use std::{collections::HashSet, fs, time::Duration}; // use flexi_logger::Logger; use crossbeam_channel::RecvTimeoutError; use ra_vfs::{Vfs, VfsChange}; use tempfile::tempdir; fn process_tasks(vfs: &mut Vfs, num_tasks: u32) { for _ in 0..num_tasks { let task = vfs .task_receiver() .recv_timeout(Duration::from_secs(3)) .unwrap(); log::debug!("{:?}", task); vfs.handle_task(task); } } macro_rules! assert_match { ($x:expr, $pat:pat) => { assert_match!($x, $pat, ()) }; ($x:expr, $pat:pat, $assert:expr) => { match $x { $pat => $assert, x => assert!(false, "Expected {}, got {:?}", stringify!($pat), x), }; }; } #[test] fn test_vfs_works() -> std::io::Result<()> { // Logger::with_str("vfs=debug,ra_vfs=debug").start().unwrap(); let files = [ ("a/foo.rs", "hello"), ("a/bar.rs", "world"), ("a/b/baz.rs", "nested hello"), ]; let dir = tempdir().unwrap(); for (path, text) in files.iter() { let file_path = dir.path().join(path); fs::create_dir_all(file_path.parent().unwrap()).unwrap(); fs::write(file_path, text)? } let a_root = dir.path().join("a"); let b_root = dir.path().join("a/b"); let (mut vfs, _) = Vfs::new(vec![a_root, b_root]); process_tasks(&mut vfs, 2); { let files = vfs .commit_changes() .into_iter() .flat_map(|change| { let files = match change { VfsChange::AddRoot { files, .. } => files, _ => panic!("unexpected change"), }; files.into_iter().map(|(_id, path, text)| { let text: String = (&*text).clone(); (format!("{}", path.display()), text) }) }) .collect::>(); let expected_files = [ ("foo.rs", "hello"), ("bar.rs", "world"), ("baz.rs", "nested hello"), ] .iter() .map(|(path, text)| (path.to_string(), text.to_string())) .collect::>(); assert_eq!(files, expected_files); } fs::write(&dir.path().join("a/b/baz.rs"), "quux").unwrap(); process_tasks(&mut vfs, 1); assert_match!( vfs.commit_changes().as_slice(), [VfsChange::ChangeFile { text, .. }], assert_eq!(text.as_str(), "quux") ); vfs.add_file_overlay(&dir.path().join("a/b/baz.rs"), "m".to_string()); assert_match!( vfs.commit_changes().as_slice(), [VfsChange::ChangeFile { text, .. }], assert_eq!(text.as_str(), "m") ); // changing file on disk while overlayed doesn't generate a VfsChange fs::write(&dir.path().join("a/b/baz.rs"), "corge").unwrap(); process_tasks(&mut vfs, 1); assert_match!(vfs.commit_changes().as_slice(), []); // removing overlay restores data on disk vfs.remove_file_overlay(&dir.path().join("a/b/baz.rs")); assert_match!( vfs.commit_changes().as_slice(), [VfsChange::ChangeFile { text, .. }], assert_eq!(text.as_str(), "corge") ); vfs.add_file_overlay(&dir.path().join("a/b/spam.rs"), "spam".to_string()); assert_match!( vfs.commit_changes().as_slice(), [VfsChange::AddFile { text, path, .. }], { assert_eq!(text.as_str(), "spam"); assert_eq!(path, "spam.rs"); } ); vfs.remove_file_overlay(&dir.path().join("a/b/spam.rs")); assert_match!( vfs.commit_changes().as_slice(), [VfsChange::RemoveFile { path, .. }], assert_eq!(path, "spam.rs") ); fs::create_dir_all(dir.path().join("a/sub1/sub2")).unwrap(); fs::write(dir.path().join("a/sub1/sub2/new.rs"), "new hello").unwrap(); process_tasks(&mut vfs, 1); assert_match!( vfs.commit_changes().as_slice(), [VfsChange::AddFile { text, path, .. }], { assert_eq!(text.as_str(), "new hello"); assert_eq!(path, "sub1/sub2/new.rs"); } ); fs::rename( &dir.path().join("a/sub1/sub2/new.rs"), &dir.path().join("a/sub1/sub2/new1.rs"), ) .unwrap(); process_tasks(&mut vfs, 2); assert_match!( vfs.commit_changes().as_slice(), [VfsChange::RemoveFile { path: removed_path, .. }, VfsChange::AddFile { text, path: added_path, .. }], { assert_eq!(removed_path, "sub1/sub2/new.rs"); assert_eq!(added_path, "sub1/sub2/new1.rs"); assert_eq!(text.as_str(), "new hello"); } ); fs::remove_file(&dir.path().join("a/sub1/sub2/new1.rs")).unwrap(); process_tasks(&mut vfs, 1); assert_match!( vfs.commit_changes().as_slice(), [VfsChange::RemoveFile { path, .. }], assert_eq!(path, "sub1/sub2/new1.rs") ); // should be ignored fs::create_dir_all(dir.path().join("a/target")).unwrap(); fs::write(&dir.path().join("a/target/new.rs"), "ignore me").unwrap(); assert_match!( vfs.task_receiver().recv_timeout(Duration::from_millis(300)), // slightly more than watcher debounce delay Err(RecvTimeoutError::Timeout) ); vfs.shutdown().unwrap(); Ok(()) }