pub mod buffer_store; mod color_extractor; pub mod connection_manager; pub mod debounced_delay; pub mod image_store; pub mod lsp_command; pub mod lsp_ext_command; pub mod lsp_store; pub mod prettier_store; pub mod project_settings; pub mod search; mod task_inventory; pub mod task_store; pub mod terminals; pub mod toolchain_store; pub mod worktree_store; #[cfg(test)] mod project_tests; mod direnv; mod environment; pub use environment::EnvironmentErrorMessage; pub mod search_history; mod yarn; use anyhow::{anyhow, Context as _, Result}; use buffer_store::{BufferStore, BufferStoreEvent}; use client::{proto, Client, Collaborator, PendingEntitySubscription, TypedEnvelope, UserStore}; use clock::ReplicaId; use collections::{BTreeSet, HashMap, HashSet}; use debounced_delay::DebouncedDelay; pub use environment::ProjectEnvironment; use futures::{ channel::mpsc::{self, UnboundedReceiver}, future::try_join_all, StreamExt, }; pub use image_store::{ImageItem, ImageStore}; use image_store::{ImageItemEvent, ImageStoreEvent}; use git::{blame::Blame, repository::GitRepository}; use gpui::{ AnyModel, AppContext, AsyncAppContext, BorrowAppContext, Context as _, EventEmitter, Hsla, Model, ModelContext, SharedString, Task, WeakModel, WindowContext, }; use itertools::Itertools; use language::{ language_settings::InlayHintKind, proto::split_operations, Buffer, BufferEvent, CachedLspAdapter, Capability, CodeLabel, DiagnosticEntry, Documentation, File as _, Language, LanguageName, LanguageRegistry, PointUtf16, ToOffset, ToPointUtf16, Toolchain, ToolchainList, Transaction, Unclipped, }; use lsp::{ CodeActionKind, CompletionContext, CompletionItemKind, DocumentHighlightKind, LanguageServer, LanguageServerId, LanguageServerName, MessageActionItem, }; use lsp_command::*; use node_runtime::NodeRuntime; use parking_lot::{Mutex, RwLock}; pub use prettier_store::PrettierStore; use project_settings::{ProjectSettings, SettingsObserver, SettingsObserverEvent}; use remote::{SshConnectionOptions, SshRemoteClient}; use rpc::{ proto::{LanguageServerPromptResponse, SSH_PROJECT_ID}, AnyProtoClient, ErrorCode, }; use search::{SearchInputKind, SearchQuery, SearchResult}; use search_history::SearchHistory; use settings::{InvalidSettingsError, Settings, SettingsLocation, SettingsStore}; use smol::channel::Receiver; use snippet::Snippet; use snippet_provider::SnippetProvider; use std::{ borrow::Cow, ops::Range, path::{Component, Path, PathBuf}, str, sync::Arc, time::Duration, }; use task_store::TaskStore; use terminals::Terminals; use text::{Anchor, BufferId}; use toolchain_store::EmptyToolchainStore; use util::{paths::compare_paths, ResultExt as _}; use worktree::{CreatedEntry, Snapshot, Traversal}; use worktree_store::{WorktreeStore, WorktreeStoreEvent}; pub use fs::*; pub use language::Location; #[cfg(any(test, feature = "test-support"))] pub use prettier::FORMAT_SUFFIX as TEST_PRETTIER_FORMAT_SUFFIX; pub use task_inventory::{ BasicContextProvider, ContextProviderWithTasks, Inventory, TaskSourceKind, }; pub use worktree::{ Entry, EntryKind, File, LocalWorktree, PathChange, ProjectEntryId, RepositoryEntry, UpdatedEntriesSet, UpdatedGitRepositoriesSet, Worktree, WorktreeId, WorktreeSettings, FS_WATCH_LATENCY, }; pub use buffer_store::ProjectTransaction; pub use lsp_store::{ DiagnosticSummary, LanguageServerLogType, LanguageServerProgress, LanguageServerPromptRequest, LanguageServerStatus, LanguageServerToQuery, LspStore, LspStoreEvent, SERVER_PROGRESS_THROTTLE_TIMEOUT, }; pub use toolchain_store::ToolchainStore; const MAX_PROJECT_SEARCH_HISTORY_SIZE: usize = 500; const MAX_SEARCH_RESULT_FILES: usize = 5_000; const MAX_SEARCH_RESULT_RANGES: usize = 10_000; pub trait Item { fn try_open( project: &Model, path: &ProjectPath, cx: &mut AppContext, ) -> Option>>> where Self: Sized; fn entry_id(&self, cx: &AppContext) -> Option; fn project_path(&self, cx: &AppContext) -> Option; } #[derive(Clone)] pub enum OpenedBufferEvent { Disconnected, Ok(BufferId), Err(BufferId, Arc), } /// Semantics-aware entity that is relevant to one or more [`Worktree`] with the files. /// `Project` is responsible for tasks, LSP and collab queries, synchronizing worktree states accordingly. /// Maps [`Worktree`] entries with its own logic using [`ProjectEntryId`] and [`ProjectPath`] structs. /// /// Can be either local (for the project opened on the same host) or remote.(for collab projects, browsed by multiple remote users). pub struct Project { active_entry: Option, buffer_ordered_messages_tx: mpsc::UnboundedSender, languages: Arc, client: Arc, join_project_response_message_id: u32, task_store: Model, user_store: Model, fs: Arc, ssh_client: Option>, client_state: ProjectClientState, collaborators: HashMap, client_subscriptions: Vec, worktree_store: Model, buffer_store: Model, image_store: Model, lsp_store: Model, _subscriptions: Vec, buffers_needing_diff: HashSet>, git_diff_debouncer: DebouncedDelay, remotely_created_models: Arc>, terminals: Terminals, node: Option, search_history: SearchHistory, search_included_history: SearchHistory, search_excluded_history: SearchHistory, snippets: Model, environment: Model, settings_observer: Model, toolchain_store: Option>, } #[derive(Default)] struct RemotelyCreatedModels { worktrees: Vec>, buffers: Vec>, retain_count: usize, } struct RemotelyCreatedModelGuard { remote_models: std::sync::Weak>, } impl Drop for RemotelyCreatedModelGuard { fn drop(&mut self) { if let Some(remote_models) = self.remote_models.upgrade() { let mut remote_models = remote_models.lock(); assert!( remote_models.retain_count > 0, "RemotelyCreatedModelGuard dropped too many times" ); remote_models.retain_count -= 1; if remote_models.retain_count == 0 { remote_models.buffers.clear(); remote_models.worktrees.clear(); } } } } /// Message ordered with respect to buffer operations #[derive(Debug)] enum BufferOrderedMessage { Operation { buffer_id: BufferId, operation: proto::Operation, }, LanguageServerUpdate { language_server_id: LanguageServerId, message: proto::update_language_server::Variant, }, Resync, } #[derive(Debug)] enum ProjectClientState { /// Single-player mode. Local, /// Multi-player mode but still a local project. Shared { remote_id: u64 }, /// Multi-player mode but working on a remote project. Remote { sharing_has_stopped: bool, capability: Capability, remote_id: u64, replica_id: ReplicaId, }, } #[derive(Clone, Debug, PartialEq)] pub enum Event { LanguageServerAdded(LanguageServerId, LanguageServerName, Option), LanguageServerRemoved(LanguageServerId), LanguageServerLog(LanguageServerId, LanguageServerLogType, String), Toast { notification_id: SharedString, message: String, }, HideToast { notification_id: SharedString, }, LanguageServerPrompt(LanguageServerPromptRequest), LanguageNotFound(Model), ActiveEntryChanged(Option), ActivateProjectPanel, WorktreeAdded, WorktreeOrderChanged, WorktreeRemoved(WorktreeId), WorktreeUpdatedEntries(WorktreeId, UpdatedEntriesSet), WorktreeUpdatedGitRepositories, DiskBasedDiagnosticsStarted { language_server_id: LanguageServerId, }, DiskBasedDiagnosticsFinished { language_server_id: LanguageServerId, }, DiagnosticsUpdated { path: ProjectPath, language_server_id: LanguageServerId, }, RemoteIdChanged(Option), DisconnectedFromHost, DisconnectedFromSshRemote, Closed, DeletedEntry(ProjectEntryId), CollaboratorUpdated { old_peer_id: proto::PeerId, new_peer_id: proto::PeerId, }, CollaboratorJoined(proto::PeerId), CollaboratorLeft(proto::PeerId), HostReshared, Reshared, Rejoined, RefreshInlayHints, RevealInProjectPanel(ProjectEntryId), SnippetEdit(BufferId, Vec<(lsp::Range, Snippet)>), } #[derive(Clone, Debug, Eq, PartialEq, Hash, PartialOrd, Ord)] pub struct ProjectPath { pub worktree_id: WorktreeId, pub path: Arc, } impl ProjectPath { pub fn from_proto(p: proto::ProjectPath) -> Self { Self { worktree_id: WorktreeId::from_proto(p.worktree_id), path: Arc::from(PathBuf::from(p.path)), } } pub fn to_proto(&self) -> proto::ProjectPath { proto::ProjectPath { worktree_id: self.worktree_id.to_proto(), path: self.path.to_string_lossy().to_string(), } } pub fn root_path(worktree_id: WorktreeId) -> Self { Self { worktree_id, path: Path::new("").into(), } } } #[derive(Debug, Clone, PartialEq, Eq)] pub struct InlayHint { pub position: language::Anchor, pub label: InlayHintLabel, pub kind: Option, pub padding_left: bool, pub padding_right: bool, pub tooltip: Option, pub resolve_state: ResolveState, } /// The user's intent behind a given completion confirmation #[derive(PartialEq, Eq, Hash, Debug, Clone, Copy)] pub enum CompletionIntent { /// The user intends to 'commit' this result, if possible /// completion confirmations should run side effects Complete, /// The user intends to continue 'composing' this completion /// completion confirmations should not run side effects and /// let the user continue composing their action Compose, } impl CompletionIntent { pub fn is_complete(&self) -> bool { self == &Self::Complete } pub fn is_compose(&self) -> bool { self == &Self::Compose } } /// A completion provided by a language server #[derive(Clone)] pub struct Completion { /// The range of the buffer that will be replaced. pub old_range: Range, /// The new text that will be inserted. pub new_text: String, /// A label for this completion that is shown in the menu. pub label: CodeLabel, /// The id of the language server that produced this completion. pub server_id: LanguageServerId, /// The documentation for this completion. pub documentation: Option, /// The raw completion provided by the language server. pub lsp_completion: lsp::CompletionItem, /// An optional callback to invoke when this completion is confirmed. /// Returns, whether new completions should be retriggered after the current one. /// If `true` is returned, the editor will show a new completion menu after this completion is confirmed. /// if no confirmation is provided or `false` is returned, the completion will be committed. pub confirm: Option bool>>, } impl std::fmt::Debug for Completion { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { f.debug_struct("Completion") .field("old_range", &self.old_range) .field("new_text", &self.new_text) .field("label", &self.label) .field("server_id", &self.server_id) .field("documentation", &self.documentation) .field("lsp_completion", &self.lsp_completion) .finish() } } /// A completion provided by a language server #[derive(Clone, Debug)] pub(crate) struct CoreCompletion { old_range: Range, new_text: String, server_id: LanguageServerId, lsp_completion: lsp::CompletionItem, } /// A code action provided by a language server. #[derive(Clone, Debug)] pub struct CodeAction { /// The id of the language server that produced this code action. pub server_id: LanguageServerId, /// The range of the buffer where this code action is applicable. pub range: Range, /// The raw code action provided by the language server. pub lsp_action: lsp::CodeAction, } #[derive(Debug, Clone, PartialEq, Eq)] pub enum ResolveState { Resolved, CanResolve(LanguageServerId, Option), Resolving, } impl InlayHint { pub fn text(&self) -> String { match &self.label { InlayHintLabel::String(s) => s.to_owned(), InlayHintLabel::LabelParts(parts) => parts.iter().map(|part| &part.value).join(""), } } } #[derive(Debug, Clone, PartialEq, Eq)] pub enum InlayHintLabel { String(String), LabelParts(Vec), } #[derive(Debug, Clone, PartialEq, Eq)] pub struct InlayHintLabelPart { pub value: String, pub tooltip: Option, pub location: Option<(LanguageServerId, lsp::Location)>, } #[derive(Debug, Clone, PartialEq, Eq)] pub enum InlayHintTooltip { String(String), MarkupContent(MarkupContent), } #[derive(Debug, Clone, PartialEq, Eq)] pub enum InlayHintLabelPartTooltip { String(String), MarkupContent(MarkupContent), } #[derive(Debug, Clone, PartialEq, Eq)] pub struct MarkupContent { pub kind: HoverBlockKind, pub value: String, } #[derive(Debug, Clone)] pub struct LocationLink { pub origin: Option, pub target: Location, } #[derive(Debug)] pub struct DocumentHighlight { pub range: Range, pub kind: DocumentHighlightKind, } #[derive(Clone, Debug)] pub struct Symbol { pub language_server_name: LanguageServerName, pub source_worktree_id: WorktreeId, pub path: ProjectPath, pub label: CodeLabel, pub name: String, pub kind: lsp::SymbolKind, pub range: Range>, pub signature: [u8; 32], } #[derive(Clone, Debug, PartialEq)] pub struct HoverBlock { pub text: String, pub kind: HoverBlockKind, } #[derive(Clone, Debug, PartialEq, Eq)] pub enum HoverBlockKind { PlainText, Markdown, Code { language: String }, } #[derive(Debug, Clone)] pub struct Hover { pub contents: Vec, pub range: Option>, pub language: Option>, } impl Hover { pub fn is_empty(&self) -> bool { self.contents.iter().all(|block| block.text.is_empty()) } } enum EntitySubscription { Project(PendingEntitySubscription), BufferStore(PendingEntitySubscription), WorktreeStore(PendingEntitySubscription), LspStore(PendingEntitySubscription), SettingsObserver(PendingEntitySubscription), } #[derive(Clone)] pub enum DirectoryLister { Project(Model), Local(Arc), } impl DirectoryLister { pub fn is_local(&self, cx: &AppContext) -> bool { match self { DirectoryLister::Local(_) => true, DirectoryLister::Project(project) => project.read(cx).is_local(), } } pub fn resolve_tilde<'a>(&self, path: &'a String, cx: &AppContext) -> Cow<'a, str> { if self.is_local(cx) { shellexpand::tilde(path) } else { Cow::from(path) } } pub fn default_query(&self, cx: &mut AppContext) -> String { if let DirectoryLister::Project(project) = self { if let Some(worktree) = project.read(cx).visible_worktrees(cx).next() { return worktree.read(cx).abs_path().to_string_lossy().to_string(); } }; "~/".to_string() } pub fn list_directory(&self, path: String, cx: &mut AppContext) -> Task>> { match self { DirectoryLister::Project(project) => { project.update(cx, |project, cx| project.list_directory(path, cx)) } DirectoryLister::Local(fs) => { let fs = fs.clone(); cx.background_executor().spawn(async move { let mut results = vec![]; let expanded = shellexpand::tilde(&path); let query = Path::new(expanded.as_ref()); let mut response = fs.read_dir(query).await?; while let Some(path) = response.next().await { if let Some(file_name) = path?.file_name() { results.push(PathBuf::from(file_name.to_os_string())); } } Ok(results) }) } } } } #[cfg(any(test, feature = "test-support"))] pub const DEFAULT_COMPLETION_CONTEXT: CompletionContext = CompletionContext { trigger_kind: lsp::CompletionTriggerKind::INVOKED, trigger_character: None, }; impl Project { pub fn init_settings(cx: &mut AppContext) { WorktreeSettings::register(cx); ProjectSettings::register(cx); } pub fn init(client: &Arc, cx: &mut AppContext) { connection_manager::init(client.clone(), cx); Self::init_settings(cx); let client: AnyProtoClient = client.clone().into(); client.add_model_message_handler(Self::handle_add_collaborator); client.add_model_message_handler(Self::handle_update_project_collaborator); client.add_model_message_handler(Self::handle_remove_collaborator); client.add_model_message_handler(Self::handle_update_project); client.add_model_message_handler(Self::handle_unshare_project); client.add_model_request_handler(Self::handle_update_buffer); client.add_model_message_handler(Self::handle_update_worktree); client.add_model_request_handler(Self::handle_synchronize_buffers); client.add_model_request_handler(Self::handle_search_candidate_buffers); client.add_model_request_handler(Self::handle_open_buffer_by_id); client.add_model_request_handler(Self::handle_open_buffer_by_path); client.add_model_request_handler(Self::handle_open_new_buffer); client.add_model_message_handler(Self::handle_create_buffer_for_peer); WorktreeStore::init(&client); BufferStore::init(&client); LspStore::init(&client); SettingsObserver::init(&client); TaskStore::init(Some(&client)); ToolchainStore::init(&client); } pub fn local( client: Arc, node: NodeRuntime, user_store: Model, languages: Arc, fs: Arc, env: Option>, cx: &mut AppContext, ) -> Model { cx.new_model(|cx: &mut ModelContext| { let (tx, rx) = mpsc::unbounded(); cx.spawn(move |this, cx| Self::send_buffer_ordered_messages(this, rx, cx)) .detach(); let snippets = SnippetProvider::new(fs.clone(), BTreeSet::from_iter([]), cx); let worktree_store = cx.new_model(|_| WorktreeStore::local(false, fs.clone())); cx.subscribe(&worktree_store, Self::on_worktree_store_event) .detach(); let buffer_store = cx.new_model(|cx| BufferStore::local(worktree_store.clone(), cx)); cx.subscribe(&buffer_store, Self::on_buffer_store_event) .detach(); let image_store = cx.new_model(|cx| ImageStore::local(worktree_store.clone(), cx)); cx.subscribe(&image_store, Self::on_image_store_event) .detach(); let prettier_store = cx.new_model(|cx| { PrettierStore::new( node.clone(), fs.clone(), languages.clone(), worktree_store.clone(), cx, ) }); let environment = ProjectEnvironment::new(&worktree_store, env, cx); let toolchain_store = cx.new_model(|cx| { ToolchainStore::local( languages.clone(), worktree_store.clone(), environment.clone(), cx, ) }); let task_store = cx.new_model(|cx| { TaskStore::local( fs.clone(), buffer_store.downgrade(), worktree_store.clone(), toolchain_store.read(cx).as_language_toolchain_store(), environment.clone(), cx, ) }); let settings_observer = cx.new_model(|cx| { SettingsObserver::new_local( fs.clone(), worktree_store.clone(), task_store.clone(), cx, ) }); cx.subscribe(&settings_observer, Self::on_settings_observer_event) .detach(); let lsp_store = cx.new_model(|cx| { LspStore::new_local( buffer_store.clone(), worktree_store.clone(), prettier_store.clone(), toolchain_store.clone(), environment.clone(), languages.clone(), client.http_client(), fs.clone(), cx, ) }); cx.subscribe(&lsp_store, Self::on_lsp_store_event).detach(); Self { buffer_ordered_messages_tx: tx, collaborators: Default::default(), worktree_store, buffer_store, image_store, lsp_store, join_project_response_message_id: 0, client_state: ProjectClientState::Local, client_subscriptions: Vec::new(), _subscriptions: vec![cx.on_release(Self::release)], active_entry: None, snippets, languages, client, task_store, user_store, settings_observer, fs, ssh_client: None, buffers_needing_diff: Default::default(), git_diff_debouncer: DebouncedDelay::new(), terminals: Terminals { local_handles: Vec::new(), }, node: Some(node), search_history: Self::new_search_history(), environment, remotely_created_models: Default::default(), search_included_history: Self::new_search_history(), search_excluded_history: Self::new_search_history(), toolchain_store: Some(toolchain_store), } }) } pub fn ssh( ssh: Model, client: Arc, node: NodeRuntime, user_store: Model, languages: Arc, fs: Arc, cx: &mut AppContext, ) -> Model { cx.new_model(|cx: &mut ModelContext| { let (tx, rx) = mpsc::unbounded(); cx.spawn(move |this, cx| Self::send_buffer_ordered_messages(this, rx, cx)) .detach(); let global_snippets_dir = paths::config_dir().join("snippets"); let snippets = SnippetProvider::new(fs.clone(), BTreeSet::from_iter([global_snippets_dir]), cx); let ssh_proto = ssh.read(cx).proto_client(); let worktree_store = cx.new_model(|_| WorktreeStore::remote(false, ssh_proto.clone(), SSH_PROJECT_ID)); cx.subscribe(&worktree_store, Self::on_worktree_store_event) .detach(); let buffer_store = cx.new_model(|cx| { BufferStore::remote( worktree_store.clone(), ssh.read(cx).proto_client(), SSH_PROJECT_ID, cx, ) }); let image_store = cx.new_model(|cx| { ImageStore::remote( worktree_store.clone(), ssh.read(cx).proto_client(), SSH_PROJECT_ID, cx, ) }); cx.subscribe(&buffer_store, Self::on_buffer_store_event) .detach(); let toolchain_store = cx.new_model(|cx| { ToolchainStore::remote(SSH_PROJECT_ID, ssh.read(cx).proto_client(), cx) }); let task_store = cx.new_model(|cx| { TaskStore::remote( fs.clone(), buffer_store.downgrade(), worktree_store.clone(), toolchain_store.read(cx).as_language_toolchain_store(), ssh.read(cx).proto_client(), SSH_PROJECT_ID, cx, ) }); let settings_observer = cx.new_model(|cx| { SettingsObserver::new_remote(worktree_store.clone(), task_store.clone(), cx) }); cx.subscribe(&settings_observer, Self::on_settings_observer_event) .detach(); let environment = ProjectEnvironment::new(&worktree_store, None, cx); let lsp_store = cx.new_model(|cx| { LspStore::new_remote( buffer_store.clone(), worktree_store.clone(), Some(toolchain_store.clone()), languages.clone(), ssh_proto.clone(), SSH_PROJECT_ID, cx, ) }); cx.subscribe(&lsp_store, Self::on_lsp_store_event).detach(); cx.subscribe(&ssh, Self::on_ssh_event).detach(); cx.observe(&ssh, |_, _, cx| cx.notify()).detach(); let this = Self { buffer_ordered_messages_tx: tx, collaborators: Default::default(), worktree_store, buffer_store, image_store, lsp_store, join_project_response_message_id: 0, client_state: ProjectClientState::Local, client_subscriptions: Vec::new(), _subscriptions: vec![ cx.on_release(Self::release), cx.on_app_quit(|this, cx| { let shutdown = this.ssh_client.take().and_then(|client| { client .read(cx) .shutdown_processes(Some(proto::ShutdownRemoteServer {})) }); cx.background_executor().spawn(async move { if let Some(shutdown) = shutdown { shutdown.await; } }) }), ], active_entry: None, snippets, languages, client, task_store, user_store, settings_observer, fs, ssh_client: Some(ssh.clone()), buffers_needing_diff: Default::default(), git_diff_debouncer: DebouncedDelay::new(), terminals: Terminals { local_handles: Vec::new(), }, node: Some(node), search_history: Self::new_search_history(), environment, remotely_created_models: Default::default(), search_included_history: Self::new_search_history(), search_excluded_history: Self::new_search_history(), toolchain_store: Some(toolchain_store), }; let ssh = ssh.read(cx); ssh.subscribe_to_entity(SSH_PROJECT_ID, &cx.handle()); ssh.subscribe_to_entity(SSH_PROJECT_ID, &this.buffer_store); ssh.subscribe_to_entity(SSH_PROJECT_ID, &this.worktree_store); ssh.subscribe_to_entity(SSH_PROJECT_ID, &this.lsp_store); ssh.subscribe_to_entity(SSH_PROJECT_ID, &this.settings_observer); ssh_proto.add_model_message_handler(Self::handle_create_buffer_for_peer); ssh_proto.add_model_message_handler(Self::handle_update_worktree); ssh_proto.add_model_message_handler(Self::handle_update_project); ssh_proto.add_model_message_handler(Self::handle_toast); ssh_proto.add_model_request_handler(Self::handle_language_server_prompt_request); ssh_proto.add_model_message_handler(Self::handle_hide_toast); ssh_proto.add_model_request_handler(Self::handle_update_buffer_from_ssh); BufferStore::init(&ssh_proto); LspStore::init(&ssh_proto); SettingsObserver::init(&ssh_proto); TaskStore::init(Some(&ssh_proto)); ToolchainStore::init(&ssh_proto); this }) } pub async fn remote( remote_id: u64, client: Arc, user_store: Model, languages: Arc, fs: Arc, cx: AsyncAppContext, ) -> Result> { let project = Self::in_room(remote_id, client, user_store, languages, fs, cx.clone()).await?; cx.update(|cx| { connection_manager::Manager::global(cx).update(cx, |manager, cx| { manager.maintain_project_connection(&project, cx) }) })?; Ok(project) } pub async fn in_room( remote_id: u64, client: Arc, user_store: Model, languages: Arc, fs: Arc, cx: AsyncAppContext, ) -> Result> { client.authenticate_and_connect(true, &cx).await?; let subscriptions = [ EntitySubscription::Project(client.subscribe_to_entity::(remote_id)?), EntitySubscription::BufferStore(client.subscribe_to_entity::(remote_id)?), EntitySubscription::WorktreeStore( client.subscribe_to_entity::(remote_id)?, ), EntitySubscription::LspStore(client.subscribe_to_entity::(remote_id)?), EntitySubscription::SettingsObserver( client.subscribe_to_entity::(remote_id)?, ), ]; let response = client .request_envelope(proto::JoinProject { project_id: remote_id, }) .await?; Self::from_join_project_response( response, subscriptions, client, false, user_store, languages, fs, cx, ) .await } #[allow(clippy::too_many_arguments)] async fn from_join_project_response( response: TypedEnvelope, subscriptions: [EntitySubscription; 5], client: Arc, run_tasks: bool, user_store: Model, languages: Arc, fs: Arc, mut cx: AsyncAppContext, ) -> Result> { let remote_id = response.payload.project_id; let role = response.payload.role(); let worktree_store = cx.new_model(|_| { WorktreeStore::remote(true, client.clone().into(), response.payload.project_id) })?; let buffer_store = cx.new_model(|cx| { BufferStore::remote(worktree_store.clone(), client.clone().into(), remote_id, cx) })?; let image_store = cx.new_model(|cx| { ImageStore::remote(worktree_store.clone(), client.clone().into(), remote_id, cx) })?; let lsp_store = cx.new_model(|cx| { let mut lsp_store = LspStore::new_remote( buffer_store.clone(), worktree_store.clone(), None, languages.clone(), client.clone().into(), remote_id, cx, ); lsp_store.set_language_server_statuses_from_proto(response.payload.language_servers); lsp_store })?; let task_store = cx.new_model(|cx| { if run_tasks { TaskStore::remote( fs.clone(), buffer_store.downgrade(), worktree_store.clone(), Arc::new(EmptyToolchainStore), client.clone().into(), remote_id, cx, ) } else { TaskStore::Noop } })?; let settings_observer = cx.new_model(|cx| { SettingsObserver::new_remote(worktree_store.clone(), task_store.clone(), cx) })?; let this = cx.new_model(|cx| { let replica_id = response.payload.replica_id as ReplicaId; let snippets = SnippetProvider::new(fs.clone(), BTreeSet::from_iter([]), cx); let mut worktrees = Vec::new(); for worktree in response.payload.worktrees { let worktree = Worktree::remote(remote_id, replica_id, worktree, client.clone().into(), cx); worktrees.push(worktree); } let (tx, rx) = mpsc::unbounded(); cx.spawn(move |this, cx| Self::send_buffer_ordered_messages(this, rx, cx)) .detach(); cx.subscribe(&worktree_store, Self::on_worktree_store_event) .detach(); cx.subscribe(&buffer_store, Self::on_buffer_store_event) .detach(); cx.subscribe(&lsp_store, Self::on_lsp_store_event).detach(); cx.subscribe(&settings_observer, Self::on_settings_observer_event) .detach(); let mut this = Self { buffer_ordered_messages_tx: tx, buffer_store: buffer_store.clone(), image_store, worktree_store: worktree_store.clone(), lsp_store: lsp_store.clone(), active_entry: None, collaborators: Default::default(), join_project_response_message_id: response.message_id, languages, user_store: user_store.clone(), task_store, snippets, fs, ssh_client: None, settings_observer: settings_observer.clone(), client_subscriptions: Default::default(), _subscriptions: vec![cx.on_release(Self::release)], client: client.clone(), client_state: ProjectClientState::Remote { sharing_has_stopped: false, capability: Capability::ReadWrite, remote_id, replica_id, }, buffers_needing_diff: Default::default(), git_diff_debouncer: DebouncedDelay::new(), terminals: Terminals { local_handles: Vec::new(), }, node: None, search_history: Self::new_search_history(), search_included_history: Self::new_search_history(), search_excluded_history: Self::new_search_history(), environment: ProjectEnvironment::new(&worktree_store, None, cx), remotely_created_models: Arc::new(Mutex::new(RemotelyCreatedModels::default())), toolchain_store: None, }; this.set_role(role, cx); for worktree in worktrees { this.add_worktree(&worktree, cx); } this })?; let subscriptions = subscriptions .into_iter() .map(|s| match s { EntitySubscription::BufferStore(subscription) => { subscription.set_model(&buffer_store, &mut cx) } EntitySubscription::WorktreeStore(subscription) => { subscription.set_model(&worktree_store, &mut cx) } EntitySubscription::SettingsObserver(subscription) => { subscription.set_model(&settings_observer, &mut cx) } EntitySubscription::Project(subscription) => subscription.set_model(&this, &mut cx), EntitySubscription::LspStore(subscription) => { subscription.set_model(&lsp_store, &mut cx) } }) .collect::>(); let user_ids = response .payload .collaborators .iter() .map(|peer| peer.user_id) .collect(); user_store .update(&mut cx, |user_store, cx| user_store.get_users(user_ids, cx))? .await?; this.update(&mut cx, |this, cx| { this.set_collaborators_from_proto(response.payload.collaborators, cx)?; this.client_subscriptions.extend(subscriptions); anyhow::Ok(()) })??; Ok(this) } fn new_search_history() -> SearchHistory { SearchHistory::new( Some(MAX_PROJECT_SEARCH_HISTORY_SIZE), search_history::QueryInsertionBehavior::AlwaysInsert, ) } fn release(&mut self, cx: &mut AppContext) { if let Some(client) = self.ssh_client.take() { let shutdown = client .read(cx) .shutdown_processes(Some(proto::ShutdownRemoteServer {})); cx.background_executor() .spawn(async move { if let Some(shutdown) = shutdown { shutdown.await; } }) .detach() } match &self.client_state { ProjectClientState::Local => {} ProjectClientState::Shared { .. } => { let _ = self.unshare_internal(cx); } ProjectClientState::Remote { remote_id, .. } => { let _ = self.client.send(proto::LeaveProject { project_id: *remote_id, }); self.disconnected_from_host_internal(cx); } } } #[cfg(any(test, feature = "test-support"))] pub async fn example( root_paths: impl IntoIterator, cx: &mut AsyncAppContext, ) -> Model { use clock::FakeSystemClock; let fs = Arc::new(RealFs::default()); let languages = LanguageRegistry::test(cx.background_executor().clone()); let clock = Arc::new(FakeSystemClock::new()); let http_client = http_client::FakeHttpClient::with_404_response(); let client = cx .update(|cx| client::Client::new(clock, http_client.clone(), cx)) .unwrap(); let user_store = cx .new_model(|cx| UserStore::new(client.clone(), cx)) .unwrap(); let project = cx .update(|cx| { Project::local( client, node_runtime::NodeRuntime::unavailable(), user_store, Arc::new(languages), fs, None, cx, ) }) .unwrap(); for path in root_paths { let (tree, _) = project .update(cx, |project, cx| { project.find_or_create_worktree(path, true, cx) }) .unwrap() .await .unwrap(); tree.update(cx, |tree, _| tree.as_local().unwrap().scan_complete()) .unwrap() .await; } project } #[cfg(any(test, feature = "test-support"))] pub async fn test( fs: Arc, root_paths: impl IntoIterator, cx: &mut gpui::TestAppContext, ) -> Model { use clock::FakeSystemClock; use gpui::Context; let languages = LanguageRegistry::test(cx.executor()); let clock = Arc::new(FakeSystemClock::new()); let http_client = http_client::FakeHttpClient::with_404_response(); let client = cx.update(|cx| client::Client::new(clock, http_client.clone(), cx)); let user_store = cx.new_model(|cx| UserStore::new(client.clone(), cx)); let project = cx.update(|cx| { Project::local( client, node_runtime::NodeRuntime::unavailable(), user_store, Arc::new(languages), fs, None, cx, ) }); for path in root_paths { let (tree, _) = project .update(cx, |project, cx| { project.find_or_create_worktree(path, true, cx) }) .await .unwrap(); project.update(cx, |project, cx| { let tree_id = tree.read(cx).id(); project.environment.update(cx, |environment, _| { environment.set_cached(&[(tree_id, HashMap::default())]) }); }); tree.update(cx, |tree, _| tree.as_local().unwrap().scan_complete()) .await; } project } pub fn lsp_store(&self) -> Model { self.lsp_store.clone() } pub fn worktree_store(&self) -> Model { self.worktree_store.clone() } pub fn buffer_for_id(&self, remote_id: BufferId, cx: &AppContext) -> Option> { self.buffer_store.read(cx).get(remote_id) } pub fn languages(&self) -> &Arc { &self.languages } pub fn client(&self) -> Arc { self.client.clone() } pub fn ssh_client(&self) -> Option> { self.ssh_client.clone() } pub fn user_store(&self) -> Model { self.user_store.clone() } pub fn node_runtime(&self) -> Option<&NodeRuntime> { self.node.as_ref() } pub fn opened_buffers(&self, cx: &AppContext) -> Vec> { self.buffer_store.read(cx).buffers().collect() } pub fn cli_environment(&self, cx: &AppContext) -> Option> { self.environment.read(cx).get_cli_environment() } pub fn shell_environment_errors<'a>( &'a self, cx: &'a AppContext, ) -> impl Iterator { self.environment.read(cx).environment_errors() } pub fn remove_environment_error( &mut self, cx: &mut ModelContext, worktree_id: WorktreeId, ) { self.environment.update(cx, |environment, _| { environment.remove_environment_error(worktree_id); }); } #[cfg(any(test, feature = "test-support"))] pub fn has_open_buffer(&self, path: impl Into, cx: &AppContext) -> bool { self.buffer_store .read(cx) .get_by_path(&path.into(), cx) .is_some() } pub fn fs(&self) -> &Arc { &self.fs } pub fn remote_id(&self) -> Option { match self.client_state { ProjectClientState::Local => None, ProjectClientState::Shared { remote_id, .. } | ProjectClientState::Remote { remote_id, .. } => Some(remote_id), } } pub fn supports_terminal(&self, _cx: &AppContext) -> bool { if self.is_local() { return true; } if self.is_via_ssh() { return true; } return false; } pub fn ssh_connection_string(&self, cx: &AppContext) -> Option { if let Some(ssh_state) = &self.ssh_client { return Some(ssh_state.read(cx).connection_string().into()); } return None; } pub fn ssh_connection_state(&self, cx: &AppContext) -> Option { self.ssh_client .as_ref() .map(|ssh| ssh.read(cx).connection_state()) } pub fn ssh_connection_options(&self, cx: &AppContext) -> Option { self.ssh_client .as_ref() .map(|ssh| ssh.read(cx).connection_options()) } pub fn replica_id(&self) -> ReplicaId { match self.client_state { ProjectClientState::Remote { replica_id, .. } => replica_id, _ => { if self.ssh_client.is_some() { 1 } else { 0 } } } } pub fn task_store(&self) -> &Model { &self.task_store } pub fn snippets(&self) -> &Model { &self.snippets } pub fn search_history(&self, kind: SearchInputKind) -> &SearchHistory { match kind { SearchInputKind::Query => &self.search_history, SearchInputKind::Include => &self.search_included_history, SearchInputKind::Exclude => &self.search_excluded_history, } } pub fn search_history_mut(&mut self, kind: SearchInputKind) -> &mut SearchHistory { match kind { SearchInputKind::Query => &mut self.search_history, SearchInputKind::Include => &mut self.search_included_history, SearchInputKind::Exclude => &mut self.search_excluded_history, } } pub fn collaborators(&self) -> &HashMap { &self.collaborators } pub fn host(&self) -> Option<&Collaborator> { self.collaborators.values().find(|c| c.is_host) } pub fn set_worktrees_reordered(&mut self, worktrees_reordered: bool, cx: &mut AppContext) { self.worktree_store.update(cx, |store, _| { store.set_worktrees_reordered(worktrees_reordered); }); } /// Collect all worktrees, including ones that don't appear in the project panel pub fn worktrees<'a>( &self, cx: &'a AppContext, ) -> impl 'a + DoubleEndedIterator> { self.worktree_store.read(cx).worktrees() } /// Collect all user-visible worktrees, the ones that appear in the project panel. pub fn visible_worktrees<'a>( &'a self, cx: &'a AppContext, ) -> impl 'a + DoubleEndedIterator> { self.worktree_store.read(cx).visible_worktrees(cx) } pub fn worktree_root_names<'a>(&'a self, cx: &'a AppContext) -> impl Iterator { self.visible_worktrees(cx) .map(|tree| tree.read(cx).root_name()) } pub fn worktree_for_id(&self, id: WorktreeId, cx: &AppContext) -> Option> { self.worktree_store.read(cx).worktree_for_id(id, cx) } pub fn worktree_for_entry( &self, entry_id: ProjectEntryId, cx: &AppContext, ) -> Option> { self.worktree_store .read(cx) .worktree_for_entry(entry_id, cx) } pub fn worktree_id_for_entry( &self, entry_id: ProjectEntryId, cx: &AppContext, ) -> Option { self.worktree_for_entry(entry_id, cx) .map(|worktree| worktree.read(cx).id()) } /// Checks if the entry is the root of a worktree. pub fn entry_is_worktree_root(&self, entry_id: ProjectEntryId, cx: &AppContext) -> bool { self.worktree_for_entry(entry_id, cx) .map(|worktree| { worktree .read(cx) .root_entry() .is_some_and(|e| e.id == entry_id) }) .unwrap_or(false) } pub fn visibility_for_paths(&self, paths: &[PathBuf], cx: &AppContext) -> Option { paths .iter() .map(|path| self.visibility_for_path(path, cx)) .max() .flatten() } pub fn visibility_for_path(&self, path: &Path, cx: &AppContext) -> Option { self.worktrees(cx) .filter_map(|worktree| { let worktree = worktree.read(cx); worktree .as_local()? .contains_abs_path(path) .then(|| worktree.is_visible()) }) .max() } pub fn create_entry( &mut self, project_path: impl Into, is_directory: bool, cx: &mut ModelContext, ) -> Task> { let project_path = project_path.into(); let Some(worktree) = self.worktree_for_id(project_path.worktree_id, cx) else { return Task::ready(Err(anyhow!(format!( "No worktree for path {project_path:?}" )))); }; worktree.update(cx, |worktree, cx| { worktree.create_entry(project_path.path, is_directory, cx) }) } pub fn copy_entry( &mut self, entry_id: ProjectEntryId, relative_worktree_source_path: Option, new_path: impl Into>, cx: &mut ModelContext, ) -> Task>> { let Some(worktree) = self.worktree_for_entry(entry_id, cx) else { return Task::ready(Ok(None)); }; worktree.update(cx, |worktree, cx| { worktree.copy_entry(entry_id, relative_worktree_source_path, new_path, cx) }) } pub fn rename_entry( &mut self, entry_id: ProjectEntryId, new_path: impl Into>, cx: &mut ModelContext, ) -> Task> { let Some(worktree) = self.worktree_for_entry(entry_id, cx) else { return Task::ready(Err(anyhow!(format!("No worktree for entry {entry_id:?}")))); }; worktree.update(cx, |worktree, cx| { worktree.rename_entry(entry_id, new_path, cx) }) } pub fn delete_entry( &mut self, entry_id: ProjectEntryId, trash: bool, cx: &mut ModelContext, ) -> Option>> { let worktree = self.worktree_for_entry(entry_id, cx)?; worktree.update(cx, |worktree, cx| { worktree.delete_entry(entry_id, trash, cx) }) } pub fn expand_entry( &mut self, worktree_id: WorktreeId, entry_id: ProjectEntryId, cx: &mut ModelContext, ) -> Option>> { let worktree = self.worktree_for_id(worktree_id, cx)?; worktree.update(cx, |worktree, cx| worktree.expand_entry(entry_id, cx)) } pub fn shared(&mut self, project_id: u64, cx: &mut ModelContext) -> Result<()> { if !matches!(self.client_state, ProjectClientState::Local) { return Err(anyhow!("project was already shared")); } self.client_subscriptions.extend([ self.client .subscribe_to_entity(project_id)? .set_model(&cx.handle(), &mut cx.to_async()), self.client .subscribe_to_entity(project_id)? .set_model(&self.worktree_store, &mut cx.to_async()), self.client .subscribe_to_entity(project_id)? .set_model(&self.buffer_store, &mut cx.to_async()), self.client .subscribe_to_entity(project_id)? .set_model(&self.lsp_store, &mut cx.to_async()), self.client .subscribe_to_entity(project_id)? .set_model(&self.settings_observer, &mut cx.to_async()), ]); self.buffer_store.update(cx, |buffer_store, cx| { buffer_store.shared(project_id, self.client.clone().into(), cx) }); self.worktree_store.update(cx, |worktree_store, cx| { worktree_store.shared(project_id, self.client.clone().into(), cx); }); self.lsp_store.update(cx, |lsp_store, cx| { lsp_store.shared(project_id, self.client.clone().into(), cx) }); self.task_store.update(cx, |task_store, cx| { task_store.shared(project_id, self.client.clone().into(), cx); }); self.settings_observer.update(cx, |settings_observer, cx| { settings_observer.shared(project_id, self.client.clone().into(), cx) }); self.client_state = ProjectClientState::Shared { remote_id: project_id, }; cx.emit(Event::RemoteIdChanged(Some(project_id))); cx.notify(); Ok(()) } pub fn reshared( &mut self, message: proto::ResharedProject, cx: &mut ModelContext, ) -> Result<()> { self.buffer_store .update(cx, |buffer_store, _| buffer_store.forget_shared_buffers()); self.set_collaborators_from_proto(message.collaborators, cx)?; self.worktree_store.update(cx, |worktree_store, cx| { worktree_store.send_project_updates(cx); }); cx.notify(); cx.emit(Event::Reshared); Ok(()) } pub fn rejoined( &mut self, message: proto::RejoinedProject, message_id: u32, cx: &mut ModelContext, ) -> Result<()> { cx.update_global::(|store, cx| { self.worktree_store.update(cx, |worktree_store, cx| { for worktree in worktree_store.worktrees() { store .clear_local_settings(worktree.read(cx).id(), cx) .log_err(); } }); }); self.join_project_response_message_id = message_id; self.set_worktrees_from_proto(message.worktrees, cx)?; self.set_collaborators_from_proto(message.collaborators, cx)?; self.lsp_store.update(cx, |lsp_store, _| { lsp_store.set_language_server_statuses_from_proto(message.language_servers) }); self.enqueue_buffer_ordered_message(BufferOrderedMessage::Resync) .unwrap(); cx.emit(Event::Rejoined); cx.notify(); Ok(()) } pub fn unshare(&mut self, cx: &mut ModelContext) -> Result<()> { self.unshare_internal(cx)?; cx.notify(); Ok(()) } fn unshare_internal(&mut self, cx: &mut AppContext) -> Result<()> { if self.is_via_collab() { return Err(anyhow!("attempted to unshare a remote project")); } if let ProjectClientState::Shared { remote_id, .. } = self.client_state { self.client_state = ProjectClientState::Local; self.collaborators.clear(); self.client_subscriptions.clear(); self.worktree_store.update(cx, |store, cx| { store.unshared(cx); }); self.buffer_store.update(cx, |buffer_store, cx| { buffer_store.forget_shared_buffers(); buffer_store.unshared(cx) }); self.task_store.update(cx, |task_store, cx| { task_store.unshared(cx); }); self.settings_observer.update(cx, |settings_observer, cx| { settings_observer.unshared(cx); }); self.client .send(proto::UnshareProject { project_id: remote_id, }) .ok(); Ok(()) } else { Err(anyhow!("attempted to unshare an unshared project")) } } pub fn disconnected_from_host(&mut self, cx: &mut ModelContext) { if self.is_disconnected(cx) { return; } self.disconnected_from_host_internal(cx); cx.emit(Event::DisconnectedFromHost); cx.notify(); } pub fn set_role(&mut self, role: proto::ChannelRole, cx: &mut ModelContext) { let new_capability = if role == proto::ChannelRole::Member || role == proto::ChannelRole::Admin { Capability::ReadWrite } else { Capability::ReadOnly }; if let ProjectClientState::Remote { capability, .. } = &mut self.client_state { if *capability == new_capability { return; } *capability = new_capability; for buffer in self.opened_buffers(cx) { buffer.update(cx, |buffer, cx| buffer.set_capability(new_capability, cx)); } } } fn disconnected_from_host_internal(&mut self, cx: &mut AppContext) { if let ProjectClientState::Remote { sharing_has_stopped, .. } = &mut self.client_state { *sharing_has_stopped = true; self.collaborators.clear(); self.worktree_store.update(cx, |store, cx| { store.disconnected_from_host(cx); }); self.buffer_store.update(cx, |buffer_store, cx| { buffer_store.disconnected_from_host(cx) }); self.lsp_store .update(cx, |lsp_store, _cx| lsp_store.disconnected_from_host()); } } pub fn close(&mut self, cx: &mut ModelContext) { cx.emit(Event::Closed); } pub fn is_disconnected(&self, cx: &AppContext) -> bool { match &self.client_state { ProjectClientState::Remote { sharing_has_stopped, .. } => *sharing_has_stopped, ProjectClientState::Local if self.is_via_ssh() => self.ssh_is_disconnected(cx), _ => false, } } fn ssh_is_disconnected(&self, cx: &AppContext) -> bool { self.ssh_client .as_ref() .map(|ssh| ssh.read(cx).is_disconnected()) .unwrap_or(false) } pub fn capability(&self) -> Capability { match &self.client_state { ProjectClientState::Remote { capability, .. } => *capability, ProjectClientState::Shared { .. } | ProjectClientState::Local => Capability::ReadWrite, } } pub fn is_read_only(&self, cx: &AppContext) -> bool { self.is_disconnected(cx) || self.capability() == Capability::ReadOnly } pub fn is_local(&self) -> bool { match &self.client_state { ProjectClientState::Local | ProjectClientState::Shared { .. } => { self.ssh_client.is_none() } ProjectClientState::Remote { .. } => false, } } pub fn is_via_ssh(&self) -> bool { match &self.client_state { ProjectClientState::Local | ProjectClientState::Shared { .. } => { self.ssh_client.is_some() } ProjectClientState::Remote { .. } => false, } } pub fn is_via_collab(&self) -> bool { match &self.client_state { ProjectClientState::Local | ProjectClientState::Shared { .. } => false, ProjectClientState::Remote { .. } => true, } } pub fn create_buffer(&mut self, cx: &mut ModelContext) -> Task>> { self.buffer_store .update(cx, |buffer_store, cx| buffer_store.create_buffer(cx)) } pub fn create_local_buffer( &mut self, text: &str, language: Option>, cx: &mut ModelContext, ) -> Model { if self.is_via_collab() || self.is_via_ssh() { panic!("called create_local_buffer on a remote project") } self.buffer_store.update(cx, |buffer_store, cx| { buffer_store.create_local_buffer(text, language, cx) }) } pub fn open_path( &mut self, path: ProjectPath, cx: &mut ModelContext, ) -> Task, AnyModel)>> { let task = self.open_buffer(path.clone(), cx); cx.spawn(move |_, cx| async move { let buffer = task.await?; let project_entry_id = buffer.read_with(&cx, |buffer, cx| { File::from_dyn(buffer.file()).and_then(|file| file.project_entry_id(cx)) })?; let buffer: &AnyModel = &buffer; Ok((project_entry_id, buffer.clone())) }) } pub fn open_local_buffer( &mut self, abs_path: impl AsRef, cx: &mut ModelContext, ) -> Task>> { if let Some((worktree, relative_path)) = self.find_worktree(abs_path.as_ref(), cx) { self.open_buffer((worktree.read(cx).id(), relative_path), cx) } else { Task::ready(Err(anyhow!("no such path"))) } } pub fn open_buffer( &mut self, path: impl Into, cx: &mut ModelContext, ) -> Task>> { if self.is_disconnected(cx) { return Task::ready(Err(anyhow!(ErrorCode::Disconnected))); } self.buffer_store.update(cx, |buffer_store, cx| { buffer_store.open_buffer(path.into(), cx) }) } pub fn open_buffer_by_id( &mut self, id: BufferId, cx: &mut ModelContext, ) -> Task>> { if let Some(buffer) = self.buffer_for_id(id, cx) { Task::ready(Ok(buffer)) } else if self.is_local() || self.is_via_ssh() { Task::ready(Err(anyhow!("buffer {} does not exist", id))) } else if let Some(project_id) = self.remote_id() { let request = self.client.request(proto::OpenBufferById { project_id, id: id.into(), }); cx.spawn(move |this, mut cx| async move { let buffer_id = BufferId::new(request.await?.buffer_id)?; this.update(&mut cx, |this, cx| { this.wait_for_remote_buffer(buffer_id, cx) })? .await }) } else { Task::ready(Err(anyhow!("cannot open buffer while disconnected"))) } } pub fn save_buffers( &self, buffers: HashSet>, cx: &mut ModelContext, ) -> Task> { cx.spawn(move |this, mut cx| async move { let save_tasks = buffers.into_iter().filter_map(|buffer| { this.update(&mut cx, |this, cx| this.save_buffer(buffer, cx)) .ok() }); try_join_all(save_tasks).await?; Ok(()) }) } pub fn save_buffer( &self, buffer: Model, cx: &mut ModelContext, ) -> Task> { self.buffer_store .update(cx, |buffer_store, cx| buffer_store.save_buffer(buffer, cx)) } pub fn save_buffer_as( &mut self, buffer: Model, path: ProjectPath, cx: &mut ModelContext, ) -> Task> { self.buffer_store.update(cx, |buffer_store, cx| { buffer_store.save_buffer_as(buffer.clone(), path, cx) }) } pub fn get_open_buffer(&self, path: &ProjectPath, cx: &AppContext) -> Option> { self.buffer_store.read(cx).get_by_path(path, cx) } fn register_buffer( &mut self, buffer: &Model, cx: &mut ModelContext, ) -> Result<()> { { let mut remotely_created_models = self.remotely_created_models.lock(); if remotely_created_models.retain_count > 0 { remotely_created_models.buffers.push(buffer.clone()) } } self.request_buffer_diff_recalculation(buffer, cx); cx.subscribe(buffer, |this, buffer, event, cx| { this.on_buffer_event(buffer, event, cx); }) .detach(); Ok(()) } pub fn open_image( &mut self, path: impl Into, cx: &mut ModelContext, ) -> Task>> { if self.is_disconnected(cx) { return Task::ready(Err(anyhow!(ErrorCode::Disconnected))); } self.image_store.update(cx, |image_store, cx| { image_store.open_image(path.into(), cx) }) } async fn send_buffer_ordered_messages( this: WeakModel, rx: UnboundedReceiver, mut cx: AsyncAppContext, ) -> Result<()> { const MAX_BATCH_SIZE: usize = 128; let mut operations_by_buffer_id = HashMap::default(); async fn flush_operations( this: &WeakModel, operations_by_buffer_id: &mut HashMap>, needs_resync_with_host: &mut bool, is_local: bool, cx: &mut AsyncAppContext, ) -> Result<()> { for (buffer_id, operations) in operations_by_buffer_id.drain() { let request = this.update(cx, |this, _| { let project_id = this.remote_id()?; Some(this.client.request(proto::UpdateBuffer { buffer_id: buffer_id.into(), project_id, operations, })) })?; if let Some(request) = request { if request.await.is_err() && !is_local { *needs_resync_with_host = true; break; } } } Ok(()) } let mut needs_resync_with_host = false; let mut changes = rx.ready_chunks(MAX_BATCH_SIZE); while let Some(changes) = changes.next().await { let is_local = this.update(&mut cx, |this, _| this.is_local())?; for change in changes { match change { BufferOrderedMessage::Operation { buffer_id, operation, } => { if needs_resync_with_host { continue; } operations_by_buffer_id .entry(buffer_id) .or_insert(Vec::new()) .push(operation); } BufferOrderedMessage::Resync => { operations_by_buffer_id.clear(); if this .update(&mut cx, |this, cx| this.synchronize_remote_buffers(cx))? .await .is_ok() { needs_resync_with_host = false; } } BufferOrderedMessage::LanguageServerUpdate { language_server_id, message, } => { flush_operations( &this, &mut operations_by_buffer_id, &mut needs_resync_with_host, is_local, &mut cx, ) .await?; this.update(&mut cx, |this, _| { if let Some(project_id) = this.remote_id() { this.client .send(proto::UpdateLanguageServer { project_id, language_server_id: language_server_id.0 as u64, variant: Some(message), }) .log_err(); } })?; } } } flush_operations( &this, &mut operations_by_buffer_id, &mut needs_resync_with_host, is_local, &mut cx, ) .await?; } Ok(()) } fn on_buffer_store_event( &mut self, _: Model, event: &BufferStoreEvent, cx: &mut ModelContext, ) { match event { BufferStoreEvent::BufferAdded(buffer) => { self.register_buffer(buffer, cx).log_err(); } BufferStoreEvent::BufferChangedFilePath { .. } => {} BufferStoreEvent::BufferDropped(buffer_id) => { if let Some(ref ssh_client) = self.ssh_client { ssh_client .read(cx) .proto_client() .send(proto::CloseBuffer { project_id: 0, buffer_id: buffer_id.to_proto(), }) .log_err(); } } } } fn on_image_store_event( &mut self, _: Model, event: &ImageStoreEvent, cx: &mut ModelContext, ) { match event { ImageStoreEvent::ImageAdded(image) => { cx.subscribe(image, |this, image, event, cx| { this.on_image_event(image, event, cx); }) .detach(); } } } fn on_lsp_store_event( &mut self, _: Model, event: &LspStoreEvent, cx: &mut ModelContext, ) { match event { LspStoreEvent::DiagnosticsUpdated { language_server_id, path, } => cx.emit(Event::DiagnosticsUpdated { path: path.clone(), language_server_id: *language_server_id, }), LspStoreEvent::LanguageServerAdded(language_server_id, name, worktree_id) => cx.emit( Event::LanguageServerAdded(*language_server_id, name.clone(), *worktree_id), ), LspStoreEvent::LanguageServerRemoved(language_server_id) => { cx.emit(Event::LanguageServerRemoved(*language_server_id)) } LspStoreEvent::LanguageServerLog(server_id, log_type, string) => cx.emit( Event::LanguageServerLog(*server_id, log_type.clone(), string.clone()), ), LspStoreEvent::LanguageDetected { buffer, new_language, } => { let Some(_) = new_language else { cx.emit(Event::LanguageNotFound(buffer.clone())); return; }; } LspStoreEvent::RefreshInlayHints => cx.emit(Event::RefreshInlayHints), LspStoreEvent::LanguageServerPrompt(prompt) => { cx.emit(Event::LanguageServerPrompt(prompt.clone())) } LspStoreEvent::DiskBasedDiagnosticsStarted { language_server_id } => { cx.emit(Event::DiskBasedDiagnosticsStarted { language_server_id: *language_server_id, }); } LspStoreEvent::DiskBasedDiagnosticsFinished { language_server_id } => { cx.emit(Event::DiskBasedDiagnosticsFinished { language_server_id: *language_server_id, }); } LspStoreEvent::LanguageServerUpdate { language_server_id, message, } => { if self.is_local() { self.enqueue_buffer_ordered_message( BufferOrderedMessage::LanguageServerUpdate { language_server_id: *language_server_id, message: message.clone(), }, ) .ok(); } } LspStoreEvent::Notification(message) => cx.emit(Event::Toast { notification_id: "lsp".into(), message: message.clone(), }), LspStoreEvent::SnippetEdit { buffer_id, edits, most_recent_edit, } => { if most_recent_edit.replica_id == self.replica_id() { cx.emit(Event::SnippetEdit(*buffer_id, edits.clone())) } } } } fn on_ssh_event( &mut self, _: Model, event: &remote::SshRemoteEvent, cx: &mut ModelContext, ) { match event { remote::SshRemoteEvent::Disconnected => { // if self.is_via_ssh() { // self.collaborators.clear(); self.worktree_store.update(cx, |store, cx| { store.disconnected_from_host(cx); }); self.buffer_store.update(cx, |buffer_store, cx| { buffer_store.disconnected_from_host(cx) }); self.lsp_store.update(cx, |lsp_store, _cx| { lsp_store.disconnected_from_ssh_remote() }); cx.emit(Event::DisconnectedFromSshRemote); } } } fn on_settings_observer_event( &mut self, _: Model, event: &SettingsObserverEvent, cx: &mut ModelContext, ) { match event { SettingsObserverEvent::LocalSettingsUpdated(result) => match result { Err(InvalidSettingsError::LocalSettings { message, path }) => { let message = format!("Failed to set local settings in {:?}:\n{}", path, message); cx.emit(Event::Toast { notification_id: "local-settings".into(), message, }); } Ok(_) => cx.emit(Event::HideToast { notification_id: "local-settings".into(), }), Err(_) => {} }, } } fn on_worktree_store_event( &mut self, _: Model, event: &WorktreeStoreEvent, cx: &mut ModelContext, ) { match event { WorktreeStoreEvent::WorktreeAdded(worktree) => { self.on_worktree_added(worktree, cx); cx.emit(Event::WorktreeAdded); } WorktreeStoreEvent::WorktreeRemoved(_, id) => { cx.emit(Event::WorktreeRemoved(*id)); } WorktreeStoreEvent::WorktreeReleased(_, id) => { self.on_worktree_released(*id, cx); } WorktreeStoreEvent::WorktreeOrderChanged => cx.emit(Event::WorktreeOrderChanged), WorktreeStoreEvent::WorktreeUpdateSent(_) => {} } } fn on_worktree_added(&mut self, worktree: &Model, cx: &mut ModelContext) { { let mut remotely_created_models = self.remotely_created_models.lock(); if remotely_created_models.retain_count > 0 { remotely_created_models.worktrees.push(worktree.clone()) } } cx.observe(worktree, |_, _, cx| cx.notify()).detach(); cx.subscribe(worktree, |project, worktree, event, cx| match event { worktree::Event::UpdatedEntries(changes) => { cx.emit(Event::WorktreeUpdatedEntries( worktree.read(cx).id(), changes.clone(), )); let worktree_id = worktree.update(cx, |worktree, _| worktree.id()); project .client() .telemetry() .report_discovered_project_events(worktree_id, changes); } worktree::Event::UpdatedGitRepositories(_) => { cx.emit(Event::WorktreeUpdatedGitRepositories); } worktree::Event::DeletedEntry(id) => cx.emit(Event::DeletedEntry(*id)), }) .detach(); cx.notify(); } fn on_worktree_released(&mut self, id_to_remove: WorktreeId, cx: &mut ModelContext) { if let Some(ssh) = &self.ssh_client { ssh.read(cx) .proto_client() .send(proto::RemoveWorktree { worktree_id: id_to_remove.to_proto(), }) .log_err(); } cx.notify(); } fn on_buffer_event( &mut self, buffer: Model, event: &BufferEvent, cx: &mut ModelContext, ) -> Option<()> { if matches!( event, BufferEvent::Edited { .. } | BufferEvent::Reloaded | BufferEvent::DiffBaseChanged ) { self.request_buffer_diff_recalculation(&buffer, cx); } let buffer_id = buffer.read(cx).remote_id(); match event { BufferEvent::ReloadNeeded => { if !self.is_via_collab() { self.reload_buffers([buffer.clone()].into_iter().collect(), true, cx) .detach_and_log_err(cx); } } BufferEvent::Operation { operation, is_local: true, } => { let operation = language::proto::serialize_operation(operation); if let Some(ssh) = &self.ssh_client { ssh.read(cx) .proto_client() .send(proto::UpdateBuffer { project_id: 0, buffer_id: buffer_id.to_proto(), operations: vec![operation.clone()], }) .ok(); } self.enqueue_buffer_ordered_message(BufferOrderedMessage::Operation { buffer_id, operation, }) .ok(); } _ => {} } None } fn on_image_event( &mut self, image: Model, event: &ImageItemEvent, cx: &mut ModelContext, ) -> Option<()> { match event { ImageItemEvent::ReloadNeeded => { if !self.is_via_collab() { self.reload_images([image.clone()].into_iter().collect(), cx) .detach_and_log_err(cx); } } _ => {} } None } fn request_buffer_diff_recalculation( &mut self, buffer: &Model, cx: &mut ModelContext, ) { self.buffers_needing_diff.insert(buffer.downgrade()); let first_insertion = self.buffers_needing_diff.len() == 1; let settings = ProjectSettings::get_global(cx); let delay = if let Some(delay) = settings.git.gutter_debounce { delay } else { if first_insertion { let this = cx.weak_model(); cx.defer(move |cx| { if let Some(this) = this.upgrade() { this.update(cx, |this, cx| { this.recalculate_buffer_diffs(cx).detach(); }); } }); } return; }; const MIN_DELAY: u64 = 50; let delay = delay.max(MIN_DELAY); let duration = Duration::from_millis(delay); self.git_diff_debouncer .fire_new(duration, cx, move |this, cx| { this.recalculate_buffer_diffs(cx) }); } fn recalculate_buffer_diffs(&mut self, cx: &mut ModelContext) -> Task<()> { let buffers = self.buffers_needing_diff.drain().collect::>(); cx.spawn(move |this, mut cx| async move { let tasks: Vec<_> = buffers .iter() .filter_map(|buffer| { let buffer = buffer.upgrade()?; buffer .update(&mut cx, |buffer, cx| buffer.recalculate_diff(cx)) .ok() .flatten() }) .collect(); futures::future::join_all(tasks).await; this.update(&mut cx, |this, cx| { if this.buffers_needing_diff.is_empty() { // TODO: Would a `ModelContext.notify()` suffice here? for buffer in buffers { if let Some(buffer) = buffer.upgrade() { buffer.update(cx, |_, cx| cx.notify()); } } } else { this.recalculate_buffer_diffs(cx).detach(); } }) .ok(); }) } pub fn set_language_for_buffer( &mut self, buffer: &Model, new_language: Arc, cx: &mut ModelContext, ) { self.lsp_store.update(cx, |lsp_store, cx| { lsp_store.set_language_for_buffer(buffer, new_language, cx) }) } pub fn restart_language_servers_for_buffers( &mut self, buffers: impl IntoIterator>, cx: &mut ModelContext, ) { self.lsp_store.update(cx, |lsp_store, cx| { lsp_store.restart_language_servers_for_buffers(buffers, cx) }) } pub fn cancel_language_server_work_for_buffers( &mut self, buffers: impl IntoIterator>, cx: &mut ModelContext, ) { self.lsp_store.update(cx, |lsp_store, cx| { lsp_store.cancel_language_server_work_for_buffers(buffers, cx) }) } pub fn cancel_language_server_work( &mut self, server_id: LanguageServerId, token_to_cancel: Option, cx: &mut ModelContext, ) { self.lsp_store.update(cx, |lsp_store, cx| { lsp_store.cancel_language_server_work(server_id, token_to_cancel, cx) }) } fn enqueue_buffer_ordered_message(&mut self, message: BufferOrderedMessage) -> Result<()> { self.buffer_ordered_messages_tx .unbounded_send(message) .map_err(|e| anyhow!(e)) } pub fn available_toolchains( &self, worktree_id: WorktreeId, language_name: LanguageName, cx: &AppContext, ) -> Task> { if let Some(toolchain_store) = self.toolchain_store.clone() { cx.spawn(|cx| async move { cx.update(|cx| { toolchain_store .read(cx) .list_toolchains(worktree_id, language_name, cx) }) .unwrap_or(Task::Ready(None)) .await }) } else { Task::ready(None) } } pub async fn toolchain_term( languages: Arc, language_name: LanguageName, ) -> Option { languages .language_for_name(&language_name.0) .await .ok()? .toolchain_lister() .map(|lister| lister.term()) } pub fn activate_toolchain( &self, worktree_id: WorktreeId, toolchain: Toolchain, cx: &mut AppContext, ) -> Task> { let Some(toolchain_store) = self.toolchain_store.clone() else { return Task::ready(None); }; toolchain_store.update(cx, |this, cx| { this.activate_toolchain(worktree_id, toolchain, cx) }) } pub fn active_toolchain( &self, worktree_id: WorktreeId, language_name: LanguageName, cx: &AppContext, ) -> Task> { let Some(toolchain_store) = self.toolchain_store.clone() else { return Task::ready(None); }; toolchain_store .read(cx) .active_toolchain(worktree_id, language_name, cx) } pub fn language_server_statuses<'a>( &'a self, cx: &'a AppContext, ) -> impl DoubleEndedIterator { self.lsp_store.read(cx).language_server_statuses() } pub fn last_formatting_failure<'a>(&self, cx: &'a AppContext) -> Option<&'a str> { self.lsp_store.read(cx).last_formatting_failure() } pub fn reset_last_formatting_failure(&self, cx: &mut AppContext) { self.lsp_store .update(cx, |store, _| store.reset_last_formatting_failure()); } pub fn update_diagnostics( &mut self, language_server_id: LanguageServerId, params: lsp::PublishDiagnosticsParams, disk_based_sources: &[String], cx: &mut ModelContext, ) -> Result<()> { self.lsp_store.update(cx, |lsp_store, cx| { lsp_store.update_diagnostics(language_server_id, params, disk_based_sources, cx) }) } pub fn update_diagnostic_entries( &mut self, server_id: LanguageServerId, abs_path: PathBuf, version: Option, diagnostics: Vec>>, cx: &mut ModelContext, ) -> Result<(), anyhow::Error> { self.lsp_store.update(cx, |lsp_store, cx| { lsp_store.update_diagnostic_entries(server_id, abs_path, version, diagnostics, cx) }) } pub fn reload_buffers( &self, buffers: HashSet>, push_to_history: bool, cx: &mut ModelContext, ) -> Task> { self.buffer_store.update(cx, |buffer_store, cx| { buffer_store.reload_buffers(buffers, push_to_history, cx) }) } pub fn reload_images( &self, images: HashSet>, cx: &mut ModelContext, ) -> Task> { self.image_store .update(cx, |image_store, cx| image_store.reload_images(images, cx)) } pub fn format( &mut self, buffers: HashSet>, push_to_history: bool, trigger: lsp_store::FormatTrigger, target: lsp_store::FormatTarget, cx: &mut ModelContext, ) -> Task> { self.lsp_store.update(cx, |lsp_store, cx| { lsp_store.format(buffers, push_to_history, trigger, target, cx) }) } #[inline(never)] fn definition_impl( &mut self, buffer: &Model, position: PointUtf16, cx: &mut ModelContext, ) -> Task>> { self.request_lsp( buffer.clone(), LanguageServerToQuery::Primary, GetDefinition { position }, cx, ) } pub fn definition( &mut self, buffer: &Model, position: T, cx: &mut ModelContext, ) -> Task>> { let position = position.to_point_utf16(buffer.read(cx)); self.definition_impl(buffer, position, cx) } fn declaration_impl( &mut self, buffer: &Model, position: PointUtf16, cx: &mut ModelContext, ) -> Task>> { self.request_lsp( buffer.clone(), LanguageServerToQuery::Primary, GetDeclaration { position }, cx, ) } pub fn declaration( &mut self, buffer: &Model, position: T, cx: &mut ModelContext, ) -> Task>> { let position = position.to_point_utf16(buffer.read(cx)); self.declaration_impl(buffer, position, cx) } fn type_definition_impl( &mut self, buffer: &Model, position: PointUtf16, cx: &mut ModelContext, ) -> Task>> { self.request_lsp( buffer.clone(), LanguageServerToQuery::Primary, GetTypeDefinition { position }, cx, ) } pub fn type_definition( &mut self, buffer: &Model, position: T, cx: &mut ModelContext, ) -> Task>> { let position = position.to_point_utf16(buffer.read(cx)); self.type_definition_impl(buffer, position, cx) } pub fn implementation( &mut self, buffer: &Model, position: T, cx: &mut ModelContext, ) -> Task>> { let position = position.to_point_utf16(buffer.read(cx)); self.request_lsp( buffer.clone(), LanguageServerToQuery::Primary, GetImplementation { position }, cx, ) } pub fn references( &mut self, buffer: &Model, position: T, cx: &mut ModelContext, ) -> Task>> { let position = position.to_point_utf16(buffer.read(cx)); self.request_lsp( buffer.clone(), LanguageServerToQuery::Primary, GetReferences { position }, cx, ) } fn document_highlights_impl( &mut self, buffer: &Model, position: PointUtf16, cx: &mut ModelContext, ) -> Task>> { self.request_lsp( buffer.clone(), LanguageServerToQuery::Primary, GetDocumentHighlights { position }, cx, ) } pub fn document_highlights( &mut self, buffer: &Model, position: T, cx: &mut ModelContext, ) -> Task>> { let position = position.to_point_utf16(buffer.read(cx)); self.document_highlights_impl(buffer, position, cx) } pub fn symbols(&self, query: &str, cx: &mut ModelContext) -> Task>> { self.lsp_store .update(cx, |lsp_store, cx| lsp_store.symbols(query, cx)) } pub fn open_buffer_for_symbol( &mut self, symbol: &Symbol, cx: &mut ModelContext, ) -> Task>> { self.lsp_store.update(cx, |lsp_store, cx| { lsp_store.open_buffer_for_symbol(symbol, cx) }) } pub fn open_server_settings( &mut self, cx: &mut ModelContext, ) -> Task>> { let guard = self.retain_remotely_created_models(cx); let Some(ssh_client) = self.ssh_client.as_ref() else { return Task::ready(Err(anyhow!("not an ssh project"))); }; let proto_client = ssh_client.read(cx).proto_client(); cx.spawn(|this, mut cx| async move { let buffer = proto_client .request(proto::OpenServerSettings { project_id: SSH_PROJECT_ID, }) .await?; let buffer = this .update(&mut cx, |this, cx| { anyhow::Ok(this.wait_for_remote_buffer(BufferId::new(buffer.buffer_id)?, cx)) })?? .await; drop(guard); buffer }) } pub fn open_local_buffer_via_lsp( &mut self, abs_path: lsp::Url, language_server_id: LanguageServerId, language_server_name: LanguageServerName, cx: &mut ModelContext, ) -> Task>> { self.lsp_store.update(cx, |lsp_store, cx| { lsp_store.open_local_buffer_via_lsp( abs_path, language_server_id, language_server_name, cx, ) }) } pub fn signature_help( &self, buffer: &Model, position: T, cx: &mut ModelContext, ) -> Task> { self.lsp_store.update(cx, |lsp_store, cx| { lsp_store.signature_help(buffer, position, cx) }) } pub fn hover( &self, buffer: &Model, position: T, cx: &mut ModelContext, ) -> Task> { let position = position.to_point_utf16(buffer.read(cx)); self.lsp_store .update(cx, |lsp_store, cx| lsp_store.hover(buffer, position, cx)) } pub fn linked_edit( &self, buffer: &Model, position: Anchor, cx: &mut ModelContext, ) -> Task>>> { self.lsp_store.update(cx, |lsp_store, cx| { lsp_store.linked_edit(buffer, position, cx) }) } pub fn completions( &self, buffer: &Model, position: T, context: CompletionContext, cx: &mut ModelContext, ) -> Task>> { let position = position.to_point_utf16(buffer.read(cx)); self.lsp_store.update(cx, |lsp_store, cx| { lsp_store.completions(buffer, position, context, cx) }) } pub fn resolve_completions( &self, buffer: Model, completion_indices: Vec, completions: Arc>>, cx: &mut ModelContext, ) -> Task> { self.lsp_store.update(cx, |lsp_store, cx| { lsp_store.resolve_completions(buffer, completion_indices, completions, cx) }) } pub fn apply_additional_edits_for_completion( &self, buffer_handle: Model, completion: Completion, push_to_history: bool, cx: &mut ModelContext, ) -> Task>> { self.lsp_store.update(cx, |lsp_store, cx| { lsp_store.apply_additional_edits_for_completion( buffer_handle, completion, push_to_history, cx, ) }) } pub fn code_actions( &mut self, buffer_handle: &Model, range: Range, kinds: Option>, cx: &mut ModelContext, ) -> Task>> { let buffer = buffer_handle.read(cx); let range = buffer.anchor_before(range.start)..buffer.anchor_before(range.end); self.lsp_store.update(cx, |lsp_store, cx| { lsp_store.code_actions(buffer_handle, range, kinds, cx) }) } pub fn apply_code_action( &self, buffer_handle: Model, action: CodeAction, push_to_history: bool, cx: &mut ModelContext, ) -> Task> { self.lsp_store.update(cx, |lsp_store, cx| { lsp_store.apply_code_action(buffer_handle, action, push_to_history, cx) }) } fn prepare_rename_impl( &mut self, buffer: Model, position: PointUtf16, cx: &mut ModelContext, ) -> Task>>> { self.request_lsp( buffer, LanguageServerToQuery::Primary, PrepareRename { position }, cx, ) } pub fn prepare_rename( &mut self, buffer: Model, position: T, cx: &mut ModelContext, ) -> Task>>> { let position = position.to_point_utf16(buffer.read(cx)); self.prepare_rename_impl(buffer, position, cx) } fn perform_rename_impl( &mut self, buffer: Model, position: PointUtf16, new_name: String, push_to_history: bool, cx: &mut ModelContext, ) -> Task> { let position = position.to_point_utf16(buffer.read(cx)); self.request_lsp( buffer, LanguageServerToQuery::Primary, PerformRename { position, new_name, push_to_history, }, cx, ) } pub fn perform_rename( &mut self, buffer: Model, position: T, new_name: String, cx: &mut ModelContext, ) -> Task> { let position = position.to_point_utf16(buffer.read(cx)); self.perform_rename_impl(buffer, position, new_name, true, cx) } pub fn on_type_format( &mut self, buffer: Model, position: T, trigger: String, push_to_history: bool, cx: &mut ModelContext, ) -> Task>> { self.lsp_store.update(cx, |lsp_store, cx| { lsp_store.on_type_format(buffer, position, trigger, push_to_history, cx) }) } pub fn inlay_hints( &mut self, buffer_handle: Model, range: Range, cx: &mut ModelContext, ) -> Task>> { let buffer = buffer_handle.read(cx); let range = buffer.anchor_before(range.start)..buffer.anchor_before(range.end); self.lsp_store.update(cx, |lsp_store, cx| { lsp_store.inlay_hints(buffer_handle, range, cx) }) } pub fn resolve_inlay_hint( &self, hint: InlayHint, buffer_handle: Model, server_id: LanguageServerId, cx: &mut ModelContext, ) -> Task> { self.lsp_store.update(cx, |lsp_store, cx| { lsp_store.resolve_inlay_hint(hint, buffer_handle, server_id, cx) }) } pub fn search( &mut self, query: SearchQuery, cx: &mut ModelContext, ) -> Receiver { let (result_tx, result_rx) = smol::channel::unbounded(); let matching_buffers_rx = if query.is_opened_only() { self.sort_search_candidates(&query, cx) } else { self.find_search_candidate_buffers(&query, MAX_SEARCH_RESULT_FILES + 1, cx) }; cx.spawn(|_, cx| async move { let mut range_count = 0; let mut buffer_count = 0; let mut limit_reached = false; let query = Arc::new(query); let mut chunks = matching_buffers_rx.ready_chunks(64); // Now that we know what paths match the query, we will load at most // 64 buffers at a time to avoid overwhelming the main thread. For each // opened buffer, we will spawn a background task that retrieves all the // ranges in the buffer matched by the query. 'outer: while let Some(matching_buffer_chunk) = chunks.next().await { let mut chunk_results = Vec::new(); for buffer in matching_buffer_chunk { let buffer = buffer.clone(); let query = query.clone(); let snapshot = buffer.read_with(&cx, |buffer, _| buffer.snapshot())?; chunk_results.push(cx.background_executor().spawn(async move { let ranges = query .search(&snapshot, None) .await .iter() .map(|range| { snapshot.anchor_before(range.start) ..snapshot.anchor_after(range.end) }) .collect::>(); anyhow::Ok((buffer, ranges)) })); } let chunk_results = futures::future::join_all(chunk_results).await; for result in chunk_results { if let Some((buffer, ranges)) = result.log_err() { range_count += ranges.len(); buffer_count += 1; result_tx .send(SearchResult::Buffer { buffer, ranges }) .await?; if buffer_count > MAX_SEARCH_RESULT_FILES || range_count > MAX_SEARCH_RESULT_RANGES { limit_reached = true; break 'outer; } } } } if limit_reached { result_tx.send(SearchResult::LimitReached).await?; } anyhow::Ok(()) }) .detach(); result_rx } fn find_search_candidate_buffers( &mut self, query: &SearchQuery, limit: usize, cx: &mut ModelContext, ) -> Receiver> { if self.is_local() { let fs = self.fs.clone(); self.buffer_store.update(cx, |buffer_store, cx| { buffer_store.find_search_candidates(query, limit, fs, cx) }) } else { self.find_search_candidates_remote(query, limit, cx) } } fn sort_search_candidates( &mut self, search_query: &SearchQuery, cx: &mut ModelContext, ) -> Receiver> { let worktree_store = self.worktree_store.read(cx); let mut buffers = search_query .buffers() .into_iter() .flatten() .filter(|buffer| { let b = buffer.read(cx); if let Some(file) = b.file() { if !search_query.file_matches(file.path()) { return false; } if let Some(entry) = b .entry_id(cx) .and_then(|entry_id| worktree_store.entry_for_id(entry_id, cx)) { if entry.is_ignored && !search_query.include_ignored() { return false; } } } true }) .collect::>(); let (tx, rx) = smol::channel::unbounded(); buffers.sort_by(|a, b| match (a.read(cx).file(), b.read(cx).file()) { (None, None) => a.read(cx).remote_id().cmp(&b.read(cx).remote_id()), (None, Some(_)) => std::cmp::Ordering::Less, (Some(_), None) => std::cmp::Ordering::Greater, (Some(a), Some(b)) => compare_paths((a.path(), true), (b.path(), true)), }); for buffer in buffers { tx.send_blocking(buffer.clone()).unwrap() } rx } fn find_search_candidates_remote( &mut self, query: &SearchQuery, limit: usize, cx: &mut ModelContext, ) -> Receiver> { let (tx, rx) = smol::channel::unbounded(); let (client, remote_id): (AnyProtoClient, _) = if let Some(ssh_client) = &self.ssh_client { (ssh_client.read(cx).proto_client(), 0) } else if let Some(remote_id) = self.remote_id() { (self.client.clone().into(), remote_id) } else { return rx; }; let request = client.request(proto::FindSearchCandidates { project_id: remote_id, query: Some(query.to_proto()), limit: limit as _, }); let guard = self.retain_remotely_created_models(cx); cx.spawn(move |this, mut cx| async move { let response = request.await?; for buffer_id in response.buffer_ids { let buffer_id = BufferId::new(buffer_id)?; let buffer = this .update(&mut cx, |this, cx| { this.wait_for_remote_buffer(buffer_id, cx) })? .await?; let _ = tx.send(buffer).await; } drop(guard); anyhow::Ok(()) }) .detach_and_log_err(cx); rx } pub fn request_lsp( &mut self, buffer_handle: Model, server: LanguageServerToQuery, request: R, cx: &mut ModelContext, ) -> Task> where ::Result: Send, ::Params: Send, { let guard = self.retain_remotely_created_models(cx); let task = self.lsp_store.update(cx, |lsp_store, cx| { lsp_store.request_lsp(buffer_handle, server, request, cx) }); cx.spawn(|_, _| async move { let result = task.await; drop(guard); result }) } /// Move a worktree to a new position in the worktree order. /// /// The worktree will moved to the opposite side of the destination worktree. /// /// # Example /// /// Given the worktree order `[11, 22, 33]` and a call to move worktree `22` to `33`, /// worktree_order will be updated to produce the indexes `[11, 33, 22]`. /// /// Given the worktree order `[11, 22, 33]` and a call to move worktree `22` to `11`, /// worktree_order will be updated to produce the indexes `[22, 11, 33]`. /// /// # Errors /// /// An error will be returned if the worktree or destination worktree are not found. pub fn move_worktree( &mut self, source: WorktreeId, destination: WorktreeId, cx: &mut ModelContext<'_, Self>, ) -> Result<()> { self.worktree_store.update(cx, |worktree_store, cx| { worktree_store.move_worktree(source, destination, cx) }) } pub fn find_or_create_worktree( &mut self, abs_path: impl AsRef, visible: bool, cx: &mut ModelContext, ) -> Task, PathBuf)>> { self.worktree_store.update(cx, |worktree_store, cx| { worktree_store.find_or_create_worktree(abs_path, visible, cx) }) } pub fn find_worktree( &self, abs_path: &Path, cx: &AppContext, ) -> Option<(Model, PathBuf)> { self.worktree_store.read_with(cx, |worktree_store, cx| { worktree_store.find_worktree(abs_path, cx) }) } pub fn is_shared(&self) -> bool { match &self.client_state { ProjectClientState::Shared { .. } => true, ProjectClientState::Local => false, ProjectClientState::Remote { .. } => true, } } /// Returns the resolved version of `path`, that was found in `buffer`, if it exists. pub fn resolve_path_in_buffer( &self, path: &str, buffer: &Model, cx: &mut ModelContext, ) -> Task> { let path_buf = PathBuf::from(path); if path_buf.is_absolute() || path.starts_with("~") { self.resolve_abs_path(path, cx) } else { self.resolve_path_in_worktrees(path_buf, buffer, cx) } } pub fn resolve_abs_file_path( &self, path: &str, cx: &mut ModelContext, ) -> Task> { let resolve_task = self.resolve_abs_path(path, cx); cx.background_executor().spawn(async move { let resolved_path = resolve_task.await; resolved_path.filter(|path| path.is_file()) }) } pub fn resolve_abs_path( &self, path: &str, cx: &mut ModelContext, ) -> Task> { if self.is_local() { let expanded = PathBuf::from(shellexpand::tilde(&path).into_owned()); let fs = self.fs.clone(); cx.background_executor().spawn(async move { let path = expanded.as_path(); let metadata = fs.metadata(path).await.ok().flatten(); metadata.map(|metadata| ResolvedPath::AbsPath { path: expanded, is_dir: metadata.is_dir, }) }) } else if let Some(ssh_client) = self.ssh_client.as_ref() { let request = ssh_client .read(cx) .proto_client() .request(proto::GetPathMetadata { project_id: SSH_PROJECT_ID, path: path.to_string(), }); cx.background_executor().spawn(async move { let response = request.await.log_err()?; if response.exists { Some(ResolvedPath::AbsPath { path: PathBuf::from(response.path), is_dir: response.is_dir, }) } else { None } }) } else { return Task::ready(None); } } fn resolve_path_in_worktrees( &self, path: PathBuf, buffer: &Model, cx: &mut ModelContext, ) -> Task> { let mut candidates = vec![path.clone()]; if let Some(file) = buffer.read(cx).file() { if let Some(dir) = file.path().parent() { let joined = dir.to_path_buf().join(path); candidates.push(joined); } } let worktrees = self.worktrees(cx).collect::>(); cx.spawn(|_, mut cx| async move { for worktree in worktrees { for candidate in candidates.iter() { let path = worktree .update(&mut cx, |worktree, _| { let root_entry_path = &worktree.root_entry()?.path; let resolved = resolve_path(root_entry_path, candidate); let stripped = resolved.strip_prefix(root_entry_path).unwrap_or(&resolved); worktree.entry_for_path(stripped).map(|entry| { let project_path = ProjectPath { worktree_id: worktree.id(), path: entry.path.clone(), }; ResolvedPath::ProjectPath { project_path, is_dir: entry.is_dir(), } }) }) .ok()?; if path.is_some() { return path; } } } None }) } pub fn list_directory( &self, query: String, cx: &mut ModelContext, ) -> Task>> { if self.is_local() { DirectoryLister::Local(self.fs.clone()).list_directory(query, cx) } else if let Some(session) = self.ssh_client.as_ref() { let request = proto::ListRemoteDirectory { dev_server_id: SSH_PROJECT_ID, path: query, }; let response = session.read(cx).proto_client().request(request); cx.background_executor().spawn(async move { let response = response.await?; Ok(response.entries.into_iter().map(PathBuf::from).collect()) }) } else { Task::ready(Err(anyhow!("cannot list directory in remote project"))) } } pub fn create_worktree( &mut self, abs_path: impl AsRef, visible: bool, cx: &mut ModelContext, ) -> Task>> { self.worktree_store.update(cx, |worktree_store, cx| { worktree_store.create_worktree(abs_path, visible, cx) }) } pub fn remove_worktree(&mut self, id_to_remove: WorktreeId, cx: &mut ModelContext) { self.worktree_store.update(cx, |worktree_store, cx| { worktree_store.remove_worktree(id_to_remove, cx); }); } fn add_worktree(&mut self, worktree: &Model, cx: &mut ModelContext) { self.worktree_store.update(cx, |worktree_store, cx| { worktree_store.add(worktree, cx); }); } pub fn set_active_path(&mut self, entry: Option, cx: &mut ModelContext) { let new_active_entry = entry.and_then(|project_path| { let worktree = self.worktree_for_id(project_path.worktree_id, cx)?; let entry = worktree.read(cx).entry_for_path(project_path.path)?; Some(entry.id) }); if new_active_entry != self.active_entry { self.active_entry = new_active_entry; self.lsp_store.update(cx, |lsp_store, _| { lsp_store.set_active_entry(new_active_entry); }); cx.emit(Event::ActiveEntryChanged(new_active_entry)); } } pub fn language_servers_running_disk_based_diagnostics<'a>( &'a self, cx: &'a AppContext, ) -> impl Iterator + 'a { self.lsp_store .read(cx) .language_servers_running_disk_based_diagnostics() } pub fn diagnostic_summary(&self, include_ignored: bool, cx: &AppContext) -> DiagnosticSummary { let mut summary = DiagnosticSummary::default(); for (_, _, path_summary) in self.diagnostic_summaries(include_ignored, cx) { summary.error_count += path_summary.error_count; summary.warning_count += path_summary.warning_count; } summary } pub fn diagnostic_summaries<'a>( &'a self, include_ignored: bool, cx: &'a AppContext, ) -> impl Iterator + 'a { self.lsp_store .read(cx) .diagnostic_summaries(include_ignored, cx) } pub fn active_entry(&self) -> Option { self.active_entry } pub fn entry_for_path(&self, path: &ProjectPath, cx: &AppContext) -> Option { self.worktree_store.read(cx).entry_for_path(path, cx) } pub fn path_for_entry(&self, entry_id: ProjectEntryId, cx: &AppContext) -> Option { let worktree = self.worktree_for_entry(entry_id, cx)?; let worktree = worktree.read(cx); let worktree_id = worktree.id(); let path = worktree.entry_for_id(entry_id)?.path.clone(); Some(ProjectPath { worktree_id, path }) } pub fn absolute_path(&self, project_path: &ProjectPath, cx: &AppContext) -> Option { self.worktree_for_id(project_path.worktree_id, cx)? .read(cx) .absolutize(&project_path.path) .ok() } /// Attempts to find a `ProjectPath` corresponding to the given path. If the path /// is a *full path*, meaning it starts with the root name of a worktree, we'll locate /// it in that worktree. Otherwise, we'll attempt to find it as a relative path in /// the first visible worktree that has an entry for that relative path. /// /// We use this to resolve edit steps, when there's a chance an LLM may omit the workree /// root name from paths. /// /// # Arguments /// /// * `path` - A full path that starts with a worktree root name, or alternatively a /// relative path within a visible worktree. /// * `cx` - A reference to the `AppContext`. /// /// # Returns /// /// Returns `Some(ProjectPath)` if a matching worktree is found, otherwise `None`. pub fn find_project_path(&self, path: &Path, cx: &AppContext) -> Option { let worktree_store = self.worktree_store.read(cx); for worktree in worktree_store.visible_worktrees(cx) { let worktree_root_name = worktree.read(cx).root_name(); if let Ok(relative_path) = path.strip_prefix(worktree_root_name) { return Some(ProjectPath { worktree_id: worktree.read(cx).id(), path: relative_path.into(), }); } } for worktree in worktree_store.visible_worktrees(cx) { let worktree = worktree.read(cx); if let Some(entry) = worktree.entry_for_path(path) { return Some(ProjectPath { worktree_id: worktree.id(), path: entry.path.clone(), }); } } None } pub fn get_workspace_root( &self, project_path: &ProjectPath, cx: &AppContext, ) -> Option { Some( self.worktree_for_id(project_path.worktree_id, cx)? .read(cx) .abs_path() .to_path_buf(), ) } pub fn get_repo( &self, project_path: &ProjectPath, cx: &AppContext, ) -> Option> { self.worktree_for_id(project_path.worktree_id, cx)? .read(cx) .as_local()? .local_git_repo(&project_path.path) } pub fn get_first_worktree_root_repo(&self, cx: &AppContext) -> Option> { let worktree = self.visible_worktrees(cx).next()?.read(cx).as_local()?; let root_entry = worktree.root_git_entry()?; worktree.get_local_repo(&root_entry)?.repo().clone().into() } pub fn branches( &self, project_path: ProjectPath, cx: &AppContext, ) -> Task>> { self.worktree_store().read(cx).branches(project_path, cx) } pub fn update_or_create_branch( &self, repository: ProjectPath, new_branch: String, cx: &AppContext, ) -> Task> { self.worktree_store() .read(cx) .update_or_create_branch(repository, new_branch, cx) } pub fn blame_buffer( &self, buffer: &Model, version: Option, cx: &AppContext, ) -> Task>> { self.buffer_store.read(cx).blame_buffer(buffer, version, cx) } pub fn get_permalink_to_line( &self, buffer: &Model, selection: Range, cx: &AppContext, ) -> Task> { self.buffer_store .read(cx) .get_permalink_to_line(buffer, selection, cx) } // RPC message handlers async fn handle_unshare_project( this: Model, _: TypedEnvelope, mut cx: AsyncAppContext, ) -> Result<()> { this.update(&mut cx, |this, cx| { if this.is_local() || this.is_via_ssh() { this.unshare(cx)?; } else { this.disconnected_from_host(cx); } Ok(()) })? } async fn handle_add_collaborator( this: Model, mut envelope: TypedEnvelope, mut cx: AsyncAppContext, ) -> Result<()> { let collaborator = envelope .payload .collaborator .take() .ok_or_else(|| anyhow!("empty collaborator"))?; let collaborator = Collaborator::from_proto(collaborator)?; this.update(&mut cx, |this, cx| { this.buffer_store.update(cx, |buffer_store, _| { buffer_store.forget_shared_buffers_for(&collaborator.peer_id); }); cx.emit(Event::CollaboratorJoined(collaborator.peer_id)); this.collaborators .insert(collaborator.peer_id, collaborator); cx.notify(); })?; Ok(()) } async fn handle_update_project_collaborator( this: Model, envelope: TypedEnvelope, mut cx: AsyncAppContext, ) -> Result<()> { let old_peer_id = envelope .payload .old_peer_id .ok_or_else(|| anyhow!("missing old peer id"))?; let new_peer_id = envelope .payload .new_peer_id .ok_or_else(|| anyhow!("missing new peer id"))?; this.update(&mut cx, |this, cx| { let collaborator = this .collaborators .remove(&old_peer_id) .ok_or_else(|| anyhow!("received UpdateProjectCollaborator for unknown peer"))?; let is_host = collaborator.is_host; this.collaborators.insert(new_peer_id, collaborator); log::info!("peer {} became {}", old_peer_id, new_peer_id,); this.buffer_store.update(cx, |buffer_store, _| { buffer_store.update_peer_id(&old_peer_id, new_peer_id) }); if is_host { this.buffer_store .update(cx, |buffer_store, _| buffer_store.discard_incomplete()); this.enqueue_buffer_ordered_message(BufferOrderedMessage::Resync) .unwrap(); cx.emit(Event::HostReshared); } cx.emit(Event::CollaboratorUpdated { old_peer_id, new_peer_id, }); cx.notify(); Ok(()) })? } async fn handle_remove_collaborator( this: Model, envelope: TypedEnvelope, mut cx: AsyncAppContext, ) -> Result<()> { this.update(&mut cx, |this, cx| { let peer_id = envelope .payload .peer_id .ok_or_else(|| anyhow!("invalid peer id"))?; let replica_id = this .collaborators .remove(&peer_id) .ok_or_else(|| anyhow!("unknown peer {:?}", peer_id))? .replica_id; this.buffer_store.update(cx, |buffer_store, cx| { buffer_store.forget_shared_buffers_for(&peer_id); for buffer in buffer_store.buffers() { buffer.update(cx, |buffer, cx| buffer.remove_peer(replica_id, cx)); } }); cx.emit(Event::CollaboratorLeft(peer_id)); cx.notify(); Ok(()) })? } async fn handle_update_project( this: Model, envelope: TypedEnvelope, mut cx: AsyncAppContext, ) -> Result<()> { this.update(&mut cx, |this, cx| { // Don't handle messages that were sent before the response to us joining the project if envelope.message_id > this.join_project_response_message_id { this.set_worktrees_from_proto(envelope.payload.worktrees, cx)?; } Ok(()) })? } async fn handle_toast( this: Model, envelope: TypedEnvelope, mut cx: AsyncAppContext, ) -> Result<()> { this.update(&mut cx, |_, cx| { cx.emit(Event::Toast { notification_id: envelope.payload.notification_id.into(), message: envelope.payload.message, }); Ok(()) })? } async fn handle_language_server_prompt_request( this: Model, envelope: TypedEnvelope, mut cx: AsyncAppContext, ) -> Result { let (tx, mut rx) = smol::channel::bounded(1); let actions: Vec<_> = envelope .payload .actions .into_iter() .map(|action| MessageActionItem { title: action, properties: Default::default(), }) .collect(); this.update(&mut cx, |_, cx| { cx.emit(Event::LanguageServerPrompt(LanguageServerPromptRequest { level: proto_to_prompt(envelope.payload.level.context("Invalid prompt level")?), message: envelope.payload.message, actions: actions.clone(), lsp_name: envelope.payload.lsp_name, response_channel: tx, })); anyhow::Ok(()) })??; // We drop `this` to avoid holding a reference in this future for too // long. // If we keep the reference, we might not drop the `Project` early // enough when closing a window and it will only get releases on the // next `flush_effects()` call. drop(this); let answer = rx.next().await; Ok(LanguageServerPromptResponse { action_response: answer.and_then(|answer| { actions .iter() .position(|action| *action == answer) .map(|index| index as u64) }), }) } async fn handle_hide_toast( this: Model, envelope: TypedEnvelope, mut cx: AsyncAppContext, ) -> Result<()> { this.update(&mut cx, |_, cx| { cx.emit(Event::HideToast { notification_id: envelope.payload.notification_id.into(), }); Ok(()) })? } // Collab sends UpdateWorktree protos as messages async fn handle_update_worktree( this: Model, envelope: TypedEnvelope, mut cx: AsyncAppContext, ) -> Result<()> { this.update(&mut cx, |this, cx| { let worktree_id = WorktreeId::from_proto(envelope.payload.worktree_id); if let Some(worktree) = this.worktree_for_id(worktree_id, cx) { worktree.update(cx, |worktree, _| { let worktree = worktree.as_remote_mut().unwrap(); worktree.update_from_remote(envelope.payload); }); } Ok(()) })? } async fn handle_update_buffer_from_ssh( this: Model, envelope: TypedEnvelope, cx: AsyncAppContext, ) -> Result { let buffer_store = this.read_with(&cx, |this, cx| { if let Some(remote_id) = this.remote_id() { let mut payload = envelope.payload.clone(); payload.project_id = remote_id; cx.background_executor() .spawn(this.client.request(payload)) .detach_and_log_err(cx); } this.buffer_store.clone() })?; BufferStore::handle_update_buffer(buffer_store, envelope, cx).await } async fn handle_update_buffer( this: Model, envelope: TypedEnvelope, cx: AsyncAppContext, ) -> Result { let buffer_store = this.read_with(&cx, |this, cx| { if let Some(ssh) = &this.ssh_client { let mut payload = envelope.payload.clone(); payload.project_id = SSH_PROJECT_ID; cx.background_executor() .spawn(ssh.read(cx).proto_client().request(payload)) .detach_and_log_err(cx); } this.buffer_store.clone() })?; BufferStore::handle_update_buffer(buffer_store, envelope, cx).await } fn retain_remotely_created_models( &mut self, cx: &mut ModelContext, ) -> RemotelyCreatedModelGuard { { let mut remotely_create_models = self.remotely_created_models.lock(); if remotely_create_models.retain_count == 0 { remotely_create_models.buffers = self.buffer_store.read(cx).buffers().collect(); remotely_create_models.worktrees = self.worktree_store.read(cx).worktrees().collect(); } remotely_create_models.retain_count += 1; } RemotelyCreatedModelGuard { remote_models: Arc::downgrade(&self.remotely_created_models), } } async fn handle_create_buffer_for_peer( this: Model, envelope: TypedEnvelope, mut cx: AsyncAppContext, ) -> Result<()> { this.update(&mut cx, |this, cx| { this.buffer_store.update(cx, |buffer_store, cx| { buffer_store.handle_create_buffer_for_peer( envelope, this.replica_id(), this.capability(), cx, ) }) })? } async fn handle_synchronize_buffers( this: Model, envelope: TypedEnvelope, mut cx: AsyncAppContext, ) -> Result { let response = this.update(&mut cx, |this, cx| { let client = this.client.clone(); this.buffer_store.update(cx, |this, cx| { this.handle_synchronize_buffers(envelope, cx, client) }) })??; Ok(response) } async fn handle_search_candidate_buffers( this: Model, envelope: TypedEnvelope, mut cx: AsyncAppContext, ) -> Result { let peer_id = envelope.original_sender_id()?; let message = envelope.payload; let query = SearchQuery::from_proto( message .query .ok_or_else(|| anyhow!("missing query field"))?, )?; let mut results = this.update(&mut cx, |this, cx| { this.find_search_candidate_buffers(&query, message.limit as _, cx) })?; let mut response = proto::FindSearchCandidatesResponse { buffer_ids: Vec::new(), }; while let Some(buffer) = results.next().await { this.update(&mut cx, |this, cx| { let buffer_id = this.create_buffer_for_peer(&buffer, peer_id, cx); response.buffer_ids.push(buffer_id.to_proto()); })?; } Ok(response) } async fn handle_open_buffer_by_id( this: Model, envelope: TypedEnvelope, mut cx: AsyncAppContext, ) -> Result { let peer_id = envelope.original_sender_id()?; let buffer_id = BufferId::new(envelope.payload.id)?; let buffer = this .update(&mut cx, |this, cx| this.open_buffer_by_id(buffer_id, cx))? .await?; Project::respond_to_open_buffer_request(this, buffer, peer_id, &mut cx) } async fn handle_open_buffer_by_path( this: Model, envelope: TypedEnvelope, mut cx: AsyncAppContext, ) -> Result { let peer_id = envelope.original_sender_id()?; let worktree_id = WorktreeId::from_proto(envelope.payload.worktree_id); let open_buffer = this.update(&mut cx, |this, cx| { this.open_buffer( ProjectPath { worktree_id, path: PathBuf::from(envelope.payload.path).into(), }, cx, ) })?; let buffer = open_buffer.await?; Project::respond_to_open_buffer_request(this, buffer, peer_id, &mut cx) } async fn handle_open_new_buffer( this: Model, envelope: TypedEnvelope, mut cx: AsyncAppContext, ) -> Result { let buffer = this .update(&mut cx, |this, cx| this.create_buffer(cx))? .await?; let peer_id = envelope.original_sender_id()?; Project::respond_to_open_buffer_request(this, buffer, peer_id, &mut cx) } fn respond_to_open_buffer_request( this: Model, buffer: Model, peer_id: proto::PeerId, cx: &mut AsyncAppContext, ) -> Result { this.update(cx, |this, cx| { let is_private = buffer .read(cx) .file() .map(|f| f.is_private()) .unwrap_or_default(); if is_private { Err(anyhow!(ErrorCode::UnsharedItem)) } else { Ok(proto::OpenBufferResponse { buffer_id: this.create_buffer_for_peer(&buffer, peer_id, cx).into(), }) } })? } fn create_buffer_for_peer( &mut self, buffer: &Model, peer_id: proto::PeerId, cx: &mut AppContext, ) -> BufferId { self.buffer_store .update(cx, |buffer_store, cx| { buffer_store.create_buffer_for_peer(buffer, peer_id, cx) }) .detach_and_log_err(cx); buffer.read(cx).remote_id() } fn wait_for_remote_buffer( &mut self, id: BufferId, cx: &mut ModelContext, ) -> Task>> { self.buffer_store.update(cx, |buffer_store, cx| { buffer_store.wait_for_remote_buffer(id, cx) }) } fn synchronize_remote_buffers(&mut self, cx: &mut ModelContext) -> Task> { let project_id = match self.client_state { ProjectClientState::Remote { sharing_has_stopped, remote_id, .. } => { if sharing_has_stopped { return Task::ready(Err(anyhow!( "can't synchronize remote buffers on a readonly project" ))); } else { remote_id } } ProjectClientState::Shared { .. } | ProjectClientState::Local => { return Task::ready(Err(anyhow!( "can't synchronize remote buffers on a local project" ))) } }; let client = self.client.clone(); cx.spawn(move |this, mut cx| async move { let (buffers, incomplete_buffer_ids) = this.update(&mut cx, |this, cx| { this.buffer_store.read(cx).buffer_version_info(cx) })?; let response = client .request(proto::SynchronizeBuffers { project_id, buffers, }) .await?; let send_updates_for_buffers = this.update(&mut cx, |this, cx| { response .buffers .into_iter() .map(|buffer| { let client = client.clone(); let buffer_id = match BufferId::new(buffer.id) { Ok(id) => id, Err(e) => { return Task::ready(Err(e)); } }; let remote_version = language::proto::deserialize_version(&buffer.version); if let Some(buffer) = this.buffer_for_id(buffer_id, cx) { let operations = buffer.read(cx).serialize_ops(Some(remote_version), cx); cx.background_executor().spawn(async move { let operations = operations.await; for chunk in split_operations(operations) { client .request(proto::UpdateBuffer { project_id, buffer_id: buffer_id.into(), operations: chunk, }) .await?; } anyhow::Ok(()) }) } else { Task::ready(Ok(())) } }) .collect::>() })?; // Any incomplete buffers have open requests waiting. Request that the host sends // creates these buffers for us again to unblock any waiting futures. for id in incomplete_buffer_ids { cx.background_executor() .spawn(client.request(proto::OpenBufferById { project_id, id: id.into(), })) .detach(); } futures::future::join_all(send_updates_for_buffers) .await .into_iter() .collect() }) } pub fn worktree_metadata_protos(&self, cx: &AppContext) -> Vec { self.worktree_store.read(cx).worktree_metadata_protos(cx) } /// Iterator of all open buffers that have unsaved changes pub fn dirty_buffers<'a>( &'a self, cx: &'a AppContext, ) -> impl Iterator + 'a { self.buffer_store.read(cx).buffers().filter_map(|buf| { let buf = buf.read(cx); if buf.is_dirty() { buf.project_path(cx) } else { None } }) } fn set_worktrees_from_proto( &mut self, worktrees: Vec, cx: &mut ModelContext, ) -> Result<()> { cx.notify(); self.worktree_store.update(cx, |worktree_store, cx| { worktree_store.set_worktrees_from_proto(worktrees, self.replica_id(), cx) }) } fn set_collaborators_from_proto( &mut self, messages: Vec, cx: &mut ModelContext, ) -> Result<()> { let mut collaborators = HashMap::default(); for message in messages { let collaborator = Collaborator::from_proto(message)?; collaborators.insert(collaborator.peer_id, collaborator); } for old_peer_id in self.collaborators.keys() { if !collaborators.contains_key(old_peer_id) { cx.emit(Event::CollaboratorLeft(*old_peer_id)); } } self.collaborators = collaborators; Ok(()) } pub fn language_servers<'a>( &'a self, cx: &'a AppContext, ) -> impl 'a + Iterator { self.lsp_store.read(cx).language_servers() } pub fn supplementary_language_servers<'a>( &'a self, cx: &'a AppContext, ) -> impl 'a + Iterator { self.lsp_store.read(cx).supplementary_language_servers() } pub fn language_server_for_id( &self, id: LanguageServerId, cx: &AppContext, ) -> Option> { self.lsp_store.read(cx).language_server_for_id(id) } pub fn language_servers_for_buffer<'a>( &'a self, buffer: &'a Buffer, cx: &'a AppContext, ) -> impl Iterator, &'a Arc)> { self.lsp_store .read(cx) .language_servers_for_buffer(buffer, cx) } } fn deserialize_code_actions(code_actions: &HashMap) -> Vec { code_actions .iter() .flat_map(|(kind, enabled)| { if *enabled { Some(kind.clone().into()) } else { None } }) .collect() } pub struct PathMatchCandidateSet { pub snapshot: Snapshot, pub include_ignored: bool, pub include_root_name: bool, pub candidates: Candidates, } pub enum Candidates { /// Only consider directories. Directories, /// Only consider files. Files, /// Consider directories and files. Entries, } impl<'a> fuzzy::PathMatchCandidateSet<'a> for PathMatchCandidateSet { type Candidates = PathMatchCandidateSetIter<'a>; fn id(&self) -> usize { self.snapshot.id().to_usize() } fn len(&self) -> usize { match self.candidates { Candidates::Files => { if self.include_ignored { self.snapshot.file_count() } else { self.snapshot.visible_file_count() } } Candidates::Directories => { if self.include_ignored { self.snapshot.dir_count() } else { self.snapshot.visible_dir_count() } } Candidates::Entries => { if self.include_ignored { self.snapshot.entry_count() } else { self.snapshot.visible_entry_count() } } } } fn prefix(&self) -> Arc { if self.snapshot.root_entry().map_or(false, |e| e.is_file()) { self.snapshot.root_name().into() } else if self.include_root_name { format!("{}{}", self.snapshot.root_name(), std::path::MAIN_SEPARATOR).into() } else { Arc::default() } } fn candidates(&'a self, start: usize) -> Self::Candidates { PathMatchCandidateSetIter { traversal: match self.candidates { Candidates::Directories => self.snapshot.directories(self.include_ignored, start), Candidates::Files => self.snapshot.files(self.include_ignored, start), Candidates::Entries => self.snapshot.entries(self.include_ignored, start), }, } } } pub struct PathMatchCandidateSetIter<'a> { traversal: Traversal<'a>, } impl<'a> Iterator for PathMatchCandidateSetIter<'a> { type Item = fuzzy::PathMatchCandidate<'a>; fn next(&mut self) -> Option { self.traversal .next() .map(|entry| fuzzy::PathMatchCandidate { is_dir: entry.kind.is_dir(), path: &entry.path, char_bag: entry.char_bag, }) } } impl EventEmitter for Project {} impl<'a> From<&'a ProjectPath> for SettingsLocation<'a> { fn from(val: &'a ProjectPath) -> Self { SettingsLocation { worktree_id: val.worktree_id, path: val.path.as_ref(), } } } impl> From<(WorktreeId, P)> for ProjectPath { fn from((worktree_id, path): (WorktreeId, P)) -> Self { Self { worktree_id, path: path.as_ref().into(), } } } pub fn relativize_path(base: &Path, path: &Path) -> PathBuf { let mut path_components = path.components(); let mut base_components = base.components(); let mut components: Vec = Vec::new(); loop { match (path_components.next(), base_components.next()) { (None, None) => break, (Some(a), None) => { components.push(a); components.extend(path_components.by_ref()); break; } (None, _) => components.push(Component::ParentDir), (Some(a), Some(b)) if components.is_empty() && a == b => (), (Some(a), Some(Component::CurDir)) => components.push(a), (Some(a), Some(_)) => { components.push(Component::ParentDir); for _ in base_components { components.push(Component::ParentDir); } components.push(a); components.extend(path_components.by_ref()); break; } } } components.iter().map(|c| c.as_os_str()).collect() } fn resolve_path(base: &Path, path: &Path) -> PathBuf { let mut result = base.to_path_buf(); for component in path.components() { match component { Component::ParentDir => { result.pop(); } Component::CurDir => (), _ => result.push(component), } } result } /// ResolvedPath is a path that has been resolved to either a ProjectPath /// or an AbsPath and that *exists*. #[derive(Debug, Clone)] pub enum ResolvedPath { ProjectPath { project_path: ProjectPath, is_dir: bool, }, AbsPath { path: PathBuf, is_dir: bool, }, } impl ResolvedPath { pub fn abs_path(&self) -> Option<&Path> { match self { Self::AbsPath { path, .. } => Some(path.as_path()), _ => None, } } pub fn project_path(&self) -> Option<&ProjectPath> { match self { Self::ProjectPath { project_path, .. } => Some(&project_path), _ => None, } } pub fn is_file(&self) -> bool { !self.is_dir() } pub fn is_dir(&self) -> bool { match self { Self::ProjectPath { is_dir, .. } => *is_dir, Self::AbsPath { is_dir, .. } => *is_dir, } } } impl Item for Buffer { fn try_open( project: &Model, path: &ProjectPath, cx: &mut AppContext, ) -> Option>>> { Some(project.update(cx, |project, cx| project.open_buffer(path.clone(), cx))) } fn entry_id(&self, cx: &AppContext) -> Option { File::from_dyn(self.file()).and_then(|file| file.project_entry_id(cx)) } fn project_path(&self, cx: &AppContext) -> Option { File::from_dyn(self.file()).map(|file| ProjectPath { worktree_id: file.worktree_id(cx), path: file.path().clone(), }) } } impl Completion { /// A key that can be used to sort completions when displaying /// them to the user. pub fn sort_key(&self) -> (usize, &str) { let kind_key = match self.lsp_completion.kind { Some(lsp::CompletionItemKind::KEYWORD) => 0, Some(lsp::CompletionItemKind::VARIABLE) => 1, _ => 2, }; (kind_key, &self.label.text[self.label.filter_range.clone()]) } /// Whether this completion is a snippet. pub fn is_snippet(&self) -> bool { self.lsp_completion.insert_text_format == Some(lsp::InsertTextFormat::SNIPPET) } /// Returns the corresponding color for this completion. /// /// Will return `None` if this completion's kind is not [`CompletionItemKind::COLOR`]. pub fn color(&self) -> Option { match self.lsp_completion.kind { Some(CompletionItemKind::COLOR) => color_extractor::extract_color(&self.lsp_completion), _ => None, } } } pub fn sort_worktree_entries(entries: &mut [Entry]) { entries.sort_by(|entry_a, entry_b| { compare_paths( (&entry_a.path, entry_a.is_file()), (&entry_b.path, entry_b.is_file()), ) }); } fn proto_to_prompt(level: proto::language_server_prompt_request::Level) -> gpui::PromptLevel { match level { proto::language_server_prompt_request::Level::Info(_) => gpui::PromptLevel::Info, proto::language_server_prompt_request::Level::Warning(_) => gpui::PromptLevel::Warning, proto::language_server_prompt_request::Level::Critical(_) => gpui::PromptLevel::Critical, } }