer extension".into(), matcher: LanguageMatcher { path_suffixes: vec!["longer.rs".to_string()], ..Default::default() }, ..Default::default() }, Some(tree_sitter_rust::LANGUAGE.into()), ))); registry.add(Arc::new(Language::new( LanguageConfig { name: LanguageName::new_static("Make"), matcher: LanguageMatcher { path_suffixes: vec!["Makefile".to_string(), "mk".to_string()], ..Default::default() }, ..Default::default() }, Some(tree_sitter_rust::LANGUAGE.into()), ))); // matching file extension assert_eq!( registry .language_for_file(&file("src/lib.rs"), None, cx) .map(|l| l.name()), Some("Rust".into()) ); assert_eq!( registry .language_for_file(&file("src/lib.mk"), None, cx) .map(|l| l.name()), Some("Make".into()) ); // matching longer, compound extension, part of which could also match another lang assert_eq!( registry .language_for_file(&file("src/lib.longer.rs"), None, cx) .map(|l| l.name()), Some("Rust with longer extension".into()) ); // matching filename assert_eq!( registry .language_for_file(&file("src/Makefile"), None, cx) .map(|l| l.name()), Some("Make".into()) ); // matching suffix that is not the full file extension or filename assert_eq!( registry .language_for_file(&file("zed/cars"), None, cx) .map(|l| l.name()), None ); assert_eq!( registry .language_for_file(&file("zed/a.cars"), None, cx) .map(|l| l.name()), None ); assert_eq!( registry .language_for_file(&file("zed/sumk"), None, cx) .map(|l| l.name()), None ); } #[gpui::test(iterations = 10)] async fn test_first_line_pattern(cx: &mut TestAppContext) { cx.update(|cx| init_settings(cx, |_| {})); let languages = LanguageRegistry::test(cx.executor()); let languages = Arc::new(languages); languages.register_test_language(LanguageConfig { name: "JavaScript".into(), matcher: LanguageMatcher { path_suffixes: vec!["js".into()], first_line_pattern: Some(Regex::new(r"\bnode\b").unwrap()), ..LanguageMatcher::default() }, ..Default::default() }); assert!( cx.read(|cx| languages.language_for_file(&file("the/script"), None, cx)) .is_none() ); assert!( cx.read(|cx| languages.language_for_file(&file("the/script"), Some(&"nothing".into()), cx)) .is_none() ); assert_eq!( cx.read(|cx| languages.language_for_file( &file("the/script"), Some(&"#!/bin/env node".into()), cx )) .unwrap() .name(), "JavaScript" ); } #[gpui::test] async fn test_language_for_file_with_custom_file_types(cx: &mut TestAppContext) { cx.update(|cx| { init_settings(cx, |settings| { settings.file_types.get_or_insert_default().extend([ ("TypeScript".into(), vec!["js".into()].into()), ( "JavaScript".into(), vec!["*longer.ts".into(), "ecmascript".into()].into(), ), ("C++".into(), vec!["c".into(), "*.dev".into()].into()), ( "Dockerfile".into(), vec!["Dockerfile".into(), "Dockerfile.*".into()].into(), ), ]); }) }); let languages = Arc::new(LanguageRegistry::test(cx.executor())); for config in [ LanguageConfig { name: "JavaScript".into(), matcher: LanguageMatcher { path_suffixes: vec!["js".to_string()], ..Default::default() }, ..Default::default() }, LanguageConfig { name: "TypeScript".into(), matcher: LanguageMatcher { path_suffixes: vec!["ts".to_string(), "ts.ecmascript".to_string()], ..Default::default() }, ..Default::default() }, LanguageConfig { name: "C++".into(), matcher: LanguageMatcher { path_suffixes: vec!["cpp".to_string()], ..Default::default() }, ..Default::default() }, LanguageConfig { name: "C".into(), matcher: LanguageMatcher { path_suffixes: vec!["c".to_string()], ..Default::default() }, ..Default::default() }, LanguageConfig { name: "Dockerfile".into(), matcher: LanguageMatcher { path_suffixes: vec!["Dockerfile".to_string()], ..Default::default() }, ..Default::default() }, ] { languages.add(Arc::new(Language::new(config, None))); } // matches system-provided lang extension let language = cx .read(|cx| languages.language_for_file(&file("foo.ts"), None, cx)) .unwrap(); assert_eq!(language.name(), "TypeScript"); let language = cx .read(|cx| languages.language_for_file(&file("foo.ts.ecmascript"), None, cx)) .unwrap(); assert_eq!(language.name(), "TypeScript"); let language = cx .read(|cx| languages.language_for_file(&file("foo.cpp"), None, cx)) .unwrap(); assert_eq!(language.name(), "C++"); // user configured lang extension, same length as system-provided let language = cx .read(|cx| languages.language_for_file(&file("foo.js"), None, cx)) .unwrap(); assert_eq!(language.name(), "TypeScript"); let language = cx .read(|cx| languages.language_for_file(&file("foo.c"), None, cx)) .unwrap(); assert_eq!(language.name(), "C++"); // user configured lang extension, longer than system-provided let language = cx .read(|cx| languages.language_for_file(&file("foo.longer.ts"), None, cx)) .unwrap(); assert_eq!(language.name(), "JavaScript"); // user configured lang extension, shorter than system-provided let language = cx .read(|cx| languages.language_for_file(&file("foo.ecmascript"), None, cx)) .unwrap(); assert_eq!(language.name(), "JavaScript"); // user configured glob matches let language = cx .read(|cx| languages.language_for_file(&file("c-plus-plus.dev"), None, cx)) .unwrap(); assert_eq!(language.name(), "C++"); // should match Dockerfile.* => Dockerfile, not *.dev => C++ let language = cx .read(|cx| languages.language_for_file(&file("Dockerfile.dev"), None, cx)) .unwrap(); assert_eq!(language.name(), "Dockerfile"); } fn file(path: &str) -> Arc { Arc::new(TestFile { path: Arc::from(rel_path(path)), root_name: "zed".into(), local_root: None, }) } #[gpui::test] fn test_edit_events(cx: &mut gpui::App) { let mut now = Instant::now(); let buffer_1_events = Arc::new(Mutex::new(Vec::new())); let buffer_2_events = Arc::new(Mutex::new(Vec::new())); let buffer1 = cx.new(|cx| Buffer::local("abcdef", cx)); let buffer2 = cx.new(|cx| { Buffer::remote( BufferId::from(cx.entity_id().as_non_zero_u64()), ReplicaId::new(1), Capability::ReadWrite, "abcdef", ) }); let buffer1_ops = Arc::new(Mutex::new(Vec::new())); buffer1.update(cx, { let buffer1_ops = buffer1_ops.clone(); |buffer, cx| { let buffer_1_events = buffer_1_events.clone(); cx.subscribe(&buffer1, move |_, _, event, _| match event.clone() { BufferEvent::Operation { operation, is_local: true, } => buffer1_ops.lock().push(operation), event => buffer_1_events.lock().push(event), }) .detach(); let buffer_2_events = buffer_2_events.clone(); cx.subscribe(&buffer2, move |_, _, event, _| match event.clone() { BufferEvent::Operation { is_local: false, .. } => {} event => buffer_2_events.lock().push(event), }) .detach(); // An edit emits an edited event, followed by a dirty changed event, // since the buffer was previously in a clean state. buffer.edit([(2..4, "XYZ")], None, cx); // An empty transaction does not emit any events. buffer.start_transaction(); buffer.end_transaction(cx); // A transaction containing two edits emits one edited event. now += Duration::from_secs(1); buffer.start_transaction_at(now); buffer.edit([(5..5, "u")], None, cx); buffer.edit([(6..6, "w")], None, cx); buffer.end_transaction_at(now, cx); // Undoing a transaction emits one edited event. buffer.undo(cx); } }); // Incorporating a set of remote ops emits a single edited event, // followed by a dirty changed event. buffer2.update(cx, |buffer, cx| { buffer.apply_ops(buffer1_ops.lock().drain(..), cx); }); assert_eq!( mem::take(&mut *buffer_1_events.lock()), vec![ BufferEvent::Edited { is_local: true }, BufferEvent::DirtyChanged, BufferEvent::Edited { is_local: true }, BufferEvent::Edited { is_local: true }, ] ); assert_eq!( mem::take(&mut *buffer_2_events.lock()), vec![ BufferEvent::Edited { is_local: false }, BufferEvent::DirtyChanged ] ); buffer1.update(cx, |buffer, cx| { // Undoing the first transaction emits edited event, followed by a // dirty changed event, since the buffer is again in a clean state. buffer.undo(cx); }); // Incorporating the remote ops again emits a single edited event, // followed by a dirty changed event. buffer2.update(cx, |buffer, cx| { buffer.apply_ops(buffer1_ops.lock().drain(..), cx); }); assert_eq!( mem::take(&mut *buffer_1_events.lock()), vec![ BufferEvent::Edited { is_local: true }, BufferEvent::DirtyChanged, ] ); assert_eq!( mem::take(&mut *buffer_2_events.lock()), vec![ BufferEvent::Edited { is_local: false }, BufferEvent::DirtyChanged ] ); } #[gpui::test] async fn test_apply_diff(cx: &mut TestAppContext) { let (text, offsets) = marked_text_offsets( "one two three\nfour fiˇve six\nseven eightˇ nine\nten eleven twelve\n", ); let buffer = cx.new(|cx| Buffer::local(text, cx)); let anchors = buffer.update(cx, |buffer, _| { offsets .iter() .map(|offset| buffer.anchor_before(offset)) .collect::>() }); let (text, offsets) = marked_text_offsets( "one two three\n{\nfour FIVEˇ six\n}\nseven AND EIGHTˇ nine\nten eleven twelve\n", ); let diff = buffer.update(cx, |b, cx| b.diff(text.clone(), cx)).await; buffer.update(cx, |buffer, cx| { buffer.apply_diff(diff, cx).unwrap(); assert_eq!(buffer.text(), text); let actual_offsets = anchors .iter() .map(|anchor| anchor.to_offset(buffer)) .collect::>(); assert_eq!(actual_offsets, offsets); }); let (text, offsets) = marked_text_offsets("one two three\n{\nˇ}\nseven AND EIGHTEENˇ nine\nten eleven twelve\n"); let diff = buffer.update(cx, |b, cx| b.diff(text.clone(), cx)).await; buffer.update(cx, |buffer, cx| { buffer.apply_diff(diff, cx).unwrap(); assert_eq!(buffer.text(), text); let actual_offsets = anchors .iter() .map(|anchor| anchor.to_offset(buffer)) .collect::>(); assert_eq!(actual_offsets, offsets); }); } #[gpui::test(iterations = 10)] async fn test_normalize_whitespace(cx: &mut gpui::TestAppContext) { let text = [ "zero", // "one ", // 2 trailing spaces "two", // "three ", // 3 trailing spaces "four", // "five ", // 4 trailing spaces ] .join("\n"); let buffer = cx.new(|cx| Buffer::local(text, cx)); // Spawn a task to format the buffer's whitespace. // Pause so that the formatting task starts running. let format = buffer.update(cx, |buffer, cx| buffer.remove_trailing_whitespace(cx)); smol::future::yield_now().await; // Edit the buffer while the normalization task is running. let version_before_edit = buffer.update(cx, |buffer, _| buffer.version()); buffer.update(cx, |buffer, cx| { buffer.edit( [ (Point::new(0, 1)..Point::new(0, 1), "EE"), (Point::new(3, 5)..Point::new(3, 5), "EEE"), ], None, cx, ); }); let format_diff = format.await; buffer.update(cx, |buffer, cx| { let version_before_format = format_diff.base_version.clone(); buffer.apply_diff(format_diff, cx); // The outcome depends on the order of concurrent tasks. // // If the edit occurred while searching for trailing whitespace ranges, // then the trailing whitespace region touched by the edit is left intact. if version_before_format == version_before_edit { assert_eq!( buffer.text(), [ "zEEero", // "one", // "two", // "threeEEE ", // "four", // "five", // ] .join("\n") ); } // Otherwise, all trailing whitespace is removed. else { assert_eq!( buffer.text(), [ "zEEero", // "one", // "two", // "threeEEE", // "four", // "five", // ] .join("\n") ); } }); } #[gpui::test] async fn test_reparse(cx: &mut gpui::TestAppContext) { let text = "fn a() {}"; let buffer = cx.new(|cx| Buffer::local(text, cx).with_language(rust_lang(), cx)); // Wait for the initial text to parse cx.executor().run_until_parked(); assert!(!buffer.update(cx, |buffer, _| buffer.is_parsing())); assert_eq!( get_tree_sexp(&buffer, cx), concat!( "(source_file (function_item name: (identifier) ", "parameters: (parameters) ", "body: (block)))" ) ); buffer.update(cx, |buffer, _| buffer.set_sync_parse_timeout(None)); // Perform some edits (add parameter and variable reference) // Parsing doesn't begin until the transaction is complete buffer.update(cx, |buf, cx| { buf.start_transaction(); let offset = buf.text().find(')').unwrap(); buf.edit([(offset..offset, "b: C")], None, cx); assert!(!buf.is_parsing()); let offset = buf.text().find('}').unwrap(); buf.edit([(offset..offset, " d; ")], None, cx); assert!(!buf.is_parsing()); buf.end_transaction(cx); assert_eq!(buf.text(), "fn a(b: C) { d; }"); assert!(buf.is_parsing()); }); cx.executor().run_until_parked(); assert!(!buffer.update(cx, |buffer, _| buffer.is_parsing())); assert_eq!( get_tree_sexp(&buffer, cx), concat!( "(source_file (function_item name: (identifier) ", "parameters: (parameters (parameter pattern: (identifier) type: (type_identifier))) ", "body: (block (expression_statement (identifier)))))" ) ); // Perform a series of edits without waiting for the current parse to complete: // * turn identifier into a field expression // * turn field expression into a method call // * add a turbofish to the method call buffer.update(cx, |buf, cx| { let offset = buf.text().find(';').unwrap(); buf.edit([(offset..offset, ".e")], None, cx); assert_eq!(buf.text(), "fn a(b: C) { d.e; }"); assert!(buf.is_parsing()); }); buffer.update(cx, |buf, cx| { let offset = buf.text().find(';').unwrap(); buf.edit([(offset..offset, "(f)")], None, cx); assert_eq!(buf.text(), "fn a(b: C) { d.e(f); }"); assert!(buf.is_parsing()); }); buffer.update(cx, |buf, cx| { let offset = buf.text().find("(f)").unwrap(); buf.edit([(offset..offset, "::")], None, cx); assert_eq!(buf.text(), "fn a(b: C) { d.e::(f); }"); assert!(buf.is_parsing()); }); cx.executor().run_until_parked(); assert_eq!( get_tree_sexp(&buffer, cx), concat!( "(source_file (function_item name: (identifier) ", "parameters: (parameters (parameter pattern: (identifier) type: (type_identifier))) ", "body: (block (expression_statement (call_expression ", "function: (generic_function ", "function: (field_expression value: (identifier) field: (field_identifier)) ", "type_arguments: (type_arguments (type_identifier))) ", "arguments: (arguments (identifier)))))))", ) ); buffer.update(cx, |buf, cx| { buf.undo(cx); buf.undo(cx); buf.undo(cx); buf.undo(cx); assert_eq!(buf.text(), "fn a() {}"); assert!(buf.is_parsing()); }); cx.executor().run_until_parked(); assert_eq!( get_tree_sexp(&buffer, cx), concat!( "(source_file (function_item name: (identifier) ", "parameters: (parameters) ", "body: (block)))" ) ); buffer.update(cx, |buf, cx| { buf.redo(cx); buf.redo(cx); buf.redo(cx); buf.redo(cx); assert_eq!(buf.text(), "fn a(b: C) { d.e::(f); }"); assert!(buf.is_parsing()); }); cx.executor().run_until_parked(); assert_eq!( get_tree_sexp(&buffer, cx), concat!( "(source_file (function_item name: (identifier) ", "parameters: (parameters (parameter pattern: (identifier) type: (type_identifier))) ", "body: (block (expression_statement (call_expression ", "function: (generic_function ", "function: (field_expression value: (identifier) field: (field_identifier)) ", "type_arguments: (type_arguments (type_identifier))) ", "arguments: (arguments (identifier)))))))", ) ); } #[gpui::test] async fn test_resetting_language(cx: &mut gpui::TestAppContext) { let buffer = cx.new(|cx| { let mut buffer = Buffer::local("{}", cx).with_language(rust_lang(), cx); buffer.set_sync_parse_timeout(None); buffer }); // Wait for the initial text to parse cx.executor().run_until_parked(); assert_eq!( get_tree_sexp(&buffer, cx), "(source_file (expression_statement (block)))" ); buffer.update(cx, |buffer, cx| { buffer.set_language(Some(Arc::new(json_lang())), cx) }); cx.executor().run_until_parked(); assert_eq!(get_tree_sexp(&buffer, cx), "(document (object))"); } #[gpui::test] async fn test_outline(cx: &mut gpui::TestAppContext) { let text = r#" struct Person { name: String, age: usize, } mod module { enum LoginState { LoggedOut, LoggingOn, LoggedIn { person: Person, time: Instant, } } } impl Eq for Person {} impl Drop for Person { fn drop(&mut self) { println!("bye"); } } "# .unindent(); let buffer = cx.new(|cx| Buffer::local(text, cx).with_language(rust_lang(), cx)); let snapshot = buffer.update(cx, |buffer, _| buffer.snapshot()); let outline = snapshot.outline(None); assert_eq!( outline .items .iter() .map(|item| ( item.text.as_str(), item.depth, item.to_point(&snapshot).body_range(&snapshot) .map(|range| minimize_space(&snapshot.text_for_range(range).collect::())) )) .collect::>(), &[ ("struct Person", 0, Some("name: String, age: usize,".to_string())), ("name", 1, None), ("age", 1, None), ( "mod module", 0, Some( "enum LoginState { LoggedOut, LoggingOn, LoggedIn { person: Person, time: Instant, } }".to_string() ) ), ( "enum LoginState", 1, Some("LoggedOut, LoggingOn, LoggedIn { person: Person, time: Instant, }".to_string()) ), ("LoggedOut", 2, None), ("LoggingOn", 2, None), ("LoggedIn", 2, Some("person: Person, time: Instant,".to_string())), ("person", 3, None), ("time", 3, None), ("impl Eq for Person", 0, Some("".to_string())), ( "impl Drop for Person", 0, Some("fn drop(&mut self) { println!(\"bye\"); }".to_string()) ), ("fn drop", 1, Some("println!(\"bye\");".to_string())), ] ); // Without space, we only match on names assert_eq!( search(&outline, "oon", cx).await, &[ ("mod module", vec![]), // included as the parent of a match ("enum LoginState", vec![]), // included as the parent of a match ("LoggingOn", vec![1, 7, 8]), // matches ("impl Drop for Person", vec![7, 18, 19]), // matches in two disjoint names ] ); assert_eq!( search(&outline, "dp p", cx).await, &[ ("impl Drop for Person", vec![5, 8, 9, 14]), ("fn drop", vec![]), ] ); assert_eq!( search(&outline, "dpn", cx).await, &[("impl Drop for Person", vec![5, 14, 19])] ); assert_eq!( search(&outline, "impl ", cx).await, &[ ("impl Eq for Person", vec![0, 1, 2, 3, 4]), ("impl Drop for Person", vec![0, 1, 2, 3, 4]), ("fn drop", vec![]), ] ); fn minimize_space(text: &str) -> String { static WHITESPACE: LazyLock = LazyLock::new(|| Regex::new("[\\n\\s]+").unwrap()); WHITESPACE.replace_all(text, " ").trim().to_string() } async fn search<'a>( outline: &'a Outline, query: &'a str, cx: &'a gpui::TestAppContext, ) -> Vec<(&'a str, Vec)> { let matches = cx .update(|cx| outline.search(query, cx.background_executor().clone())) .await; matches .into_iter() .map(|mat| (outline.items[mat.candidate_id].text.as_str(), mat.positions)) .collect::>() } } #[gpui::test] async fn test_outline_nodes_with_newlines(cx: &mut gpui::TestAppContext) { let text = r#" impl A for B< C > { }; "# .unindent(); let buffer = cx.new(|cx| Buffer::local(text, cx).with_language(rust_lang(), cx)); let outline = buffer.update(cx, |buffer, _| buffer.snapshot().outline(None)); assert_eq!( outline .items .iter() .map(|item| (item.text.as_str(), item.depth)) .collect::>(), &[("impl A for B<", 0)] ); } #[gpui::test] async fn test_outline_with_extra_context(cx: &mut gpui::TestAppContext) { let language = javascript_lang() .with_outline_query( r#" (function_declaration "function" @context name: (_) @name parameters: (formal_parameters "(" @context.extra ")" @context.extra)) @item "#, ) .unwrap(); let text = r#" function a() {} function b(c) {} "# .unindent(); let buffer = cx.new(|cx| Buffer::local(text, cx).with_language(Arc::new(language), cx)); let snapshot = buffer.update(cx, |buffer, _| buffer.snapshot()); // extra context nodes are included in the outline. let outline = snapshot.outline(None); assert_eq!( outline .items .iter() .map(|item| (item.text.as_str(), item.depth)) .collect::>(), &[("function a()", 0), ("function b( )", 0),] ); // extra context nodes do not appear in breadcrumbs. let symbols = snapshot.symbols_containing(3, None); assert_eq!( symbols .iter() .map(|item| (item.text.as_str(), item.depth)) .collect::>(), &[("function a", 0)] ); } #[gpui::test] fn test_outline_annotations(cx: &mut App) { // Add this new test case let text = r#" /// This is a doc comment /// that spans multiple lines fn annotated_function() { // This is not an annotation } // This is a single-line annotation fn another_function() {} fn unannotated_function() {} // This comment is not an annotation fn function_after_blank_line() {} "# .unindent(); let buffer = cx.new(|cx| Buffer::local(text, cx).with_language(rust_lang(), cx)); let outline = buffer.update(cx, |buffer, _| buffer.snapshot().outline(None)); assert_eq!( outline .items .into_iter() .map(|item| ( item.text, item.depth, item.annotation_range .map(|range| { buffer.read(cx).text_for_range(range).collect::() }) )) .collect::>(), &[ ( "fn annotated_function".to_string(), 0, Some("/// This is a doc comment\n/// that spans multiple lines".to_string()) ), ( "fn another_function".to_string(), 0, Some("// This is a single-line annotation".to_string()) ), ("fn unannotated_function".to_string(), 0, None), ("fn function_after_blank_line".to_string(), 0, None), ] ); } #[gpui::test] async fn test_symbols_containing(cx: &mut gpui::TestAppContext) { let text = r#" impl Person { fn one() { 1 } fn two() { 2 }fn three() { 3 } } "# .unindent(); let buffer = cx.new(|cx| Buffer::local(text, cx).with_language(rust_lang(), cx)); let snapshot = buffer.update(cx, |buffer, _| buffer.snapshot()); // point is at the start of an item assert_eq!( symbols_containing(Point::new(1, 4), &snapshot), vec![ ( "impl Person".to_string(), Point::new(0, 0)..Point::new(10, 1) ), ("fn one".to_string(), Point::new(1, 4)..Point::new(3, 5)) ] ); // point is in the middle of an item assert_eq!( symbols_containing(Point::new(2, 8), &snapshot), vec![ ( "impl Person".to_string(), Point::new(0, 0)..Point::new(10, 1) ), ("fn one".to_string(), Point::new(1, 4)..Point::new(3, 5)) ] ); // point is at the end of an item assert_eq!( symbols_containing(Point::new(3, 5), &snapshot), vec![ ( "impl Person".to_string(), Point::new(0, 0)..Point::new(10, 1) ), ("fn one".to_string(), Point::new(1, 4)..Point::new(3, 5)) ] ); // point is in between two adjacent items assert_eq!( symbols_containing(Point::new(7, 5), &snapshot), vec![ ( "impl Person".to_string(), Point::new(0, 0)..Point::new(10, 1) ), ("fn two".to_string(), Point::new(5, 4)..Point::new(7, 5)) ] ); fn symbols_containing( position: Point, snapshot: &BufferSnapshot, ) -> Vec<(String, Range)> { snapshot .symbols_containing(position, None) .into_iter() .map(|item| { ( item.text, item.range.start.to_point(snapshot)..item.range.end.to_point(snapshot), ) }) .collect() } let (text, offsets) = marked_text_offsets( &" // ˇ😅 // fn test() { } " .unindent(), ); let buffer = cx.new(|cx| Buffer::local(text, cx).with_language(rust_lang(), cx)); let snapshot = buffer.update(cx, |buffer, _| buffer.snapshot()); // note, it would be nice to actually return the method test in this // case, but primarily asserting we don't crash because of the multibyte character. assert_eq!(snapshot.symbols_containing(offsets[0], None), vec![]); } #[gpui::test] fn test_text_objects(cx: &mut App) { let (text, ranges) = marked_text_ranges( indoc! {r#" impl Hello { fn say() -> u8 { return /* ˇhi */ 1 } }"# }, false, ); let buffer = cx.new(|cx| Buffer::local(text.clone(), cx).with_language(rust_lang(), cx)); let snapshot = buffer.update(cx, |buffer, _| buffer.snapshot()); let matches = snapshot .text_object_ranges(ranges[0].clone(), TreeSitterOptions::default()) .map(|(range, text_object)| (&text[range], text_object)) .collect::>(); assert_eq!( matches, &[ ("/* hi */", TextObject::AroundComment), ("return /* hi */ 1", TextObject::InsideFunction), ( "fn say() -> u8 { return /* hi */ 1 }", TextObject::AroundFunction ), ( "fn say() -> u8 { return /* hi */ 1 }", TextObject::InsideClass ), ( "impl Hello {\n fn say() -> u8 { return /* hi */ 1 }\n}", TextObject::AroundClass ), ], ) } #[gpui::test] fn test_text_objects_with_has_parent_predicate(cx: &mut App) { use std::borrow::Cow; // Create a language with a custom text_objects query that uses #has-parent? // This query only matches closure_expression when it's inside a call_expression let language = Language::new( LanguageConfig { name: "Rust".into(), matcher: LanguageMatcher { path_suffixes: vec!["rs".to_string()], ..Default::default() }, ..Default::default() }, Some(tree_sitter_rust::LANGUAGE.into()), ) .with_queries(LanguageQueries { text_objects: Some(Cow::from(indoc! {r#" ; Only match closures that are arguments to function calls (closure_expression) @function.around (#has-parent? @function.around arguments) "#})), ..Default::default() }) .expect("Could not parse queries"); let (text, ranges) = marked_text_ranges( indoc! {r#" fn main() { let standalone = |x| x + 1; let result = foo(|y| y * ˇ2); }"# }, false, ); let buffer = cx.new(|cx| Buffer::local(text.clone(), cx).with_language(Arc::new(language), cx)); let snapshot = buffer.update(cx, |buffer, _| buffer.snapshot()); let matches = snapshot .text_object_ranges(ranges[0].clone(), TreeSitterOptions::default()) .map(|(range, text_object)| (&text[range], text_object)) .collect::>(); // Should only match the closure inside foo(), not the standalone closure assert_eq!(matches, &[("|y| y * 2", TextObject::AroundFunction),]); } #[gpui::test] fn test_text_objects_with_not_has_parent_predicate(cx: &mut App) { use std::borrow::Cow; // Create a language with a custom text_objects query that uses #not-has-parent? // This query only matches closure_expression when it's NOT inside a call_expression let language = Language::new( LanguageConfig { name: "Rust".into(), matcher: LanguageMatcher { path_suffixes: vec!["rs".to_string()], ..Default::default() }, ..Default::default() }, Some(tree_sitter_rust::LANGUAGE.into()), ) .with_queries(LanguageQueries { text_objects: Some(Cow::from(indoc! {r#" ; Only match closures that are NOT arguments to function calls (closure_expression) @function.around (#not-has-parent? @function.around arguments) "#})), ..Default::default() }) .expect("Could not parse queries"); let (text, ranges) = marked_text_ranges( indoc! {r#" fn main() { let standalone = |x| x +ˇ 1; let result = foo(|y| y * 2); }"# }, false, ); let buffer = cx.new(|cx| Buffer::local(text.clone(), cx).with_language(Arc::new(language), cx)); let snapshot = buffer.update(cx, |buffer, _| buffer.snapshot()); let matches = snapshot .text_object_ranges(ranges[0].clone(), TreeSitterOptions::default()) .map(|(range, text_object)| (&text[range], text_object)) .collect::>(); // Should only match the standalone closure, not the one inside foo() assert_eq!(matches, &[("|x| x + 1", TextObject::AroundFunction),]); } #[gpui::test] fn test_enclosing_bracket_ranges(cx: &mut App) { #[track_caller] fn assert(selection_text: &'static str, range_markers: Vec<&'static str>, cx: &mut App) { assert_bracket_pairs(selection_text, range_markers, rust_lang(), cx) } assert( indoc! {" mod x { moˇd y { } } let foo = 1;"}, vec![indoc! {" mod x «{» mod y { } «}» let foo = 1;"}], cx, ); assert( indoc! {" mod x { mod y ˇ{ } } let foo = 1;"}, vec![ indoc! {" mod x «{» mod y { } «}» let foo = 1;"}, indoc! {" mod x { mod y «{» «}» } let foo = 1;"}, ], cx, ); assert( indoc! {" mod x { mod y { }ˇ } let foo = 1;"}, vec![ indoc! {" mod x «{» mod y { } «}» let foo = 1;"}, indoc! {" mod x { mod y «{» «}» } let foo = 1;"}, ], cx, ); assert( indoc! {" mod x { mod y { } ˇ} let foo = 1;"}, vec![indoc! {" mod x «{» mod y { } «}» let foo = 1;"}], cx, ); assert( indoc! {" mod x { mod y { } } let fˇoo = 1;"}, Vec::new(), cx, ); // Regression test: avoid crash when querying at the end of the buffer. assert( indoc! {" mod x { mod y { } } let foo = 1;ˇ"}, Vec::new(), cx, ); } #[gpui::test] fn test_enclosing_bracket_ranges_where_brackets_are_not_outermost_children(cx: &mut App) { let mut assert = |selection_text, bracket_pair_texts| { assert_bracket_pairs( selection_text, bracket_pair_texts, Arc::new(javascript_lang()), cx, ) }; assert( indoc! {" for (const a in b)ˇ { // a comment that's longer than the for-loop header }"}, vec![indoc! {" for «(»const a in b«)» { // a comment that's longer than the for-loop header }"}], ); // Regression test: even though the parent node of the parentheses (the for loop) does // intersect the given range, the parentheses themselves do not contain the range, so // they should not be returned. Only the curly braces contain the range. assert( indoc! {" for (const a in b) {ˇ // a comment that's longer than the for-loop header }"}, vec![indoc! {" for (const a in b) «{» // a comment that's longer than the for-loop header «}»"}], ); } #[gpui::test] fn test_range_for_syntax_ancestor(cx: &mut App) { cx.new(|cx| { let text = "fn a() { b(|c| {}) }"; let buffer = Buffer::local(text, cx).with_language(rust_lang(), cx); let snapshot = buffer.snapshot(); assert_eq!( snapshot .syntax_ancestor(empty_range_at(text, "|")) .unwrap() .byte_range(), range_of(text, "|") ); assert_eq!( snapshot .syntax_ancestor(range_of(text, "|")) .unwrap() .byte_range(), range_of(text, "|c|") ); assert_eq!( snapshot .syntax_ancestor(range_of(text, "|c|")) .unwrap() .byte_range(), range_of(text, "|c| {}") ); assert_eq!( snapshot .syntax_ancestor(range_of(text, "|c| {}")) .unwrap() .byte_range(), range_of(text, "(|c| {})") ); buffer }); fn empty_range_at(text: &str, part: &str) -> Range { let start = text.find(part).unwrap(); start..start } fn range_of(text: &str, part: &str) -> Range { let start = text.find(part).unwrap(); start..start + part.len() } } #[gpui::test] fn test_autoindent_with_soft_tabs(cx: &mut App) { init_settings(cx, |_| {}); cx.new(|cx| { let text = "fn a() {}"; let mut buffer = Buffer::local(text, cx).with_language(rust_lang(), cx); buffer.edit([(8..8, "\n\n")], Some(AutoindentMode::EachLine), cx); assert_eq!(buffer.text(), "fn a() {\n \n}"); buffer.edit( [(Point::new(1, 4)..Point::new(1, 4), "b()\n")], Some(AutoindentMode::EachLine), cx, ); assert_eq!(buffer.text(), "fn a() {\n b()\n \n}"); // Create a field expression on a new line, causing that line // to be indented. buffer.edit( [(Point::new(2, 4)..Point::new(2, 4), ".c")], Some(AutoindentMode::EachLine), cx, ); assert_eq!(buffer.text(), "fn a() {\n b()\n .c\n}"); // Remove the dot so that the line is no longer a field expression, // causing the line to be outdented. buffer.edit( [(Point::new(2, 8)..Point::new(2, 9), "")], Some(AutoindentMode::EachLine), cx, ); assert_eq!(buffer.text(), "fn a() {\n b()\n c\n}"); buffer }); } #[gpui::test] fn test_autoindent_with_hard_tabs(cx: &mut App) { init_settings(cx, |settings| { settings.defaults.hard_tabs = Some(true); }); cx.new(|cx| { let text = "fn a() {}"; let mut buffer = Buffer::local(text, cx).with_language(rust_lang(), cx); buffer.edit([(8..8, "\n\n")], Some(AutoindentMode::EachLine), cx); assert_eq!(buffer.text(), "fn a() {\n\t\n}"); buffer.edit( [(Point::new(1, 1)..Point::new(1, 1), "b()\n")], Some(AutoindentMode::EachLine), cx, ); assert_eq!(buffer.text(), "fn a() {\n\tb()\n\t\n}"); // Create a field expression on a new line, causing that line // to be indented. buffer.edit( [(Point::new(2, 1)..Point::new(2, 1), ".c")], Some(AutoindentMode::EachLine), cx, ); assert_eq!(buffer.text(), "fn a() {\n\tb()\n\t\t.c\n}"); // Remove the dot so that the line is no longer a field expression, // causing the line to be outdented. buffer.edit( [(Point::new(2, 2)..Point::new(2, 3), "")], Some(AutoindentMode::EachLine), cx, ); assert_eq!(buffer.text(), "fn a() {\n\tb()\n\tc\n}"); buffer }); } #[gpui::test] fn test_autoindent_does_not_adjust_lines_with_unchanged_suggestion(cx: &mut App) { init_settings(cx, |_| {}); cx.new(|cx| { let mut buffer = Buffer::local( " fn a() { c; d; } " .unindent(), cx, ) .with_language(rust_lang(), cx); // Lines 2 and 3 don't match the indentation suggestion. When editing these lines, // their indentation is not adjusted. buffer.edit_via_marked_text( &" fn a() { c«()»; d«()»; } " .unindent(), Some(AutoindentMode::EachLine), cx, ); assert_eq!( buffer.text(), " fn a() { c(); d(); } " .unindent() ); // When appending new content after these lines, the indentation is based on the // preceding lines' actual indentation. buffer.edit_via_marked_text( &" fn a() { c« .f .g()»; d« .f .g()»; } " .unindent(), Some(AutoindentMode::EachLine), cx, ); assert_eq!( buffer.text(), " fn a() { c .f .g(); d .f .g(); } " .unindent() ); // Insert a newline after the open brace. It is auto-indented buffer.edit_via_marked_text( &" fn a() {« » c .f .g(); d .f .g(); } " .unindent(), Some(AutoindentMode::EachLine), cx, ); assert_eq!( buffer.text(), " fn a() { ˇ c .f .g(); d .f .g(); } " .unindent() .replace("ˇ", "") ); // Manually outdent the line. It stays outdented. buffer.edit_via_marked_text( &" fn a() { «» c .f .g(); d .f .g(); } " .unindent(), Some(AutoindentMode::EachLine), cx, ); assert_eq!( buffer.text(), " fn a() { c .f .g(); d .f .g(); } " .unindent() ); buffer }); cx.new(|cx| { eprintln!("second buffer: {:?}", cx.entity_id()); let mut buffer = Buffer::local( " fn a() { b(); | " .replace('|', "") // marker to preserve trailing whitespace .unindent(), cx, ) .with_language(rust_lang(), cx); // Insert a closing brace. It is outdented. buffer.edit_via_marked_text( &" fn a() { b(); «}» " .unindent(), Some(AutoindentMode::EachLine), cx, ); assert_eq!( buffer.text(), " fn a() { b(); } " .unindent() ); // Manually edit the leading whitespace. The edit is preserved. buffer.edit_via_marked_text( &" fn a() { b(); « »} " .unindent(), Some(AutoindentMode::EachLine), cx, ); assert_eq!( buffer.text(), " fn a() { b(); } " .unindent() ); buffer }); eprintln!("DONE"); } #[gpui::test] fn test_autoindent_does_not_adjust_lines_within_newly_created_errors(cx: &mut App) { init_settings(cx, |_| {}); cx.new(|cx| { let mut buffer = Buffer::local( " fn a() { i } " .unindent(), cx, ) .with_language(rust_lang(), cx); // Regression test: line does not get outdented due to syntax error buffer.edit_via_marked_text( &" fn a() { i«f let Some(x) = y» } " .unindent(), Some(AutoindentMode::EachLine), cx, ); assert_eq!( buffer.text(), " fn a() { if let Some(x) = y } " .unindent() ); buffer.edit_via_marked_text( &" fn a() { if let Some(x) = y« {» } " .unindent(), Some(AutoindentMode::EachLine), cx, ); assert_eq!( buffer.text(), " fn a() { if let Some(x) = y { } " .unindent() ); buffer }); } #[gpui::test] fn test_autoindent_adjusts_lines_when_only_text_changes(cx: &mut App) { init_settings(cx, |_| {}); cx.new(|cx| { let mut buffer = Buffer::local( " fn a() {} " .unindent(), cx, ) .with_language(rust_lang(), cx); buffer.edit_via_marked_text( &" fn a(« b») {} " .unindent(), Some(AutoindentMode::EachLine), cx, ); assert_eq!( buffer.text(), " fn a( b) {} " .unindent() ); // The indentation suggestion changed because `@end` node (a close paren) // is now at the beginning of the line. buffer.edit_via_marked_text( &" fn a( ˇ) {} " .unindent(), Some(AutoindentMode::EachLine), cx, ); assert_eq!( buffer.text(), " fn a( ) {} " .unindent() ); buffer }); } #[gpui::test] fn test_autoindent_with_edit_at_end_of_buffer(cx: &mut App) { init_settings(cx, |_| {}); cx.new(|cx| { let text = "a\nb"; let mut buffer = Buffer::local(text, cx).with_language(rust_lang(), cx); buffer.edit( [(0..1, "\n"), (2..3, "\n")], Some(AutoindentMode::EachLine), cx, ); assert_eq!(buffer.text(), "\n\n\n"); buffer }); } #[gpui::test] fn test_autoindent_multi_line_insertion(cx: &mut App) { init_settings(cx, |_| {}); cx.new(|cx| { let text = " const a: usize = 1; fn b() { if c { let d = 2; } } " .unindent(); let mut buffer = Buffer::local(text, cx).with_language(rust_lang(), cx); buffer.edit( [(Point::new(3, 0)..Point::new(3, 0), "e(\n f()\n);\n")], Some(AutoindentMode::EachLine), cx, ); assert_eq!( buffer.text(), " const a: usize = 1; fn b() { if c { e( f() ); let d = 2; } } " .unindent() ); buffer }); } #[gpui::test] fn test_autoindent_block_mode(cx: &mut App) { init_settings(cx, |_| {}); cx.new(|cx| { let text = r#" fn a() { b(); } "# .unindent(); let mut buffer = Buffer::local(text, cx).with_language(rust_lang(), cx); // When this text was copied, both of the quotation marks were at the same // indent level, but the indentation of the first line was not included in // the copied text. This information is retained in the // 'original_indent_columns' vector. let original_indent_columns = vec![Some(4)]; let inserted_text = r#" " c d e " "# .unindent(); // Insert the block at column zero. The entire block is indented // so that the first line matches the previous line's indentation. buffer.edit( [(Point::new(2, 0)..Point::new(2, 0), inserted_text.clone())], Some(AutoindentMode::Block { original_indent_columns: original_indent_columns.clone(), }), cx, ); assert_eq!( buffer.text(), r#" fn a() { b(); " c d e " } "# .unindent() ); // Grouping is disabled in tests, so we need 2 undos buffer.undo(cx); // Undo the auto-indent buffer.undo(cx); // Undo the original edit // Insert the block at a deeper indent level. The entire block is outdented. buffer.edit([(Point::new(2, 0)..Point::new(2, 0), " ")], None, cx); buffer.edit( [(Point::new(2, 8)..Point::new(2, 8), inserted_text)], Some(AutoindentMode::Block { original_indent_columns, }), cx, ); assert_eq!( buffer.text(), r#" fn a() { b(); " c d e " } "# .unindent() ); buffer }); } #[gpui::test] fn test_autoindent_block_mode_with_newline(cx: &mut App) { init_settings(cx, |_| {}); cx.new(|cx| { let text = r#" fn a() { b(); } "# .unindent(); let mut buffer = Buffer::local(text, cx).with_language(rust_lang(), cx); // First line contains just '\n', it's indentation is stored in "original_indent_columns" let original_indent_columns = vec![Some(4)]; let inserted_text = r#" c(); d(); e(); "# .unindent(); buffer.edit( [(Point::new(2, 0)..Point::new(2, 0), inserted_text)], Some(AutoindentMode::Block { original_indent_columns, }), cx, ); // While making edit, we ignore first line as it only contains '\n' // hence second line indent is used to calculate delta assert_eq!( buffer.text(), r#" fn a() { b(); c(); d(); e(); } "# .unindent() ); buffer }); } #[gpui::test] fn test_autoindent_block_mode_without_original_indent_columns(cx: &mut App) { init_settings(cx, |_| {}); cx.new(|cx| { let text = r#" fn a() { if b() { } } "# .unindent(); let mut buffer = Buffer::local(text, cx).with_language(rust_lang(), cx); // The original indent columns are not known, so this text is // auto-indented in a block as if the first line was copied in // its entirety. let original_indent_columns = Vec::new(); let inserted_text = " c\n .d()\n .e();"; // Insert the block at column zero. The entire block is indented // so that the first line matches the previous line's indentation. buffer.edit( [(Point::new(2, 0)..Point::new(2, 0), inserted_text)], Some(AutoindentMode::Block { original_indent_columns, }), cx, ); assert_eq!( buffer.text(), r#" fn a() { if b() { c .d() .e(); } } "# .unindent() ); // Grouping is disabled in tests, so we need 2 undos buffer.undo(cx); // Undo the auto-indent buffer.undo(cx); // Undo the original edit // Insert the block at a deeper indent level. The entire block is outdented. buffer.edit( [(Point::new(2, 0)..Point::new(2, 0), " ".repeat(12))], None, cx, ); buffer.edit( [(Point::new(2, 12)..Point::new(2, 12), inserted_text)], Some(AutoindentMode::Block { original_indent_columns: Vec::new(), }), cx, ); assert_eq!( buffer.text(), r#" fn a() { if b() { c .d() .e(); } } "# .unindent() ); buffer }); } #[gpui::test] fn test_autoindent_block_mode_multiple_adjacent_ranges(cx: &mut App) { init_settings(cx, |_| {}); cx.new(|cx| { let (text, ranges_to_replace) = marked_text_ranges( &" mod numbers { «fn one() { 1 } » «fn two() { 2 } » «fn three() { 3 } »} " .unindent(), false, ); let mut buffer = Buffer::local(text, cx).with_language(rust_lang(), cx); buffer.edit( [ (ranges_to_replace[0].clone(), "fn one() {\n 101\n}\n"), (ranges_to_replace[1].clone(), "fn two() {\n 102\n}\n"), (ranges_to_replace[2].clone(), "fn three() {\n 103\n}\n"), ], Some(AutoindentMode::Block { original_indent_columns: vec![Some(0), Some(0), Some(0)], }), cx, ); assert_eq!( buffer.text(), " mod numbers { fn one() { 101 } fn two() { 102 } fn three() { 103 } } " .unindent() ); buffer }); } #[gpui::test] fn test_autoindent_language_without_indents_query(cx: &mut App) { init_settings(cx, |_| {}); cx.new(|cx| { let text = " * one - a - b * two " .unindent(); let mut buffer = Buffer::local(text, cx).with_language( Arc::new(Language::new( LanguageConfig { name: "Markdown".into(), auto_indent_using_last_non_empty_line: false, ..Default::default() }, Some(tree_sitter_json::LANGUAGE.into()), )), cx, ); buffer.edit( [(Point::new(3, 0)..Point::new(3, 0), "\n")], Some(AutoindentMode::EachLine), cx, ); assert_eq!( buffer.text(), " * one - a - b * two " .unindent() ); buffer }); } #[gpui::test] fn test_autoindent_with_injected_languages(cx: &mut App) { init_settings(cx, |settings| { settings.languages.0.extend([ ( "HTML".into(), LanguageSettingsContent { tab_size: Some(2.try_into().unwrap()), ..Default::default() }, ), ( "JavaScript".into(), LanguageSettingsContent { tab_size: Some(8.try_into().unwrap()), ..Default::default() }, ), ]) }); let html_language = Arc::new(html_lang()); let javascript_language = Arc::new(javascript_lang()); let language_registry = Arc::new(LanguageRegistry::test(cx.background_executor().clone())); language_registry.add(html_language.clone()); language_registry.add(javascript_language); cx.new(|cx| { let (text, ranges) = marked_text_ranges( &"
ˇ
ˇ " .unindent(), false, ); let mut buffer = Buffer::local(text, cx); buffer.set_language_registry(language_registry); buffer.set_language(Some(html_language), cx); buffer.edit( ranges.into_iter().map(|range| (range, "\na")), Some(AutoindentMode::EachLine), cx, ); assert_eq!( buffer.text(), "
a
a " .unindent() ); buffer }); } #[gpui::test] fn test_autoindent_query_with_outdent_captures(cx: &mut App) { init_settings(cx, |settings| { settings.defaults.tab_size = Some(2.try_into().unwrap()); }); cx.new(|cx| { let mut buffer = Buffer::local("", cx).with_language(Arc::new(ruby_lang()), cx); let text = r#" class C def a(b, c) puts b puts c rescue puts "errored" exit 1 end end "# .unindent(); buffer.edit([(0..0, text)], Some(AutoindentMode::EachLine), cx); assert_eq!( buffer.text(), r#" class C def a(b, c) puts b puts c rescue puts "errored" exit 1 end end "# .unindent() ); buffer }); } #[gpui::test] async fn test_async_autoindents_preserve_preview(cx: &mut TestAppContext) { cx.update(|cx| init_settings(cx, |_| {})); // First we insert some newlines to request an auto-indent (asynchronously). // Then we request that a preview tab be preserved for the new version, even though it's edited. let buffer = cx.new(|cx| { let text = "fn a() {}"; let mut buffer = Buffer::local(text, cx).with_language(rust_lang(), cx); // This causes autoindent to be async. buffer.set_sync_parse_timeout(None); buffer.edit([(8..8, "\n\n")], Some(AutoindentMode::EachLine), cx); buffer.refresh_preview(); // Synchronously, we haven't auto-indented and we're still preserving the preview. assert_eq!(buffer.text(), "fn a() {\n\n}"); assert!(buffer.preserve_preview()); buffer }); // Now let the autoindent finish cx.executor().run_until_parked(); // The auto-indent applied, but didn't dismiss our preview buffer.update(cx, |buffer, cx| { assert_eq!(buffer.text(), "fn a() {\n \n}"); assert!(buffer.preserve_preview()); // Edit inserting another line. It will autoindent async. // Then refresh the preview version. buffer.edit( [(Point::new(1, 4)..Point::new(1, 4), "\n")], Some(AutoindentMode::EachLine), cx, ); buffer.refresh_preview(); assert_eq!(buffer.text(), "fn a() {\n \n\n}"); assert!(buffer.preserve_preview()); // Then perform another edit, this time without refreshing the preview version. buffer.edit([(Point::new(1, 4)..Point::new(1, 4), "x")], None, cx); // This causes the preview to not be preserved. assert!(!buffer.preserve_preview()); }); // Let the async autoindent from the first edit finish. cx.executor().run_until_parked(); // The autoindent applies, but it shouldn't restore the preview status because we had an edit in the meantime. buffer.update(cx, |buffer, _| { assert_eq!(buffer.text(), "fn a() {\n x\n \n}"); assert!(!buffer.preserve_preview()); }); } #[gpui::test] fn test_insert_empty_line(cx: &mut App) { init_settings(cx, |_| {}); // Insert empty line at the beginning, requesting an empty line above cx.new(|cx| { let mut buffer = Buffer::local("abc\ndef\nghi", cx); let point = buffer.insert_empty_line(Point::new(0, 0), true, false, cx); assert_eq!(buffer.text(), "\nabc\ndef\nghi"); assert_eq!(point, Point::new(0, 0)); buffer }); // Insert empty line at the beginning, requesting an empty line above and below cx.new(|cx| { let mut buffer = Buffer::local("abc\ndef\nghi", cx); let point = buffer.insert_empty_line(Point::new(0, 0), true, true, cx); assert_eq!(buffer.text(), "\n\nabc\ndef\nghi"); assert_eq!(point, Point::new(0, 0)); buffer }); // Insert empty line at the start of a line, requesting empty lines above and below cx.new(|cx| { let mut buffer = Buffer::local("abc\ndef\nghi", cx); let point = buffer.insert_empty_line(Point::new(2, 0), true, true, cx); assert_eq!(buffer.text(), "abc\ndef\n\n\n\nghi"); assert_eq!(point, Point::new(3, 0)); buffer }); // Insert empty line in the middle of a line, requesting empty lines above and below cx.new(|cx| { let mut buffer = Buffer::local("abc\ndefghi\njkl", cx); let point = buffer.insert_empty_line(Point::new(1, 3), true, true, cx); assert_eq!(buffer.text(), "abc\ndef\n\n\n\nghi\njkl"); assert_eq!(point, Point::new(3, 0)); buffer }); // Insert empty line in the middle of a line, requesting empty line above only cx.new(|cx| { let mut buffer = Buffer::local("abc\ndefghi\njkl", cx); let point = buffer.insert_empty_line(Point::new(1, 3), true, false, cx); assert_eq!(buffer.text(), "abc\ndef\n\n\nghi\njkl"); assert_eq!(point, Point::new(3, 0)); buffer }); // Insert empty line in the middle of a line, requesting empty line below only cx.new(|cx| { let mut buffer = Buffer::local("abc\ndefghi\njkl", cx); let point = buffer.insert_empty_line(Point::new(1, 3), false, true, cx); assert_eq!(buffer.text(), "abc\ndef\n\n\nghi\njkl"); assert_eq!(point, Point::new(2, 0)); buffer }); // Insert empty line at the end, requesting empty lines above and below cx.new(|cx| { let mut buffer = Buffer::local("abc\ndef\nghi", cx); let point = buffer.insert_empty_line(Point::new(2, 3), true, true, cx); assert_eq!(buffer.text(), "abc\ndef\nghi\n\n\n"); assert_eq!(point, Point::new(4, 0)); buffer }); // Insert empty line at the end, requesting empty line above only cx.new(|cx| { let mut buffer = Buffer::local("abc\ndef\nghi", cx); let point = buffer.insert_empty_line(Point::new(2, 3), true, false, cx); assert_eq!(buffer.text(), "abc\ndef\nghi\n\n"); assert_eq!(point, Point::new(4, 0)); buffer }); // Insert empty line at the end, requesting empty line below only cx.new(|cx| { let mut buffer = Buffer::local("abc\ndef\nghi", cx); let point = buffer.insert_empty_line(Point::new(2, 3), false, true, cx); assert_eq!(buffer.text(), "abc\ndef\nghi\n\n"); assert_eq!(point, Point::new(3, 0)); buffer }); } #[gpui::test] fn test_language_scope_at_with_javascript(cx: &mut App) { init_settings(cx, |_| {}); cx.new(|cx| { let language = Language::new( LanguageConfig { name: "JavaScript".into(), line_comments: vec!["// ".into()], block_comment: Some(BlockCommentConfig { start: "/*".into(), end: "*/".into(), prefix: "* ".into(), tab_size: 1, }), brackets: BracketPairConfig { pairs: vec![ BracketPair { start: "{".into(), end: "}".into(), close: true, surround: true, newline: false, }, BracketPair { start: "'".into(), end: "'".into(), close: true, surround: true, newline: false, }, ], disabled_scopes_by_bracket_ix: vec![ Vec::new(), // vec!["string".into(), "comment".into()], // single quotes disabled ], }, overrides: [( "element".into(), LanguageConfigOverride { line_comments: Override::Remove { remove: true }, block_comment: Override::Set(BlockCommentConfig { start: "{/*".into(), prefix: "".into(), end: "*/}".into(), tab_size: 0, }), ..Default::default() }, )] .into_iter() .collect(), ..Default::default() }, Some(tree_sitter_typescript::LANGUAGE_TSX.into()), ) .with_override_query( r#" (jsx_element) @element (string) @string (comment) @comment.inclusive [ (jsx_opening_element) (jsx_closing_element) (jsx_expression) ] @default "#, ) .unwrap(); let text = r#" a["b"] = { g() } ; // a comment "# .unindent(); let buffer = Buffer::local(&text, cx).with_language(Arc::new(language), cx); let snapshot = buffer.snapshot(); let config = snapshot.language_scope_at(0).unwrap(); assert_eq!(config.line_comment_prefixes(), &[Arc::from("// ")]); assert_eq!( config.block_comment(), Some(&BlockCommentConfig { start: "/*".into(), prefix: "* ".into(), end: "*/".into(), tab_size: 1, }) ); // Both bracket pairs are enabled assert_eq!( config.brackets().map(|e| e.1).collect::>(), &[true, true] ); let comment_config = snapshot .language_scope_at(text.find("comment").unwrap() + "comment".len()) .unwrap(); assert_eq!( comment_config.brackets().map(|e| e.1).collect::>(), &[true, false] ); let string_config = snapshot .language_scope_at(text.find("b\"").unwrap()) .unwrap(); assert_eq!(string_config.line_comment_prefixes(), &[Arc::from("// ")]); assert_eq!( string_config.block_comment(), Some(&BlockCommentConfig { start: "/*".into(), prefix: "* ".into(), end: "*/".into(), tab_size: 1, }) ); // Second bracket pair is disabled assert_eq!( string_config.brackets().map(|e| e.1).collect::>(), &[true, false] ); // In between JSX tags: use the `element` override. let element_config = snapshot .language_scope_at(text.find("").unwrap()) .unwrap(); // TODO nested blocks after newlines are captured with all whitespaces // https://github.com/tree-sitter/tree-sitter-typescript/issues/306 // assert_eq!(element_config.line_comment_prefixes(), &[]); // assert_eq!( // element_config.block_comment_delimiters(), // Some((&"{/*".into(), &"*/}".into())) // ); assert_eq!( element_config.brackets().map(|e| e.1).collect::>(), &[true, true] ); // Within a JSX tag: use the default config. let tag_config = snapshot .language_scope_at(text.find(" d=").unwrap() + 1) .unwrap(); assert_eq!(tag_config.line_comment_prefixes(), &[Arc::from("// ")]); assert_eq!( tag_config.block_comment(), Some(&BlockCommentConfig { start: "/*".into(), prefix: "* ".into(), end: "*/".into(), tab_size: 1, }) ); assert_eq!( tag_config.brackets().map(|e| e.1).collect::>(), &[true, true] ); // In a JSX expression: use the default config. let expression_in_element_config = snapshot .language_scope_at(text.find('{').unwrap() + 1) .unwrap(); assert_eq!( expression_in_element_config.line_comment_prefixes(), &[Arc::from("// ")] ); assert_eq!( expression_in_element_config.block_comment(), Some(&BlockCommentConfig { start: "/*".into(), prefix: "* ".into(), end: "*/".into(), tab_size: 1, }) ); assert_eq!( expression_in_element_config .brackets() .map(|e| e.1) .collect::>(), &[true, true] ); buffer }); } #[gpui::test] fn test_language_scope_at_with_rust(cx: &mut App) { init_settings(cx, |_| {}); cx.new(|cx| { let language = Language::new( LanguageConfig { name: "Rust".into(), brackets: BracketPairConfig { pairs: vec![ BracketPair { start: "{".into(), end: "}".into(), close: true, surround: true, newline: false, }, BracketPair { start: "'".into(), end: "'".into(), close: true, surround: true, newline: false, }, ], disabled_scopes_by_bracket_ix: vec![ Vec::new(), // vec!["string".into()], ], }, ..Default::default() }, Some(tree_sitter_rust::LANGUAGE.into()), ) .with_override_query( r#" (string_literal) @string "#, ) .unwrap(); let text = r#" const S: &'static str = "hello"; "# .unindent(); let buffer = Buffer::local(text.clone(), cx).with_language(Arc::new(language), cx); let snapshot = buffer.snapshot(); // By default, all brackets are enabled let config = snapshot.language_scope_at(0).unwrap(); assert_eq!( config.brackets().map(|e| e.1).collect::>(), &[true, true] ); // Within a string, the quotation brackets are disabled. let string_config = snapshot .language_scope_at(text.find("ello").unwrap()) .unwrap(); assert_eq!( string_config.brackets().map(|e| e.1).collect::>(), &[true, false] ); buffer }); } #[gpui::test] fn test_language_scope_at_with_combined_injections(cx: &mut App) { init_settings(cx, |_| {}); cx.new(|cx| { let text = r#"
    <% people.each do |person| %>
  1. <%= person.name %>
    2. <% end %>
"# .unindent(); let language_registry = Arc::new(LanguageRegistry::test(cx.background_executor().clone())); language_registry.add(Arc::new(ruby_lang())); language_registry.add(Arc::new(html_lang())); language_registry.add(Arc::new(erb_lang())); let mut buffer = Buffer::local(text, cx); buffer.set_language_registry(language_registry.clone()); let language = language_registry .language_for_name("HTML+ERB") .now_or_never() .and_then(Result::ok); buffer.set_language(language, cx); let snapshot = buffer.snapshot(); let html_config = snapshot.language_scope_at(Point::new(2, 4)).unwrap(); assert_eq!(html_config.line_comment_prefixes(), &[]); assert_eq!( html_config.block_comment(), Some(&BlockCommentConfig { start: "".into(), prefix: "".into(), tab_size: 0, }) ); let ruby_config = snapshot.language_scope_at(Point::new(3, 12)).unwrap(); assert_eq!(ruby_config.line_comment_prefixes(), &[Arc::from("# ")]); assert_eq!(ruby_config.block_comment(), None); buffer }); } #[gpui::test] fn test_language_at_with_hidden_languages(cx: &mut App) { init_settings(cx, |_| {}); cx.new(|cx| { let text = r#" this is an *emphasized* word. "# .unindent(); let language_registry = Arc::new(LanguageRegistry::test(cx.background_executor().clone())); language_registry.add(markdown_lang()); language_registry.add(Arc::new(markdown_inline_lang())); let mut buffer = Buffer::local(text, cx); buffer.set_language_registry(language_registry.clone()); buffer.set_language( language_registry .language_for_name("Markdown") .now_or_never() .unwrap() .ok(), cx, ); let snapshot = buffer.snapshot(); for point in [Point::new(0, 4), Point::new(0, 16)] { let config = snapshot.language_scope_at(point).unwrap(); assert_eq!(config.language_name(), "Markdown"); let language = snapshot.language_at(point).unwrap(); assert_eq!(language.name().as_ref(), "Markdown"); } buffer }); } #[gpui::test] fn test_language_at_for_markdown_code_block(cx: &mut App) { init_settings(cx, |_| {}); cx.new(|cx| { let text = r#" ```rs let a = 2; // let b = 3; ``` "# .unindent(); let language_registry = Arc::new(LanguageRegistry::test(cx.background_executor().clone())); language_registry.add(markdown_lang()); language_registry.add(Arc::new(markdown_inline_lang())); language_registry.add(rust_lang()); let mut buffer = Buffer::local(text, cx); buffer.set_language_registry(language_registry.clone()); buffer.set_language( language_registry .language_for_name("Markdown") .now_or_never() .unwrap() .ok(), cx, ); let snapshot = buffer.snapshot(); // Test points in the code line for point in [Point::new(1, 4), Point::new(1, 6)] { let config = snapshot.language_scope_at(point).unwrap(); assert_eq!(config.language_name(), "Rust"); let language = snapshot.language_at(point).unwrap(); assert_eq!(language.name().as_ref(), "Rust"); } // Test points in the comment line to verify it's still detected as Rust for point in [Point::new(2, 4), Point::new(2, 6)] { let config = snapshot.language_scope_at(point).unwrap(); assert_eq!(config.language_name(), "Rust"); let language = snapshot.language_at(point).unwrap(); assert_eq!(language.name().as_ref(), "Rust"); } buffer }); } #[gpui::test] fn test_syntax_layer_at_for_combined_injections(cx: &mut App) { init_settings(cx, |_| {}); cx.new(|cx| { // ERB template with HTML and Ruby content let text = r#"
Hello
<%= link_to "Click", url %>

World

"# .unindent(); let language_registry = Arc::new(LanguageRegistry::test(cx.background_executor().clone())); language_registry.add(Arc::new(erb_lang())); language_registry.add(Arc::new(html_lang())); language_registry.add(Arc::new(ruby_lang())); let mut buffer = Buffer::local(text, cx); buffer.set_language_registry(language_registry.clone()); let language = language_registry .language_for_name("HTML+ERB") .now_or_never() .and_then(Result::ok); buffer.set_language(language, cx); let snapshot = buffer.snapshot(); // Test language_at for HTML content (line 0: "
Hello
") let html_point = Point::new(0, 4); let language = snapshot.language_at(html_point).unwrap(); assert_eq!( language.name().as_ref(), "HTML", "Expected HTML at {:?}, got {}", html_point, language.name() ); // Test language_at for Ruby code (line 1: "<%= link_to ... %>") let ruby_point = Point::new(1, 6); let language = snapshot.language_at(ruby_point).unwrap(); assert_eq!( language.name().as_ref(), "Ruby", "Expected Ruby at {:?}, got {}", ruby_point, language.name() ); // Test language_at for HTML after Ruby (line 2: "

World

") let html_after_ruby = Point::new(2, 2); let language = snapshot.language_at(html_after_ruby).unwrap(); assert_eq!( language.name().as_ref(), "HTML", "Expected HTML at {:?}, got {}", html_after_ruby, language.name() ); buffer }); } #[gpui::test] fn test_languages_at_for_combined_injections(cx: &mut App) { init_settings(cx, |_| {}); cx.new(|cx| { // ERB template with HTML and Ruby content let text = r#"
Hello
<%= yield %>

World

"# .unindent(); let language_registry = Arc::new(LanguageRegistry::test(cx.background_executor().clone())); language_registry.add(Arc::new(erb_lang())); language_registry.add(Arc::new(html_lang())); language_registry.add(Arc::new(ruby_lang())); let mut buffer = Buffer::local(text, cx); buffer.set_language_registry(language_registry.clone()); buffer.set_language( language_registry .language_for_name("HTML+ERB") .now_or_never() .unwrap() .ok(), cx, ); // Test languages_at for HTML content - should NOT include Ruby let html_point = Point::new(0, 4); let languages = buffer.languages_at(html_point); let language_names: Vec<_> = languages.iter().map(|language| language.name()).collect(); assert!( language_names .iter() .any(|language_name| language_name.as_ref() == "HTML"), "Expected HTML in languages at {:?}, got {:?}", html_point, language_names ); assert!( !language_names .iter() .any(|language_name| language_name.as_ref() == "Ruby"), "Did not expect Ruby in languages at {:?}, got {:?}", html_point, language_names ); // Test languages_at for Ruby code - should NOT include HTML let ruby_point = Point::new(1, 6); let languages = buffer.languages_at(ruby_point); let language_names: Vec<_> = languages.iter().map(|language| language.name()).collect(); assert!( language_names .iter() .any(|language_name| language_name.as_ref() == "Ruby"), "Expected Ruby in languages at {:?}, got {:?}", ruby_point, language_names ); assert!( !language_names .iter() .any(|language_name| language_name.as_ref() == "HTML"), "Did not expect HTML in languages at {:?}, got {:?}", ruby_point, language_names ); buffer }); } #[gpui::test] fn test_serialization(cx: &mut gpui::App) { let mut now = Instant::now(); let buffer1 = cx.new(|cx| { let mut buffer = Buffer::local("abc", cx); buffer.edit([(3..3, "D")], None, cx); now += Duration::from_secs(1); buffer.start_transaction_at(now); buffer.edit([(4..4, "E")], None, cx); buffer.end_transaction_at(now, cx); assert_eq!(buffer.text(), "abcDE"); buffer.undo(cx); assert_eq!(buffer.text(), "abcD"); buffer.edit([(4..4, "F")], None, cx); assert_eq!(buffer.text(), "abcDF"); buffer }); assert_eq!(buffer1.read(cx).text(), "abcDF"); let state = buffer1.read(cx).to_proto(cx); let ops = cx .foreground_executor() .block_on(buffer1.read(cx).serialize_ops(None, cx)); let buffer2 = cx.new(|cx| { let mut buffer = Buffer::from_proto(ReplicaId::new(1), Capability::ReadWrite, state, None).unwrap(); buffer.apply_ops( ops.into_iter() .map(|op| proto::deserialize_operation(op).unwrap()), cx, ); buffer }); assert_eq!(buffer2.read(cx).text(), "abcDF"); } #[gpui::test] fn test_branch_and_merge(cx: &mut TestAppContext) { cx.update(|cx| init_settings(cx, |_| {})); let base = cx.new(|cx| Buffer::local("one\ntwo\nthree\n", cx)); // Create a remote replica of the base buffer. let base_replica = cx.new(|cx| { Buffer::from_proto( ReplicaId::new(1), Capability::ReadWrite, base.read(cx).to_proto(cx), None, ) .unwrap() }); base.update(cx, |_buffer, cx| { cx.subscribe(&base_replica, |this, _, event, cx| { if let BufferEvent::Operation { operation, is_local: true, } = event { this.apply_ops([operation.clone()], cx); } }) .detach(); }); // Create a branch, which initially has the same state as the base buffer. let branch = base.update(cx, |buffer, cx| buffer.branch(cx)); branch.read_with(cx, |buffer, _| { assert_eq!(buffer.text(), "one\ntwo\nthree\n"); }); // Edits to the branch are not applied to the base. branch.update(cx, |buffer, cx| { buffer.edit( [ (Point::new(1, 0)..Point::new(1, 0), "1.5\n"), (Point::new(2, 0)..Point::new(2, 5), "THREE"), ], None, cx, ) }); branch.read_with(cx, |buffer, cx| { assert_eq!(base.read(cx).text(), "one\ntwo\nthree\n"); assert_eq!(buffer.text(), "one\n1.5\ntwo\nTHREE\n"); }); // Convert from branch buffer ranges to the corresponding ranges in the // base buffer. branch.read_with(cx, |buffer, cx| { assert_eq!( buffer.range_to_version(4..7, &base.read(cx).version()), 4..4 ); assert_eq!( buffer.range_to_version(2..9, &base.read(cx).version()), 2..5 ); }); // Edits to the base are applied to the branch. base.update(cx, |buffer, cx| { buffer.edit([(Point::new(0, 0)..Point::new(0, 0), "ZERO\n")], None, cx) }); branch.read_with(cx, |buffer, cx| { assert_eq!(base.read(cx).text(), "ZERO\none\ntwo\nthree\n"); assert_eq!(buffer.text(), "ZERO\none\n1.5\ntwo\nTHREE\n"); }); // Edits to any replica of the base are applied to the branch. base_replica.update(cx, |buffer, cx| { buffer.edit([(Point::new(2, 0)..Point::new(2, 0), "2.5\n")], None, cx) }); branch.read_with(cx, |buffer, cx| { assert_eq!(base.read(cx).text(), "ZERO\none\ntwo\n2.5\nthree\n"); assert_eq!(buffer.text(), "ZERO\none\n1.5\ntwo\n2.5\nTHREE\n"); }); // Merging the branch applies all of its changes to the base. branch.update(cx, |buffer, cx| { buffer.merge_into_base(Vec::new(), cx); }); branch.update(cx, |buffer, cx| { assert_eq!(base.read(cx).text(), "ZERO\none\n1.5\ntwo\n2.5\nTHREE\n"); assert_eq!(buffer.text(), "ZERO\none\n1.5\ntwo\n2.5\nTHREE\n"); }); } #[gpui::test] fn test_merge_into_base(cx: &mut TestAppContext) { cx.update(|cx| init_settings(cx, |_| {})); let base = cx.new(|cx| Buffer::local("abcdefghijk", cx)); let branch = base.update(cx, |buffer, cx| buffer.branch(cx)); // Make 3 edits, merge one into the base. branch.update(cx, |branch, cx| { branch.edit([(0..3, "ABC"), (7..9, "HI"), (11..11, "LMN")], None, cx); branch.merge_into_base(vec![5..8], cx); }); branch.read_with(cx, |branch, _| assert_eq!(branch.text(), "ABCdefgHIjkLMN")); base.read_with(cx, |base, _| assert_eq!(base.text(), "abcdefgHIjk")); // Undo the one already-merged edit. Merge that into the base. branch.update(cx, |branch, cx| { branch.edit([(7..9, "hi")], None, cx); branch.merge_into_base(vec![5..8], cx); }); base.read_with(cx, |base, _| assert_eq!(base.text(), "abcdefghijk")); // Merge an insertion into the base. branch.update(cx, |branch, cx| { branch.merge_into_base(vec![11..11], cx); }); branch.read_with(cx, |branch, _| assert_eq!(branch.text(), "ABCdefghijkLMN")); base.read_with(cx, |base, _| assert_eq!(base.text(), "abcdefghijkLMN")); // Deleted the inserted text and merge that into the base. branch.update(cx, |branch, cx| { branch.edit([(11..14, "")], None, cx); branch.merge_into_base(vec![10..11], cx); }); base.read_with(cx, |base, _| assert_eq!(base.text(), "abcdefghijk")); } #[gpui::test] fn test_undo_after_merge_into_base(cx: &mut TestAppContext) { cx.update(|cx| init_settings(cx, |_| {})); let base = cx.new(|cx| Buffer::local("abcdefghijk", cx)); let branch = base.update(cx, |buffer, cx| buffer.branch(cx)); // Make 2 edits, merge one into the base. branch.update(cx, |branch, cx| { branch.edit([(0..3, "ABC"), (7..9, "HI")], None, cx); branch.merge_into_base(vec![7..7], cx); }); base.read_with(cx, |base, _| assert_eq!(base.text(), "abcdefgHIjk")); branch.read_with(cx, |branch, _| assert_eq!(branch.text(), "ABCdefgHIjk")); // Undo the merge in the base buffer. base.update(cx, |base, cx| { base.undo(cx); }); base.read_with(cx, |base, _| assert_eq!(base.text(), "abcdefghijk")); branch.read_with(cx, |branch, _| assert_eq!(branch.text(), "ABCdefgHIjk")); // Merge that operation into the base again. branch.update(cx, |branch, cx| { branch.merge_into_base(vec![7..7], cx); }); base.read_with(cx, |base, _| assert_eq!(base.text(), "abcdefgHIjk")); branch.read_with(cx, |branch, _| assert_eq!(branch.text(), "ABCdefgHIjk")); } #[gpui::test] async fn test_preview_edits(cx: &mut TestAppContext) { cx.update(|cx| { init_settings(cx, |_| {}); theme::init(theme::LoadThemes::JustBase, cx); }); let insertion_style = HighlightStyle { background_color: Some(cx.read(|cx| cx.theme().status().created_background)), ..Default::default() }; let deletion_style = HighlightStyle { background_color: Some(cx.read(|cx| cx.theme().status().deleted_background)), ..Default::default() }; // no edits assert_preview_edits( indoc! {" fn test_empty() -> bool { false }" }, vec![], true, cx, |hl| { assert!(hl.text.is_empty()); assert!(hl.highlights.is_empty()); }, ) .await; // only insertions assert_preview_edits( indoc! {" fn calculate_area(: f64) -> f64 { std::f64::consts::PI * .powi(2) }" }, vec![ (Point::new(0, 18)..Point::new(0, 18), "radius"), (Point::new(1, 27)..Point::new(1, 27), "radius"), ], true, cx, |hl| { assert_eq!( hl.text, indoc! {" fn calculate_area(radius: f64) -> f64 { std::f64::consts::PI * radius.powi(2)" } ); assert_eq!(hl.highlights.len(), 2); assert_eq!(hl.highlights[0], ((18..24), insertion_style)); assert_eq!(hl.highlights[1], ((67..73), insertion_style)); }, ) .await; // insertions & deletions assert_preview_edits( indoc! {" struct Person { first_name: String, } impl Person { fn first_name(&self) -> &String { &self.first_name } }" }, vec![ (Point::new(1, 4)..Point::new(1, 9), "last"), (Point::new(5, 7)..Point::new(5, 12), "last"), (Point::new(6, 14)..Point::new(6, 19), "last"), ], true, cx, |hl| { assert_eq!( hl.text, indoc! {" firstlast_name: String, } impl Person { fn firstlast_name(&self) -> &String { &self.firstlast_name" } ); assert_eq!(hl.highlights.len(), 6); assert_eq!(hl.highlights[0], ((4..9), deletion_style)); assert_eq!(hl.highlights[1], ((9..13), insertion_style)); assert_eq!(hl.highlights[2], ((52..57), deletion_style)); assert_eq!(hl.highlights[3], ((57..61), insertion_style)); assert_eq!(hl.highlights[4], ((101..106), deletion_style)); assert_eq!(hl.highlights[5], ((106..110), insertion_style)); }, ) .await; async fn assert_preview_edits( text: &str, edits: Vec<(Range, &str)>, include_deletions: bool, cx: &mut TestAppContext, assert_fn: impl Fn(HighlightedText), ) { let buffer = cx.new(|cx| Buffer::local(text, cx).with_language(rust_lang(), cx)); let edits = buffer.read_with(cx, |buffer, _| { edits .into_iter() .map(|(range, text)| { ( buffer.anchor_before(range.start)..buffer.anchor_after(range.end), text.into(), ) }) .collect::>() }); let edit_preview = buffer .read_with(cx, |buffer, cx| buffer.preview_edits(edits.clone(), cx)) .await; let highlighted_edits = cx.read(|cx| { edit_preview.highlight_edits(&buffer.read(cx).snapshot(), &edits, include_deletions, cx) }); assert_fn(highlighted_edits); } } #[gpui::test(iterations = 100)] fn test_random_collaboration(cx: &mut App, mut rng: StdRng) { let min_peers = env::var("MIN_PEERS") .map(|i| i.parse().expect("invalid `MIN_PEERS` variable")) .unwrap_or(1); let max_peers = env::var("MAX_PEERS") .map(|i| i.parse().expect("invalid `MAX_PEERS` variable")) .unwrap_or(5); let operations = env::var("OPERATIONS") .map(|i| i.parse().expect("invalid `OPERATIONS` variable")) .unwrap_or(10); let base_text_len = rng.random_range(0..10); let base_text = RandomCharIter::new(&mut rng) .take(base_text_len) .collect::(); let mut replica_ids = Vec::new(); let mut buffers = Vec::new(); let network = Arc::new(Mutex::new(Network::new(rng.clone()))); let base_buffer = cx.new(|cx| Buffer::local(base_text.as_str(), cx)); for i in 0..rng.random_range(min_peers..=max_peers) { let buffer = cx.new(|cx| { let state = base_buffer.read(cx).to_proto(cx); let ops = cx .foreground_executor() .block_on(base_buffer.read(cx).serialize_ops(None, cx)); let mut buffer = Buffer::from_proto(ReplicaId::new(i as u16), Capability::ReadWrite, state, None) .unwrap(); buffer.apply_ops( ops.into_iter() .map(|op| proto::deserialize_operation(op).unwrap()), cx, ); buffer.set_group_interval(Duration::from_millis(rng.random_range(0..=200))); let network = network.clone(); cx.subscribe(&cx.entity(), move |buffer, _, event, _| { if let BufferEvent::Operation { operation, is_local: true, } = event { network.lock().broadcast( buffer.replica_id(), vec![proto::serialize_operation(operation)], ); } }) .detach(); buffer }); buffers.push(buffer); replica_ids.push(ReplicaId::new(i as u16)); network.lock().add_peer(ReplicaId::new(i as u16)); log::info!("Adding initial peer with replica id {:?}", replica_ids[i]); } log::info!("initial text: {:?}", base_text); let mut now = Instant::now(); let mut mutation_count = operations; let mut next_diagnostic_id = 0; let mut active_selections = BTreeMap::default(); loop { let replica_index = rng.random_range(0..replica_ids.len()); let replica_id = replica_ids[replica_index]; let buffer = &mut buffers[replica_index]; let mut new_buffer = None; match rng.random_range(0..100) { 0..=29 if mutation_count != 0 => { buffer.update(cx, |buffer, cx| { buffer.start_transaction_at(now); buffer.randomly_edit(&mut rng, 5, cx); buffer.end_transaction_at(now, cx); log::info!("buffer {:?} text: {:?}", buffer.replica_id(), buffer.text()); }); mutation_count -= 1; } 30..=39 if mutation_count != 0 => { buffer.update(cx, |buffer, cx| { if rng.random_bool(0.2) { log::info!("peer {:?} clearing active selections", replica_id); active_selections.remove(&replica_id); buffer.remove_active_selections(cx); } else { let mut selections = Vec::new(); for id in 0..rng.random_range(1..=5) { let range = buffer.random_byte_range(0, &mut rng); selections.push(Selection { id, start: buffer.anchor_before(range.start), end: buffer.anchor_before(range.end), reversed: false, goal: SelectionGoal::None, }); } let selections: Arc<[Selection]> = selections.into(); log::info!( "peer {:?} setting active selections: {:?}", replica_id, selections ); active_selections.insert(replica_id, selections.clone()); buffer.set_active_selections(selections, false, Default::default(), cx); } }); mutation_count -= 1; } 40..=49 if mutation_count != 0 && replica_id == ReplicaId::REMOTE_SERVER => { let entry_count = rng.random_range(1..=5); buffer.update(cx, |buffer, cx| { let diagnostics = DiagnosticSet::new( (0..entry_count).map(|_| { let range = buffer.random_byte_range(0, &mut rng); let range = range.to_point_utf16(buffer); let range = range.start..range.end; DiagnosticEntry { range, diagnostic: Diagnostic { message: post_inc(&mut next_diagnostic_id).to_string(), ..Default::default() }, } }), buffer, ); log::info!( "peer {:?} setting diagnostics: {:?}", replica_id, diagnostics ); buffer.update_diagnostics(LanguageServerId(0), diagnostics, cx); }); mutation_count -= 1; } 50..=59 if replica_ids.len() < max_peers => { let old_buffer_state = buffer.read(cx).to_proto(cx); let old_buffer_ops = cx .foreground_executor() .block_on(buffer.read(cx).serialize_ops(None, cx)); let new_replica_id = (0..=replica_ids.len() as u16) .map(ReplicaId::new) .filter(|replica_id| *replica_id != buffer.read(cx).replica_id()) .choose(&mut rng) .unwrap(); log::info!( "Adding new replica {:?} (replicating from {:?})", new_replica_id, replica_id ); new_buffer = Some(cx.new(|cx| { let mut new_buffer = Buffer::from_proto( new_replica_id, Capability::ReadWrite, old_buffer_state, None, ) .unwrap(); new_buffer.apply_ops( old_buffer_ops .into_iter() .map(|op| deserialize_operation(op).unwrap()), cx, ); log::info!( "New replica {:?} text: {:?}", new_buffer.replica_id(), new_buffer.text() ); new_buffer.set_group_interval(Duration::from_millis(rng.random_range(0..=200))); let network = network.clone(); cx.subscribe(&cx.entity(), move |buffer, _, event, _| { if let BufferEvent::Operation { operation, is_local: true, } = event { network.lock().broadcast( buffer.replica_id(), vec![proto::serialize_operation(operation)], ); } }) .detach(); new_buffer })); network.lock().replicate(replica_id, new_replica_id); if new_replica_id.as_u16() as usize == replica_ids.len() { replica_ids.push(new_replica_id); } else { let new_buffer = new_buffer.take().unwrap(); while network.lock().has_unreceived(new_replica_id) { let ops = network .lock() .receive(new_replica_id) .into_iter() .map(|op| proto::deserialize_operation(op).unwrap()); if ops.len() > 0 { log::info!( "peer {:?} (version: {:?}) applying {} ops from the network. {:?}", new_replica_id, buffer.read(cx).version(), ops.len(), ops ); new_buffer.update(cx, |new_buffer, cx| { new_buffer.apply_ops(ops, cx); }); } } buffers[new_replica_id.as_u16() as usize] = new_buffer; } } 60..=69 if mutation_count != 0 => { buffer.update(cx, |buffer, cx| { buffer.randomly_undo_redo(&mut rng, cx); log::info!("buffer {:?} text: {:?}", buffer.replica_id(), buffer.text()); }); mutation_count -= 1; } _ if network.lock().has_unreceived(replica_id) => { let ops = network .lock() .receive(replica_id) .into_iter() .map(|op| proto::deserialize_operation(op).unwrap()); if ops.len() > 0 { log::info!( "peer {:?} (version: {:?}) applying {} ops from the network. {:?}", replica_id, buffer.read(cx).version(), ops.len(), ops ); buffer.update(cx, |buffer, cx| buffer.apply_ops(ops, cx)); } } _ => {} } now += Duration::from_millis(rng.random_range(0..=200)); buffers.extend(new_buffer); for buffer in &buffers { buffer.read(cx).check_invariants(); } if mutation_count == 0 && network.lock().is_idle() { break; } } let first_buffer = buffers[0].read(cx).snapshot(); for buffer in &buffers[1..] { let buffer = buffer.read(cx).snapshot(); assert_eq!( buffer.version(), first_buffer.version(), "Replica {:?} version != Replica 0 version", buffer.replica_id() ); assert_eq!( buffer.text(), first_buffer.text(), "Replica {:?} text != Replica 0 text", buffer.replica_id() ); assert_eq!( buffer .diagnostics_in_range::<_, usize>(0..buffer.len(), false) .collect::>(), first_buffer .diagnostics_in_range::<_, usize>(0..first_buffer.len(), false) .collect::>(), "Replica {:?} diagnostics != Replica 0 diagnostics", buffer.replica_id() ); } for buffer in &buffers { let buffer = buffer.read(cx).snapshot(); let actual_remote_selections = buffer .selections_in_range(Anchor::min_max_range_for_buffer(buffer.remote_id()), false) .map(|(replica_id, _, _, selections)| (replica_id, selections.collect::>())) .collect::>(); let expected_remote_selections = active_selections .iter() .filter(|(replica_id, _)| **replica_id != buffer.replica_id()) .map(|(replica_id, selections)| (*replica_id, selections.iter().collect::>())) .collect::>(); assert_eq!( actual_remote_selections, expected_remote_selections, "Replica {:?} remote selections != expected selections", buffer.replica_id() ); } } #[test] fn test_contiguous_ranges() { assert_eq!( contiguous_ranges([1, 2, 3, 5, 6, 9, 10, 11, 12].into_iter(), 100).collect::>(), &[1..4, 5..7, 9..13] ); // Respects the `max_len` parameter assert_eq!( contiguous_ranges( [2, 3, 4, 5, 6, 7, 8, 9, 23, 24, 25, 26, 30, 31].into_iter(), 3 ) .collect::>(), &[2..5, 5..8, 8..10, 23..26, 26..27, 30..32], ); } #[gpui::test] fn test_insertion_after_deletion(cx: &mut gpui::App) { let buffer = cx.new(|cx| Buffer::local("struct Foo {\n \n}", cx)); buffer.update(cx, |buffer, cx| { let mut anchor = buffer.anchor_after(17); buffer.edit([(12..18, "")], None, cx); let snapshot = buffer.snapshot(); assert_eq!(snapshot.text(), "struct Foo {}"); if !anchor.is_valid(&snapshot) { anchor = snapshot.anchor_after(snapshot.offset_for_anchor(&anchor)); } buffer.edit([(anchor..anchor, "\n")], None, cx); buffer.edit([(anchor..anchor, "field1:")], None, cx); buffer.edit([(anchor..anchor, " i32,")], None, cx); let snapshot = buffer.snapshot(); assert_eq!(snapshot.text(), "struct Foo {\nfield1: i32,}"); }) } #[gpui::test(iterations = 500)] fn test_trailing_whitespace_ranges(mut rng: StdRng) { // Generate a random multi-line string containing // some lines with trailing whitespace. let mut text = String::new(); for _ in 0..rng.random_range(0..16) { for _ in 0..rng.random_range(0..36) { text.push(match rng.random_range(0..10) { 0..=1 => ' ', 3 => '\t', _ => rng.random_range('a'..='z'), }); } text.push('\n'); } match rng.random_range(0..10) { // sometimes remove the last newline 0..=1 => drop(text.pop()), // // sometimes add extra newlines 2..=3 => text.push_str(&"\n".repeat(rng.random_range(1..5))), _ => {} } let rope = Rope::from(text.as_str()); let actual_ranges = trailing_whitespace_ranges(&rope); let expected_ranges = TRAILING_WHITESPACE_REGEX .find_iter(&text) .map(|m| m.range()) .collect::>(); assert_eq!( actual_ranges, expected_ranges, "wrong ranges for text lines:\n{:?}", text.split('\n').collect::>() ); } #[gpui::test] fn test_words_in_range(cx: &mut gpui::App) { init_settings(cx, |_| {}); // The first line are words excluded from the results with heuristics, we do not expect them in the test assertions. let contents = r#" 0_isize 123 3.4 4   let word=öäpple.bar你 Öäpple word2-öÄpPlE-Pizza-word ÖÄPPLE word "#; let buffer = cx.new(|cx| { let buffer = Buffer::local(contents, cx).with_language(rust_lang(), cx); assert_eq!(buffer.text(), contents); buffer.check_invariants(); buffer }); buffer.update(cx, |buffer, _| { let snapshot = buffer.snapshot(); assert_eq!( BTreeSet::from_iter(["Pizza".to_string()]), snapshot .words_in_range(WordsQuery { fuzzy_contents: Some("piz"), skip_digits: true, range: 0..snapshot.len(), }) .into_keys() .collect::>() ); assert_eq!( BTreeSet::from_iter([ "öäpple".to_string(), "Öäpple".to_string(), "öÄpPlE".to_string(), "ÖÄPPLE".to_string(), ]), snapshot .words_in_range(WordsQuery { fuzzy_contents: Some("öp"), skip_digits: true, range: 0..snapshot.len(), }) .into_keys() .collect::>() ); assert_eq!( BTreeSet::from_iter([ "öÄpPlE".to_string(), "Öäpple".to_string(), "ÖÄPPLE".to_string(), "öäpple".to_string(), ]), snapshot .words_in_range(WordsQuery { fuzzy_contents: Some("öÄ"), skip_digits: true, range: 0..snapshot.len(), }) .into_keys() .collect::>() ); assert_eq!( BTreeSet::default(), snapshot .words_in_range(WordsQuery { fuzzy_contents: Some("öÄ好"), skip_digits: true, range: 0..snapshot.len(), }) .into_keys() .collect::>() ); assert_eq!( BTreeSet::from_iter(["bar你".to_string(),]), snapshot .words_in_range(WordsQuery { fuzzy_contents: Some("你"), skip_digits: true, range: 0..snapshot.len(), }) .into_keys() .collect::>() ); assert_eq!( BTreeSet::default(), snapshot .words_in_range(WordsQuery { fuzzy_contents: Some(""), skip_digits: true, range: 0..snapshot.len(), },) .into_keys() .collect::>() ); assert_eq!( BTreeSet::from_iter([ "bar你".to_string(), "öÄpPlE".to_string(), "Öäpple".to_string(), "ÖÄPPLE".to_string(), "öäpple".to_string(), "let".to_string(), "Pizza".to_string(), "word".to_string(), "word2".to_string(), ]), snapshot .words_in_range(WordsQuery { fuzzy_contents: None, skip_digits: true, range: 0..snapshot.len(), }) .into_keys() .collect::>() ); assert_eq!( BTreeSet::from_iter([ "0_isize".to_string(), "123".to_string(), "3".to_string(), "4".to_string(), "bar你".to_string(), "öÄpPlE".to_string(), "Öäpple".to_string(), "ÖÄPPLE".to_string(), "öäpple".to_string(), "let".to_string(), "Pizza".to_string(), "word".to_string(), "word2".to_string(), ]), snapshot .words_in_range(WordsQuery { fuzzy_contents: None, skip_digits: false, range: 0..snapshot.len(), }) .into_keys() .collect::>() ); }); } fn ruby_lang() -> Language { Language::new( LanguageConfig { name: "Ruby".into(), matcher: LanguageMatcher { path_suffixes: vec!["rb".to_string()], ..Default::default() }, line_comments: vec!["# ".into()], ..Default::default() }, Some(tree_sitter_ruby::LANGUAGE.into()), ) .with_indents_query( r#" (class "end" @end) @indent (method "end" @end) @indent (rescue) @outdent (then) @indent "#, ) .unwrap() } fn html_lang() -> Language { Language::new( LanguageConfig { name: LanguageName::new_static("HTML"), block_comment: Some(BlockCommentConfig { start: "".into(), tab_size: 0, }), ..Default::default() }, Some(tree_sitter_html::LANGUAGE.into()), ) .with_indents_query( " (element (start_tag) @start (end_tag)? @end) @indent ", ) .unwrap() .with_injection_query( r#" (script_element (raw_text) @injection.content (#set! injection.language "javascript")) "#, ) .unwrap() } fn erb_lang() -> Language { Language::new( LanguageConfig { name: "HTML+ERB".into(), matcher: LanguageMatcher { path_suffixes: vec!["erb".to_string()], ..Default::default() }, block_comment: Some(BlockCommentConfig { start: "<%#".into(), prefix: "".into(), end: "%>".into(), tab_size: 0, }), ..Default::default() }, Some(tree_sitter_embedded_template::LANGUAGE.into()), ) .with_injection_query( r#" ( (code) @content (#set! "language" "ruby") (#set! "combined") ) ( (content) @content (#set! "language" "html") (#set! "combined") ) "#, ) .unwrap() } fn json_lang() -> Language { Language::new( LanguageConfig { name: "Json".into(), matcher: LanguageMatcher { path_suffixes: vec!["js".to_string()], ..Default::default() }, ..Default::default() }, Some(tree_sitter_json::LANGUAGE.into()), ) } fn javascript_lang() -> Language { Language::new( LanguageConfig { name: "JavaScript".into(), ..Default::default() }, Some(tree_sitter_typescript::LANGUAGE_TSX.into()), ) .with_brackets_query( r#" ("{" @open "}" @close) ("(" @open ")" @close) "#, ) .unwrap() .with_indents_query( r#" (object "}" @end) @indent "#, ) .unwrap() } pub fn markdown_inline_lang() -> Language { Language::new( LanguageConfig { name: "Markdown-Inline".into(), hidden: true, ..LanguageConfig::default() }, Some(tree_sitter_md::INLINE_LANGUAGE.into()), ) .with_highlights_query("(emphasis) @emphasis") .unwrap() } fn get_tree_sexp(buffer: &Entity, cx: &mut gpui::TestAppContext) -> String { buffer.update(cx, |buffer, _| { let snapshot = buffer.snapshot(); let layers = snapshot.syntax.layers(buffer.as_text_snapshot()); layers[0].node().to_sexp() }) } // Assert that the enclosing bracket ranges around the selection match the pairs indicated by the marked text in `range_markers` #[track_caller] fn assert_bracket_pairs( selection_text: &'static str, bracket_pair_texts: Vec<&'static str>, language: Arc, cx: &mut App, ) { let (expected_text, selection_ranges) = marked_text_ranges(selection_text, false); let buffer = cx.new(|cx| Buffer::local(expected_text.clone(), cx).with_language(language, cx)); let buffer = buffer.update(cx, |buffer, _cx| buffer.snapshot()); let selection_range = selection_ranges[0].clone(); let bracket_pairs = bracket_pair_texts .into_iter() .map(|pair_text| { let (bracket_text, ranges) = marked_text_ranges(pair_text, false); assert_eq!(bracket_text, expected_text); (ranges[0].clone(), ranges[1].clone()) }) .collect::>(); assert_set_eq!( buffer .bracket_ranges(selection_range) .map(|pair| (pair.open_range, pair.close_range)) .collect::>(), bracket_pairs ); } fn init_settings(cx: &mut App, f: fn(&mut AllLanguageSettingsContent)) { let settings_store = SettingsStore::test(cx); cx.set_global(settings_store); cx.update_global::(|settings, cx| { settings.update_user_settings(cx, |content| f(&mut content.project.all_languages)); }); } #[gpui::test(iterations = 100)] fn test_random_chunk_bitmaps(cx: &mut App, mut rng: StdRng) { use util::RandomCharIter; // Generate random text let len = rng.random_range(0..10000); let text = RandomCharIter::new(&mut rng).take(len).collect::(); let buffer = cx.new(|cx| Buffer::local(text, cx)); let snapshot = buffer.read(cx).snapshot(); // Get all chunks and verify their bitmaps let chunks = snapshot.chunks(0..snapshot.len(), false); for chunk in chunks { let chunk_text = chunk.text; let chars_bitmap = chunk.chars; let tabs_bitmap = chunk.tabs; // Check empty chunks have empty bitmaps if chunk_text.is_empty() { assert_eq!( chars_bitmap, 0, "Empty chunk should have empty chars bitmap" ); assert_eq!(tabs_bitmap, 0, "Empty chunk should have empty tabs bitmap"); continue; } // Verify that chunk text doesn't exceed 128 bytes assert!( chunk_text.len() <= 128, "Chunk text length {} exceeds 128 bytes", chunk_text.len() ); // Verify chars bitmap let char_indices = chunk_text .char_indices() .map(|(i, _)| i) .collect::>(); for byte_idx in 0..chunk_text.len() { let should_have_bit = char_indices.contains(&byte_idx); let has_bit = chars_bitmap & (1 << byte_idx) != 0; if has_bit != should_have_bit { eprintln!("Chunk text bytes: {:?}", chunk_text.as_bytes()); eprintln!("Char indices: {:?}", char_indices); eprintln!("Chars bitmap: {:#b}", chars_bitmap); } assert_eq!( has_bit, should_have_bit, "Chars bitmap mismatch at byte index {} in chunk {:?}. Expected bit: {}, Got bit: {}", byte_idx, chunk_text, should_have_bit, has_bit ); } // Verify tabs bitmap for (byte_idx, byte) in chunk_text.bytes().enumerate() { let is_tab = byte == b'\t'; let has_bit = tabs_bitmap & (1 << byte_idx) != 0; if has_bit != is_tab { eprintln!("Chunk text bytes: {:?}", chunk_text.as_bytes()); eprintln!("Tabs bitmap: {:#b}", tabs_bitmap); assert_eq!( has_bit, is_tab, "Tabs bitmap mismatch at byte index {} in chunk {:?}. Byte: {:?}, Expected bit: {}, Got bit: {}", byte_idx, chunk_text, byte as char, is_tab, has_bit ); } } } }