mod connection; mod diff; mod mention; mod terminal; use agent_settings::AgentSettings; use collections::HashSet; pub use connection::*; pub use diff::*; use language::language_settings::FormatOnSave; pub use mention::*; use project::lsp_store::{FormatTrigger, LspFormatTarget}; use serde::{Deserialize, Serialize}; use settings::Settings as _; pub use terminal::*; use action_log::ActionLog; use agent_client_protocol as acp; use anyhow::{Context as _, Result, anyhow}; use editor::Bias; use futures::{FutureExt, channel::oneshot, future::BoxFuture}; use gpui::{AppContext, AsyncApp, Context, Entity, EventEmitter, SharedString, Task, WeakEntity}; use itertools::Itertools; use language::{Anchor, Buffer, BufferSnapshot, LanguageRegistry, Point, ToPoint, text_diff}; use markdown::Markdown; use project::{AgentLocation, Project, git_store::GitStoreCheckpoint}; use std::collections::HashMap; use std::error::Error; use std::fmt::{Formatter, Write}; use std::ops::Range; use std::process::ExitStatus; use std::rc::Rc; use std::time::{Duration, Instant}; use std::{fmt::Display, mem, path::PathBuf, sync::Arc}; use ui::App; use util::ResultExt; #[derive(Debug)] pub struct UserMessage { pub id: Option, pub content: ContentBlock, pub chunks: Vec, pub checkpoint: Option, } #[derive(Debug)] pub struct Checkpoint { git_checkpoint: GitStoreCheckpoint, pub show: bool, } impl UserMessage { fn to_markdown(&self, cx: &App) -> String { let mut markdown = String::new(); if self .checkpoint .as_ref() .is_some_and(|checkpoint| checkpoint.show) { writeln!(markdown, "## User (checkpoint)").unwrap(); } else { writeln!(markdown, "## User").unwrap(); } writeln!(markdown).unwrap(); writeln!(markdown, "{}", self.content.to_markdown(cx)).unwrap(); writeln!(markdown).unwrap(); markdown } } #[derive(Debug, PartialEq)] pub struct AssistantMessage { pub chunks: Vec, } impl AssistantMessage { pub fn to_markdown(&self, cx: &App) -> String { format!( "## Assistant\n\n{}\n\n", self.chunks .iter() .map(|chunk| chunk.to_markdown(cx)) .join("\n\n") ) } } #[derive(Debug, PartialEq)] pub enum AssistantMessageChunk { Message { block: ContentBlock }, Thought { block: ContentBlock }, } impl AssistantMessageChunk { pub fn from_str(chunk: &str, language_registry: &Arc, cx: &mut App) -> Self { Self::Message { block: ContentBlock::new(chunk.into(), language_registry, cx), } } fn to_markdown(&self, cx: &App) -> String { match self { Self::Message { block } => block.to_markdown(cx).to_string(), Self::Thought { block } => { format!("\n{}\n", block.to_markdown(cx)) } } } } #[derive(Debug)] pub enum AgentThreadEntry { UserMessage(UserMessage), AssistantMessage(AssistantMessage), ToolCall(ToolCall), } impl AgentThreadEntry { pub fn to_markdown(&self, cx: &App) -> String { match self { Self::UserMessage(message) => message.to_markdown(cx), Self::AssistantMessage(message) => message.to_markdown(cx), Self::ToolCall(tool_call) => tool_call.to_markdown(cx), } } pub fn user_message(&self) -> Option<&UserMessage> { if let AgentThreadEntry::UserMessage(message) = self { Some(message) } else { None } } pub fn diffs(&self) -> impl Iterator> { if let AgentThreadEntry::ToolCall(call) = self { itertools::Either::Left(call.diffs()) } else { itertools::Either::Right(std::iter::empty()) } } pub fn terminals(&self) -> impl Iterator> { if let AgentThreadEntry::ToolCall(call) = self { itertools::Either::Left(call.terminals()) } else { itertools::Either::Right(std::iter::empty()) } } pub fn location(&self, ix: usize) -> Option<(acp::ToolCallLocation, AgentLocation)> { if let AgentThreadEntry::ToolCall(ToolCall { locations, resolved_locations, .. }) = self { Some(( locations.get(ix)?.clone(), resolved_locations.get(ix)?.clone()?, )) } else { None } } } #[derive(Debug)] pub struct ToolCall { pub id: acp::ToolCallId, pub label: Entity, pub kind: acp::ToolKind, pub content: Vec, pub status: ToolCallStatus, pub locations: Vec, pub resolved_locations: Vec>, pub raw_input: Option, pub raw_output: Option, } impl ToolCall { fn from_acp( tool_call: acp::ToolCall, status: ToolCallStatus, language_registry: Arc, cx: &mut App, ) -> Self { let title = if let Some((first_line, _)) = tool_call.title.split_once("\n") { first_line.to_owned() + "…" } else { tool_call.title }; Self { id: tool_call.id, label: cx .new(|cx| Markdown::new(title.into(), Some(language_registry.clone()), None, cx)), kind: tool_call.kind, content: tool_call .content .into_iter() .map(|content| ToolCallContent::from_acp(content, language_registry.clone(), cx)) .collect(), locations: tool_call.locations, resolved_locations: Vec::default(), status, raw_input: tool_call.raw_input, raw_output: tool_call.raw_output, } } fn update_fields( &mut self, fields: acp::ToolCallUpdateFields, language_registry: Arc, cx: &mut App, ) { let acp::ToolCallUpdateFields { kind, status, title, content, locations, raw_input, raw_output, } = fields; if let Some(kind) = kind { self.kind = kind; } if let Some(status) = status { self.status = status.into(); } if let Some(title) = title { self.label.update(cx, |label, cx| { if let Some((first_line, _)) = title.split_once("\n") { label.replace(first_line.to_owned() + "…", cx) } else { label.replace(title, cx); } }); } if let Some(content) = content { let new_content_len = content.len(); let mut content = content.into_iter(); // Reuse existing content if we can for (old, new) in self.content.iter_mut().zip(content.by_ref()) { old.update_from_acp(new, language_registry.clone(), cx); } for new in content { self.content.push(ToolCallContent::from_acp( new, language_registry.clone(), cx, )) } self.content.truncate(new_content_len); } if let Some(locations) = locations { self.locations = locations; } if let Some(raw_input) = raw_input { self.raw_input = Some(raw_input); } if let Some(raw_output) = raw_output { if self.content.is_empty() && let Some(markdown) = markdown_for_raw_output(&raw_output, &language_registry, cx) { self.content .push(ToolCallContent::ContentBlock(ContentBlock::Markdown { markdown, })); } self.raw_output = Some(raw_output); } } pub fn diffs(&self) -> impl Iterator> { self.content.iter().filter_map(|content| match content { ToolCallContent::Diff(diff) => Some(diff), ToolCallContent::ContentBlock(_) => None, ToolCallContent::Terminal(_) => None, }) } pub fn terminals(&self) -> impl Iterator> { self.content.iter().filter_map(|content| match content { ToolCallContent::Terminal(terminal) => Some(terminal), ToolCallContent::ContentBlock(_) => None, ToolCallContent::Diff(_) => None, }) } fn to_markdown(&self, cx: &App) -> String { let mut markdown = format!( "**Tool Call: {}**\nStatus: {}\n\n", self.label.read(cx).source(), self.status ); for content in &self.content { markdown.push_str(content.to_markdown(cx).as_str()); markdown.push_str("\n\n"); } markdown } async fn resolve_location( location: acp::ToolCallLocation, project: WeakEntity, cx: &mut AsyncApp, ) -> Option { let buffer = project .update(cx, |project, cx| { project .project_path_for_absolute_path(&location.path, cx) .map(|path| project.open_buffer(path, cx)) }) .ok()??; let buffer = buffer.await.log_err()?; let position = buffer .update(cx, |buffer, _| { if let Some(row) = location.line { let snapshot = buffer.snapshot(); let column = snapshot.indent_size_for_line(row).len; let point = snapshot.clip_point(Point::new(row, column), Bias::Left); snapshot.anchor_before(point) } else { Anchor::MIN } }) .ok()?; Some(AgentLocation { buffer: buffer.downgrade(), position, }) } fn resolve_locations( &self, project: Entity, cx: &mut App, ) -> Task>> { let locations = self.locations.clone(); project.update(cx, |_, cx| { cx.spawn(async move |project, cx| { let mut new_locations = Vec::new(); for location in locations { new_locations.push(Self::resolve_location(location, project.clone(), cx).await); } new_locations }) }) } } #[derive(Debug)] pub enum ToolCallStatus { /// The tool call hasn't started running yet, but we start showing it to /// the user. Pending, /// The tool call is waiting for confirmation from the user. WaitingForConfirmation { options: Vec, respond_tx: oneshot::Sender, }, /// The tool call is currently running. InProgress, /// The tool call completed successfully. Completed, /// The tool call failed. Failed, /// The user rejected the tool call. Rejected, /// The user canceled generation so the tool call was canceled. Canceled, } impl From for ToolCallStatus { fn from(status: acp::ToolCallStatus) -> Self { match status { acp::ToolCallStatus::Pending => Self::Pending, acp::ToolCallStatus::InProgress => Self::InProgress, acp::ToolCallStatus::Completed => Self::Completed, acp::ToolCallStatus::Failed => Self::Failed, } } } impl Display for ToolCallStatus { fn fmt(&self, f: &mut Formatter<'_>) -> std::fmt::Result { write!( f, "{}", match self { ToolCallStatus::Pending => "Pending", ToolCallStatus::WaitingForConfirmation { .. } => "Waiting for confirmation", ToolCallStatus::InProgress => "In Progress", ToolCallStatus::Completed => "Completed", ToolCallStatus::Failed => "Failed", ToolCallStatus::Rejected => "Rejected", ToolCallStatus::Canceled => "Canceled", } ) } } #[derive(Debug, PartialEq, Clone)] pub enum ContentBlock { Empty, Markdown { markdown: Entity }, ResourceLink { resource_link: acp::ResourceLink }, } impl ContentBlock { pub fn new( block: acp::ContentBlock, language_registry: &Arc, cx: &mut App, ) -> Self { let mut this = Self::Empty; this.append(block, language_registry, cx); this } pub fn new_combined( blocks: impl IntoIterator, language_registry: Arc, cx: &mut App, ) -> Self { let mut this = Self::Empty; for block in blocks { this.append(block, &language_registry, cx); } this } pub fn append( &mut self, block: acp::ContentBlock, language_registry: &Arc, cx: &mut App, ) { if matches!(self, ContentBlock::Empty) && let acp::ContentBlock::ResourceLink(resource_link) = block { *self = ContentBlock::ResourceLink { resource_link }; return; } let new_content = self.block_string_contents(block); match self { ContentBlock::Empty => { *self = Self::create_markdown_block(new_content, language_registry, cx); } ContentBlock::Markdown { markdown } => { markdown.update(cx, |markdown, cx| markdown.append(&new_content, cx)); } ContentBlock::ResourceLink { resource_link } => { let existing_content = Self::resource_link_md(&resource_link.uri); let combined = format!("{}\n{}", existing_content, new_content); *self = Self::create_markdown_block(combined, language_registry, cx); } } } fn create_markdown_block( content: String, language_registry: &Arc, cx: &mut App, ) -> ContentBlock { ContentBlock::Markdown { markdown: cx .new(|cx| Markdown::new(content.into(), Some(language_registry.clone()), None, cx)), } } fn block_string_contents(&self, block: acp::ContentBlock) -> String { match block { acp::ContentBlock::Text(text_content) => text_content.text, acp::ContentBlock::ResourceLink(resource_link) => { Self::resource_link_md(&resource_link.uri) } acp::ContentBlock::Resource(acp::EmbeddedResource { resource: acp::EmbeddedResourceResource::TextResourceContents(acp::TextResourceContents { uri, .. }), .. }) => Self::resource_link_md(&uri), acp::ContentBlock::Image(image) => Self::image_md(&image), acp::ContentBlock::Audio(_) | acp::ContentBlock::Resource(_) => String::new(), } } fn resource_link_md(uri: &str) -> String { if let Some(uri) = MentionUri::parse(uri).log_err() { uri.as_link().to_string() } else { uri.to_string() } } fn image_md(_image: &acp::ImageContent) -> String { "`Image`".into() } pub fn to_markdown<'a>(&'a self, cx: &'a App) -> &'a str { match self { ContentBlock::Empty => "", ContentBlock::Markdown { markdown } => markdown.read(cx).source(), ContentBlock::ResourceLink { resource_link } => &resource_link.uri, } } pub fn markdown(&self) -> Option<&Entity> { match self { ContentBlock::Empty => None, ContentBlock::Markdown { markdown } => Some(markdown), ContentBlock::ResourceLink { .. } => None, } } pub fn resource_link(&self) -> Option<&acp::ResourceLink> { match self { ContentBlock::ResourceLink { resource_link } => Some(resource_link), _ => None, } } } #[derive(Debug)] pub enum ToolCallContent { ContentBlock(ContentBlock), Diff(Entity), Terminal(Entity), } impl ToolCallContent { pub fn from_acp( content: acp::ToolCallContent, language_registry: Arc, cx: &mut App, ) -> Self { match content { acp::ToolCallContent::Content { content } => { Self::ContentBlock(ContentBlock::new(content, &language_registry, cx)) } acp::ToolCallContent::Diff { diff } => Self::Diff(cx.new(|cx| { Diff::finalized( diff.path, diff.old_text, diff.new_text, language_registry, cx, ) })), } } pub fn update_from_acp( &mut self, new: acp::ToolCallContent, language_registry: Arc, cx: &mut App, ) { let needs_update = match (&self, &new) { (Self::Diff(old_diff), acp::ToolCallContent::Diff { diff: new_diff }) => { old_diff.read(cx).needs_update( new_diff.old_text.as_deref().unwrap_or(""), &new_diff.new_text, cx, ) } _ => true, }; if needs_update { *self = Self::from_acp(new, language_registry, cx); } } pub fn to_markdown(&self, cx: &App) -> String { match self { Self::ContentBlock(content) => content.to_markdown(cx).to_string(), Self::Diff(diff) => diff.read(cx).to_markdown(cx), Self::Terminal(terminal) => terminal.read(cx).to_markdown(cx), } } } #[derive(Debug, PartialEq)] pub enum ToolCallUpdate { UpdateFields(acp::ToolCallUpdate), UpdateDiff(ToolCallUpdateDiff), UpdateTerminal(ToolCallUpdateTerminal), } impl ToolCallUpdate { fn id(&self) -> &acp::ToolCallId { match self { Self::UpdateFields(update) => &update.id, Self::UpdateDiff(diff) => &diff.id, Self::UpdateTerminal(terminal) => &terminal.id, } } } impl From for ToolCallUpdate { fn from(update: acp::ToolCallUpdate) -> Self { Self::UpdateFields(update) } } impl From for ToolCallUpdate { fn from(diff: ToolCallUpdateDiff) -> Self { Self::UpdateDiff(diff) } } #[derive(Debug, PartialEq)] pub struct ToolCallUpdateDiff { pub id: acp::ToolCallId, pub diff: Entity, } impl From for ToolCallUpdate { fn from(terminal: ToolCallUpdateTerminal) -> Self { Self::UpdateTerminal(terminal) } } #[derive(Debug, PartialEq)] pub struct ToolCallUpdateTerminal { pub id: acp::ToolCallId, pub terminal: Entity, } #[derive(Debug, Default)] pub struct Plan { pub entries: Vec, } #[derive(Debug)] pub struct PlanStats<'a> { pub in_progress_entry: Option<&'a PlanEntry>, pub pending: u32, pub completed: u32, } impl Plan { pub fn is_empty(&self) -> bool { self.entries.is_empty() } pub fn stats(&self) -> PlanStats<'_> { let mut stats = PlanStats { in_progress_entry: None, pending: 0, completed: 0, }; for entry in &self.entries { match &entry.status { acp::PlanEntryStatus::Pending => { stats.pending += 1; } acp::PlanEntryStatus::InProgress => { stats.in_progress_entry = stats.in_progress_entry.or(Some(entry)); } acp::PlanEntryStatus::Completed => { stats.completed += 1; } } } stats } } #[derive(Debug)] pub struct PlanEntry { pub content: Entity, pub priority: acp::PlanEntryPriority, pub status: acp::PlanEntryStatus, } impl PlanEntry { pub fn from_acp(entry: acp::PlanEntry, cx: &mut App) -> Self { Self { content: cx.new(|cx| Markdown::new(entry.content.into(), None, None, cx)), priority: entry.priority, status: entry.status, } } } #[derive(Debug, Clone, PartialEq, Eq, Serialize, Deserialize)] pub struct TokenUsage { pub max_tokens: u64, pub used_tokens: u64, } impl TokenUsage { pub fn ratio(&self) -> TokenUsageRatio { #[cfg(debug_assertions)] let warning_threshold: f32 = std::env::var("ZED_THREAD_WARNING_THRESHOLD") .unwrap_or("0.8".to_string()) .parse() .unwrap(); #[cfg(not(debug_assertions))] let warning_threshold: f32 = 0.8; // When the maximum is unknown because there is no selected model, // avoid showing the token limit warning. if self.max_tokens == 0 { TokenUsageRatio::Normal } else if self.used_tokens >= self.max_tokens { TokenUsageRatio::Exceeded } else if self.used_tokens as f32 / self.max_tokens as f32 >= warning_threshold { TokenUsageRatio::Warning } else { TokenUsageRatio::Normal } } } #[derive(Debug, Clone, PartialEq, Eq)] pub enum TokenUsageRatio { Normal, Warning, Exceeded, } #[derive(Debug, Clone)] pub struct RetryStatus { pub last_error: SharedString, pub attempt: usize, pub max_attempts: usize, pub started_at: Instant, pub duration: Duration, } pub struct AcpThread { title: SharedString, entries: Vec, plan: Plan, project: Entity, action_log: Entity, shared_buffers: HashMap, BufferSnapshot>, send_task: Option>, connection: Rc, session_id: acp::SessionId, token_usage: Option, prompt_capabilities: acp::PromptCapabilities, _observe_prompt_capabilities: Task>, } #[derive(Debug)] pub enum AcpThreadEvent { NewEntry, TitleUpdated, TokenUsageUpdated, EntryUpdated(usize), EntriesRemoved(Range), ToolAuthorizationRequired, Retry(RetryStatus), Stopped, Error, LoadError(LoadError), PromptCapabilitiesUpdated, } impl EventEmitter for AcpThread {} #[derive(PartialEq, Eq, Debug)] pub enum ThreadStatus { Idle, WaitingForToolConfirmation, Generating, } #[derive(Debug, Clone)] pub enum LoadError { Unsupported { command: SharedString, current_version: SharedString, minimum_version: SharedString, }, FailedToInstall(SharedString), Exited { status: ExitStatus, }, Other(SharedString), } impl Display for LoadError { fn fmt(&self, f: &mut Formatter<'_>) -> std::fmt::Result { match self { LoadError::Unsupported { command: path, current_version, minimum_version, } => { write!( f, "version {current_version} from {path} is not supported (need at least {minimum_version})" ) } LoadError::FailedToInstall(msg) => write!(f, "Failed to install: {msg}"), LoadError::Exited { status } => write!(f, "Server exited with status {status}"), LoadError::Other(msg) => write!(f, "{msg}"), } } } impl Error for LoadError {} impl AcpThread { pub fn new( title: impl Into, connection: Rc, project: Entity, action_log: Entity, session_id: acp::SessionId, mut prompt_capabilities_rx: watch::Receiver, cx: &mut Context, ) -> Self { let prompt_capabilities = *prompt_capabilities_rx.borrow(); let task = cx.spawn::<_, anyhow::Result<()>>(async move |this, cx| { loop { let caps = prompt_capabilities_rx.recv().await?; this.update(cx, |this, cx| { this.prompt_capabilities = caps; cx.emit(AcpThreadEvent::PromptCapabilitiesUpdated); })?; } }); Self { action_log, shared_buffers: Default::default(), entries: Default::default(), plan: Default::default(), title: title.into(), project, send_task: None, connection, session_id, token_usage: None, prompt_capabilities, _observe_prompt_capabilities: task, } } pub fn prompt_capabilities(&self) -> acp::PromptCapabilities { self.prompt_capabilities } pub fn connection(&self) -> &Rc { &self.connection } pub fn action_log(&self) -> &Entity { &self.action_log } pub fn project(&self) -> &Entity { &self.project } pub fn title(&self) -> SharedString { self.title.clone() } pub fn entries(&self) -> &[AgentThreadEntry] { &self.entries } pub fn session_id(&self) -> &acp::SessionId { &self.session_id } pub fn status(&self) -> ThreadStatus { if self.send_task.is_some() { if self.waiting_for_tool_confirmation() { ThreadStatus::WaitingForToolConfirmation } else { ThreadStatus::Generating } } else { ThreadStatus::Idle } } pub fn token_usage(&self) -> Option<&TokenUsage> { self.token_usage.as_ref() } pub fn has_pending_edit_tool_calls(&self) -> bool { for entry in self.entries.iter().rev() { match entry { AgentThreadEntry::UserMessage(_) => return false, AgentThreadEntry::ToolCall( call @ ToolCall { status: ToolCallStatus::InProgress | ToolCallStatus::Pending, .. }, ) if call.diffs().next().is_some() => { return true; } AgentThreadEntry::ToolCall(_) | AgentThreadEntry::AssistantMessage(_) => {} } } false } pub fn used_tools_since_last_user_message(&self) -> bool { for entry in self.entries.iter().rev() { match entry { AgentThreadEntry::UserMessage(..) => return false, AgentThreadEntry::AssistantMessage(..) => continue, AgentThreadEntry::ToolCall(..) => return true, } } false } pub fn handle_session_update( &mut self, update: acp::SessionUpdate, cx: &mut Context, ) -> Result<(), acp::Error> { match update { acp::SessionUpdate::UserMessageChunk { content } => { self.push_user_content_block(None, content, cx); } acp::SessionUpdate::AgentMessageChunk { content } => { self.push_assistant_content_block(content, false, cx); } acp::SessionUpdate::AgentThoughtChunk { content } => { self.push_assistant_content_block(content, true, cx); } acp::SessionUpdate::ToolCall(tool_call) => { self.upsert_tool_call(tool_call, cx)?; } acp::SessionUpdate::ToolCallUpdate(tool_call_update) => { self.update_tool_call(tool_call_update, cx)?; } acp::SessionUpdate::Plan(plan) => { self.update_plan(plan, cx); } } Ok(()) } pub fn push_user_content_block( &mut self, message_id: Option, chunk: acp::ContentBlock, cx: &mut Context, ) { let language_registry = self.project.read(cx).languages().clone(); let entries_len = self.entries.len(); if let Some(last_entry) = self.entries.last_mut() && let AgentThreadEntry::UserMessage(UserMessage { id, content, chunks, .. }) = last_entry { *id = message_id.or(id.take()); content.append(chunk.clone(), &language_registry, cx); chunks.push(chunk); let idx = entries_len - 1; cx.emit(AcpThreadEvent::EntryUpdated(idx)); } else { let content = ContentBlock::new(chunk.clone(), &language_registry, cx); self.push_entry( AgentThreadEntry::UserMessage(UserMessage { id: message_id, content, chunks: vec![chunk], checkpoint: None, }), cx, ); } } pub fn push_assistant_content_block( &mut self, chunk: acp::ContentBlock, is_thought: bool, cx: &mut Context, ) { let language_registry = self.project.read(cx).languages().clone(); let entries_len = self.entries.len(); if let Some(last_entry) = self.entries.last_mut() && let AgentThreadEntry::AssistantMessage(AssistantMessage { chunks }) = last_entry { let idx = entries_len - 1; cx.emit(AcpThreadEvent::EntryUpdated(idx)); match (chunks.last_mut(), is_thought) { (Some(AssistantMessageChunk::Message { block }), false) | (Some(AssistantMessageChunk::Thought { block }), true) => { block.append(chunk, &language_registry, cx) } _ => { let block = ContentBlock::new(chunk, &language_registry, cx); if is_thought { chunks.push(AssistantMessageChunk::Thought { block }) } else { chunks.push(AssistantMessageChunk::Message { block }) } } } } else { let block = ContentBlock::new(chunk, &language_registry, cx); let chunk = if is_thought { AssistantMessageChunk::Thought { block } } else { AssistantMessageChunk::Message { block } }; self.push_entry( AgentThreadEntry::AssistantMessage(AssistantMessage { chunks: vec![chunk], }), cx, ); } } fn push_entry(&mut self, entry: AgentThreadEntry, cx: &mut Context) { self.entries.push(entry); cx.emit(AcpThreadEvent::NewEntry); } pub fn can_set_title(&mut self, cx: &mut Context) -> bool { self.connection.set_title(&self.session_id, cx).is_some() } pub fn set_title(&mut self, title: SharedString, cx: &mut Context) -> Task> { if title != self.title { self.title = title.clone(); cx.emit(AcpThreadEvent::TitleUpdated); if let Some(set_title) = self.connection.set_title(&self.session_id, cx) { return set_title.run(title, cx); } } Task::ready(Ok(())) } pub fn update_token_usage(&mut self, usage: Option, cx: &mut Context) { self.token_usage = usage; cx.emit(AcpThreadEvent::TokenUsageUpdated); } pub fn update_retry_status(&mut self, status: RetryStatus, cx: &mut Context) { cx.emit(AcpThreadEvent::Retry(status)); } pub fn update_tool_call( &mut self, update: impl Into, cx: &mut Context, ) -> Result<()> { let update = update.into(); let languages = self.project.read(cx).languages().clone(); let (ix, current_call) = self .tool_call_mut(update.id()) .context("Tool call not found")?; match update { ToolCallUpdate::UpdateFields(update) => { let location_updated = update.fields.locations.is_some(); current_call.update_fields(update.fields, languages, cx); if location_updated { self.resolve_locations(update.id, cx); } } ToolCallUpdate::UpdateDiff(update) => { current_call.content.clear(); current_call .content .push(ToolCallContent::Diff(update.diff)); } ToolCallUpdate::UpdateTerminal(update) => { current_call.content.clear(); current_call .content .push(ToolCallContent::Terminal(update.terminal)); } } cx.emit(AcpThreadEvent::EntryUpdated(ix)); Ok(()) } /// Updates a tool call if id matches an existing entry, otherwise inserts a new one. pub fn upsert_tool_call( &mut self, tool_call: acp::ToolCall, cx: &mut Context, ) -> Result<(), acp::Error> { let status = tool_call.status.into(); self.upsert_tool_call_inner(tool_call.into(), status, cx) } /// Fails if id does not match an existing entry. pub fn upsert_tool_call_inner( &mut self, tool_call_update: acp::ToolCallUpdate, status: ToolCallStatus, cx: &mut Context, ) -> Result<(), acp::Error> { let language_registry = self.project.read(cx).languages().clone(); let id = tool_call_update.id.clone(); if let Some((ix, current_call)) = self.tool_call_mut(&id) { current_call.update_fields(tool_call_update.fields, language_registry, cx); current_call.status = status; cx.emit(AcpThreadEvent::EntryUpdated(ix)); } else { let call = ToolCall::from_acp(tool_call_update.try_into()?, status, language_registry, cx); self.push_entry(AgentThreadEntry::ToolCall(call), cx); }; self.resolve_locations(id, cx); Ok(()) } fn tool_call_mut(&mut self, id: &acp::ToolCallId) -> Option<(usize, &mut ToolCall)> { // The tool call we are looking for is typically the last one, or very close to the end. // At the moment, it doesn't seem like a hashmap would be a good fit for this use case. self.entries .iter_mut() .enumerate() .rev() .find_map(|(index, tool_call)| { if let AgentThreadEntry::ToolCall(tool_call) = tool_call && &tool_call.id == id { Some((index, tool_call)) } else { None } }) } pub fn tool_call(&mut self, id: &acp::ToolCallId) -> Option<(usize, &ToolCall)> { self.entries .iter() .enumerate() .rev() .find_map(|(index, tool_call)| { if let AgentThreadEntry::ToolCall(tool_call) = tool_call && &tool_call.id == id { Some((index, tool_call)) } else { None } }) } pub fn resolve_locations(&mut self, id: acp::ToolCallId, cx: &mut Context) { let project = self.project.clone(); let Some((_, tool_call)) = self.tool_call_mut(&id) else { return; }; let task = tool_call.resolve_locations(project, cx); cx.spawn(async move |this, cx| { let resolved_locations = task.await; this.update(cx, |this, cx| { let project = this.project.clone(); let Some((ix, tool_call)) = this.tool_call_mut(&id) else { return; }; if let Some(Some(location)) = resolved_locations.last() { project.update(cx, |project, cx| { if let Some(agent_location) = project.agent_location() { let should_ignore = agent_location.buffer == location.buffer && location .buffer .update(cx, |buffer, _| { let snapshot = buffer.snapshot(); let old_position = agent_location.position.to_point(&snapshot); let new_position = location.position.to_point(&snapshot); // ignore this so that when we get updates from the edit tool // the position doesn't reset to the startof line old_position.row == new_position.row && old_position.column > new_position.column }) .ok() .unwrap_or_default(); if !should_ignore { project.set_agent_location(Some(location.clone()), cx); } } }); } if tool_call.resolved_locations != resolved_locations { tool_call.resolved_locations = resolved_locations; cx.emit(AcpThreadEvent::EntryUpdated(ix)); } }) }) .detach(); } pub fn request_tool_call_authorization( &mut self, tool_call: acp::ToolCallUpdate, options: Vec, cx: &mut Context, ) -> Result> { let (tx, rx) = oneshot::channel(); if AgentSettings::get_global(cx).always_allow_tool_actions { // Don't use AllowAlways, because then if you were to turn off always_allow_tool_actions, // some tools would (incorrectly) continue to auto-accept. if let Some(allow_once_option) = options.iter().find_map(|option| { if matches!(option.kind, acp::PermissionOptionKind::AllowOnce) { Some(option.id.clone()) } else { None } }) { self.upsert_tool_call_inner(tool_call, ToolCallStatus::Pending, cx)?; return Ok(async { acp::RequestPermissionOutcome::Selected { option_id: allow_once_option, } } .boxed()); } } let status = ToolCallStatus::WaitingForConfirmation { options, respond_tx: tx, }; self.upsert_tool_call_inner(tool_call, status, cx)?; cx.emit(AcpThreadEvent::ToolAuthorizationRequired); let fut = async { match rx.await { Ok(option) => acp::RequestPermissionOutcome::Selected { option_id: option }, Err(oneshot::Canceled) => acp::RequestPermissionOutcome::Cancelled, } } .boxed(); Ok(fut) } pub fn authorize_tool_call( &mut self, id: acp::ToolCallId, option_id: acp::PermissionOptionId, option_kind: acp::PermissionOptionKind, cx: &mut Context, ) { let Some((ix, call)) = self.tool_call_mut(&id) else { return; }; let new_status = match option_kind { acp::PermissionOptionKind::RejectOnce | acp::PermissionOptionKind::RejectAlways => { ToolCallStatus::Rejected } acp::PermissionOptionKind::AllowOnce | acp::PermissionOptionKind::AllowAlways => { ToolCallStatus::InProgress } }; let curr_status = mem::replace(&mut call.status, new_status); if let ToolCallStatus::WaitingForConfirmation { respond_tx, .. } = curr_status { respond_tx.send(option_id).log_err(); } else if cfg!(debug_assertions) { panic!("tried to authorize an already authorized tool call"); } cx.emit(AcpThreadEvent::EntryUpdated(ix)); } /// Returns true if the last turn is awaiting tool authorization pub fn waiting_for_tool_confirmation(&self) -> bool { for entry in self.entries.iter().rev() { match &entry { AgentThreadEntry::ToolCall(call) => match call.status { ToolCallStatus::WaitingForConfirmation { .. } => return true, ToolCallStatus::Pending | ToolCallStatus::InProgress | ToolCallStatus::Completed | ToolCallStatus::Failed | ToolCallStatus::Rejected | ToolCallStatus::Canceled => continue, }, AgentThreadEntry::UserMessage(_) | AgentThreadEntry::AssistantMessage(_) => { // Reached the beginning of the turn return false; } } } false } pub fn plan(&self) -> &Plan { &self.plan } pub fn update_plan(&mut self, request: acp::Plan, cx: &mut Context) { let new_entries_len = request.entries.len(); let mut new_entries = request.entries.into_iter(); // Reuse existing markdown to prevent flickering for (old, new) in self.plan.entries.iter_mut().zip(new_entries.by_ref()) { let PlanEntry { content, priority, status, } = old; content.update(cx, |old, cx| { old.replace(new.content, cx); }); *priority = new.priority; *status = new.status; } for new in new_entries { self.plan.entries.push(PlanEntry::from_acp(new, cx)) } self.plan.entries.truncate(new_entries_len); cx.notify(); } fn clear_completed_plan_entries(&mut self, cx: &mut Context) { self.plan .entries .retain(|entry| !matches!(entry.status, acp::PlanEntryStatus::Completed)); cx.notify(); } #[cfg(any(test, feature = "test-support"))] pub fn send_raw( &mut self, message: &str, cx: &mut Context, ) -> BoxFuture<'static, Result<()>> { self.send( vec![acp::ContentBlock::Text(acp::TextContent { text: message.to_string(), annotations: None, })], cx, ) } pub fn send( &mut self, message: Vec, cx: &mut Context, ) -> BoxFuture<'static, Result<()>> { let block = ContentBlock::new_combined( message.clone(), self.project.read(cx).languages().clone(), cx, ); let request = acp::PromptRequest { prompt: message.clone(), session_id: self.session_id.clone(), }; let git_store = self.project.read(cx).git_store().clone(); let message_id = if self.connection.truncate(&self.session_id, cx).is_some() { Some(UserMessageId::new()) } else { None }; self.run_turn(cx, async move |this, cx| { this.update(cx, |this, cx| { this.push_entry( AgentThreadEntry::UserMessage(UserMessage { id: message_id.clone(), content: block, chunks: message, checkpoint: None, }), cx, ); }) .ok(); let old_checkpoint = git_store .update(cx, |git, cx| git.checkpoint(cx))? .await .context("failed to get old checkpoint") .log_err(); this.update(cx, |this, cx| { if let Some((_ix, message)) = this.last_user_message() { message.checkpoint = old_checkpoint.map(|git_checkpoint| Checkpoint { git_checkpoint, show: false, }); } this.connection.prompt(message_id, request, cx) })? .await }) } pub fn can_resume(&self, cx: &App) -> bool { self.connection.resume(&self.session_id, cx).is_some() } pub fn resume(&mut self, cx: &mut Context) -> BoxFuture<'static, Result<()>> { self.run_turn(cx, async move |this, cx| { this.update(cx, |this, cx| { this.connection .resume(&this.session_id, cx) .map(|resume| resume.run(cx)) })? .context("resuming a session is not supported")? .await }) } fn run_turn( &mut self, cx: &mut Context, f: impl 'static + AsyncFnOnce(WeakEntity, &mut AsyncApp) -> Result, ) -> BoxFuture<'static, Result<()>> { self.clear_completed_plan_entries(cx); let (tx, rx) = oneshot::channel(); let cancel_task = self.cancel(cx); self.send_task = Some(cx.spawn(async move |this, cx| { cancel_task.await; tx.send(f(this, cx).await).ok(); })); cx.spawn(async move |this, cx| { let response = rx.await; this.update(cx, |this, cx| this.update_last_checkpoint(cx))? .await?; this.update(cx, |this, cx| { this.project .update(cx, |project, cx| project.set_agent_location(None, cx)); match response { Ok(Err(e)) => { this.send_task.take(); cx.emit(AcpThreadEvent::Error); Err(e) } result => { let canceled = matches!( result, Ok(Ok(acp::PromptResponse { stop_reason: acp::StopReason::Cancelled })) ); // We only take the task if the current prompt wasn't canceled. // // This prompt may have been canceled because another one was sent // while it was still generating. In these cases, dropping `send_task` // would cause the next generation to be canceled. if !canceled { this.send_task.take(); } // Truncate entries if the last prompt was refused. if let Ok(Ok(acp::PromptResponse { stop_reason: acp::StopReason::Refusal, })) = result && let Some((ix, _)) = this.last_user_message() { let range = ix..this.entries.len(); this.entries.truncate(ix); cx.emit(AcpThreadEvent::EntriesRemoved(range)); } cx.emit(AcpThreadEvent::Stopped); Ok(()) } } })? }) .boxed() } pub fn cancel(&mut self, cx: &mut Context) -> Task<()> { let Some(send_task) = self.send_task.take() else { return Task::ready(()); }; for entry in self.entries.iter_mut() { if let AgentThreadEntry::ToolCall(call) = entry { let cancel = matches!( call.status, ToolCallStatus::Pending | ToolCallStatus::WaitingForConfirmation { .. } | ToolCallStatus::InProgress ); if cancel { call.status = ToolCallStatus::Canceled; } } } self.connection.cancel(&self.session_id, cx); // Wait for the send task to complete cx.foreground_executor().spawn(send_task) } /// Rewinds this thread to before the entry at `index`, removing it and all /// subsequent entries while reverting any changes made from that point. pub fn rewind(&mut self, id: UserMessageId, cx: &mut Context) -> Task> { let Some(truncate) = self.connection.truncate(&self.session_id, cx) else { return Task::ready(Err(anyhow!("not supported"))); }; let Some(message) = self.user_message(&id) else { return Task::ready(Err(anyhow!("message not found"))); }; let checkpoint = message .checkpoint .as_ref() .map(|c| c.git_checkpoint.clone()); let git_store = self.project.read(cx).git_store().clone(); cx.spawn(async move |this, cx| { if let Some(checkpoint) = checkpoint { git_store .update(cx, |git, cx| git.restore_checkpoint(checkpoint, cx))? .await?; } cx.update(|cx| truncate.run(id.clone(), cx))?.await?; this.update(cx, |this, cx| { if let Some((ix, _)) = this.user_message_mut(&id) { let range = ix..this.entries.len(); this.entries.truncate(ix); cx.emit(AcpThreadEvent::EntriesRemoved(range)); } }) }) } fn update_last_checkpoint(&mut self, cx: &mut Context) -> Task> { let git_store = self.project.read(cx).git_store().clone(); let old_checkpoint = if let Some((_, message)) = self.last_user_message() { if let Some(checkpoint) = message.checkpoint.as_ref() { checkpoint.git_checkpoint.clone() } else { return Task::ready(Ok(())); } } else { return Task::ready(Ok(())); }; let new_checkpoint = git_store.update(cx, |git, cx| git.checkpoint(cx)); cx.spawn(async move |this, cx| { let new_checkpoint = new_checkpoint .await .context("failed to get new checkpoint") .log_err(); if let Some(new_checkpoint) = new_checkpoint { let equal = git_store .update(cx, |git, cx| { git.compare_checkpoints(old_checkpoint.clone(), new_checkpoint, cx) })? .await .unwrap_or(true); this.update(cx, |this, cx| { let (ix, message) = this.last_user_message().context("no user message")?; let checkpoint = message.checkpoint.as_mut().context("no checkpoint")?; checkpoint.show = !equal; cx.emit(AcpThreadEvent::EntryUpdated(ix)); anyhow::Ok(()) })??; } Ok(()) }) } fn last_user_message(&mut self) -> Option<(usize, &mut UserMessage)> { self.entries .iter_mut() .enumerate() .rev() .find_map(|(ix, entry)| { if let AgentThreadEntry::UserMessage(message) = entry { Some((ix, message)) } else { None } }) } fn user_message(&self, id: &UserMessageId) -> Option<&UserMessage> { self.entries.iter().find_map(|entry| { if let AgentThreadEntry::UserMessage(message) = entry { if message.id.as_ref() == Some(id) { Some(message) } else { None } } else { None } }) } fn user_message_mut(&mut self, id: &UserMessageId) -> Option<(usize, &mut UserMessage)> { self.entries.iter_mut().enumerate().find_map(|(ix, entry)| { if let AgentThreadEntry::UserMessage(message) = entry { if message.id.as_ref() == Some(id) { Some((ix, message)) } else { None } } else { None } }) } pub fn read_text_file( &self, path: PathBuf, line: Option, limit: Option, reuse_shared_snapshot: bool, cx: &mut Context, ) -> Task> { let project = self.project.clone(); let action_log = self.action_log.clone(); cx.spawn(async move |this, cx| { let load = project.update(cx, |project, cx| { let path = project .project_path_for_absolute_path(&path, cx) .context("invalid path")?; anyhow::Ok(project.open_buffer(path, cx)) }); let buffer = load??.await?; let snapshot = if reuse_shared_snapshot { this.read_with(cx, |this, _| { this.shared_buffers.get(&buffer.clone()).cloned() }) .log_err() .flatten() } else { None }; let snapshot = if let Some(snapshot) = snapshot { snapshot } else { action_log.update(cx, |action_log, cx| { action_log.buffer_read(buffer.clone(), cx); })?; project.update(cx, |project, cx| { let position = buffer .read(cx) .snapshot() .anchor_before(Point::new(line.unwrap_or_default(), 0)); project.set_agent_location( Some(AgentLocation { buffer: buffer.downgrade(), position, }), cx, ); })?; buffer.update(cx, |buffer, _| buffer.snapshot())? }; this.update(cx, |this, _| { let text = snapshot.text(); this.shared_buffers.insert(buffer.clone(), snapshot); if line.is_none() && limit.is_none() { return Ok(text); } let limit = limit.unwrap_or(u32::MAX) as usize; let Some(line) = line else { return Ok(text.lines().take(limit).collect::()); }; let count = text.lines().count(); if count < line as usize { anyhow::bail!("There are only {} lines", count); } Ok(text .lines() .skip(line as usize + 1) .take(limit) .collect::()) })? }) } pub fn write_text_file( &self, path: PathBuf, content: String, cx: &mut Context, ) -> Task> { let project = self.project.clone(); let action_log = self.action_log.clone(); cx.spawn(async move |this, cx| { let load = project.update(cx, |project, cx| { let path = project .project_path_for_absolute_path(&path, cx) .context("invalid path")?; anyhow::Ok(project.open_buffer(path, cx)) }); let buffer = load??.await?; let snapshot = this.update(cx, |this, cx| { this.shared_buffers .get(&buffer) .cloned() .unwrap_or_else(|| buffer.read(cx).snapshot()) })?; let edits = cx .background_executor() .spawn(async move { let old_text = snapshot.text(); text_diff(old_text.as_str(), &content) .into_iter() .map(|(range, replacement)| { ( snapshot.anchor_after(range.start) ..snapshot.anchor_before(range.end), replacement, ) }) .collect::>() }) .await; project.update(cx, |project, cx| { project.set_agent_location( Some(AgentLocation { buffer: buffer.downgrade(), position: edits .last() .map(|(range, _)| range.end) .unwrap_or(Anchor::MIN), }), cx, ); })?; let format_on_save = cx.update(|cx| { action_log.update(cx, |action_log, cx| { action_log.buffer_read(buffer.clone(), cx); }); let format_on_save = buffer.update(cx, |buffer, cx| { buffer.edit(edits, None, cx); let settings = language::language_settings::language_settings( buffer.language().map(|l| l.name()), buffer.file(), cx, ); settings.format_on_save != FormatOnSave::Off }); action_log.update(cx, |action_log, cx| { action_log.buffer_edited(buffer.clone(), cx); }); format_on_save })?; if format_on_save { let format_task = project.update(cx, |project, cx| { project.format( HashSet::from_iter([buffer.clone()]), LspFormatTarget::Buffers, false, FormatTrigger::Save, cx, ) })?; format_task.await.log_err(); action_log.update(cx, |action_log, cx| { action_log.buffer_edited(buffer.clone(), cx); })?; } project .update(cx, |project, cx| project.save_buffer(buffer, cx))? .await }) } pub fn to_markdown(&self, cx: &App) -> String { self.entries.iter().map(|e| e.to_markdown(cx)).collect() } pub fn emit_load_error(&mut self, error: LoadError, cx: &mut Context) { cx.emit(AcpThreadEvent::LoadError(error)); } } fn markdown_for_raw_output( raw_output: &serde_json::Value, language_registry: &Arc, cx: &mut App, ) -> Option> { match raw_output { serde_json::Value::Null => None, serde_json::Value::Bool(value) => Some(cx.new(|cx| { Markdown::new( value.to_string().into(), Some(language_registry.clone()), None, cx, ) })), serde_json::Value::Number(value) => Some(cx.new(|cx| { Markdown::new( value.to_string().into(), Some(language_registry.clone()), None, cx, ) })), serde_json::Value::String(value) => Some(cx.new(|cx| { Markdown::new( value.clone().into(), Some(language_registry.clone()), None, cx, ) })), value => Some(cx.new(|cx| { Markdown::new( format!("```json\n{}\n```", value).into(), Some(language_registry.clone()), None, cx, ) })), } } #[cfg(test)] mod tests { use super::*; use anyhow::anyhow; use futures::{channel::mpsc, future::LocalBoxFuture, select}; use gpui::{App, AsyncApp, TestAppContext, WeakEntity}; use indoc::indoc; use project::{FakeFs, Fs}; use rand::Rng as _; use serde_json::json; use settings::SettingsStore; use smol::stream::StreamExt as _; use std::{ any::Any, cell::RefCell, path::Path, rc::Rc, sync::atomic::{AtomicBool, AtomicUsize, Ordering::SeqCst}, time::Duration, }; use util::path; fn init_test(cx: &mut TestAppContext) { env_logger::try_init().ok(); cx.update(|cx| { let settings_store = SettingsStore::test(cx); cx.set_global(settings_store); Project::init_settings(cx); language::init(cx); }); } #[gpui::test] async fn test_push_user_content_block(cx: &mut gpui::TestAppContext) { init_test(cx); let fs = FakeFs::new(cx.executor()); let project = Project::test(fs, [], cx).await; let connection = Rc::new(FakeAgentConnection::new()); let thread = cx .update(|cx| connection.new_thread(project, Path::new(path!("/test")), cx)) .await .unwrap(); // Test creating a new user message thread.update(cx, |thread, cx| { thread.push_user_content_block( None, acp::ContentBlock::Text(acp::TextContent { annotations: None, text: "Hello, ".to_string(), }), cx, ); }); thread.update(cx, |thread, cx| { assert_eq!(thread.entries.len(), 1); if let AgentThreadEntry::UserMessage(user_msg) = &thread.entries[0] { assert_eq!(user_msg.id, None); assert_eq!(user_msg.content.to_markdown(cx), "Hello, "); } else { panic!("Expected UserMessage"); } }); // Test appending to existing user message let message_1_id = UserMessageId::new(); thread.update(cx, |thread, cx| { thread.push_user_content_block( Some(message_1_id.clone()), acp::ContentBlock::Text(acp::TextContent { annotations: None, text: "world!".to_string(), }), cx, ); }); thread.update(cx, |thread, cx| { assert_eq!(thread.entries.len(), 1); if let AgentThreadEntry::UserMessage(user_msg) = &thread.entries[0] { assert_eq!(user_msg.id, Some(message_1_id)); assert_eq!(user_msg.content.to_markdown(cx), "Hello, world!"); } else { panic!("Expected UserMessage"); } }); // Test creating new user message after assistant message thread.update(cx, |thread, cx| { thread.push_assistant_content_block( acp::ContentBlock::Text(acp::TextContent { annotations: None, text: "Assistant response".to_string(), }), false, cx, ); }); let message_2_id = UserMessageId::new(); thread.update(cx, |thread, cx| { thread.push_user_content_block( Some(message_2_id.clone()), acp::ContentBlock::Text(acp::TextContent { annotations: None, text: "New user message".to_string(), }), cx, ); }); thread.update(cx, |thread, cx| { assert_eq!(thread.entries.len(), 3); if let AgentThreadEntry::UserMessage(user_msg) = &thread.entries[2] { assert_eq!(user_msg.id, Some(message_2_id)); assert_eq!(user_msg.content.to_markdown(cx), "New user message"); } else { panic!("Expected UserMessage at index 2"); } }); } #[gpui::test] async fn test_thinking_concatenation(cx: &mut gpui::TestAppContext) { init_test(cx); let fs = FakeFs::new(cx.executor()); let project = Project::test(fs, [], cx).await; let connection = Rc::new(FakeAgentConnection::new().on_user_message( |_, thread, mut cx| { async move { thread.update(&mut cx, |thread, cx| { thread .handle_session_update( acp::SessionUpdate::AgentThoughtChunk { content: "Thinking ".into(), }, cx, ) .unwrap(); thread .handle_session_update( acp::SessionUpdate::AgentThoughtChunk { content: "hard!".into(), }, cx, ) .unwrap(); })?; Ok(acp::PromptResponse { stop_reason: acp::StopReason::EndTurn, }) } .boxed_local() }, )); let thread = cx .update(|cx| connection.new_thread(project, Path::new(path!("/test")), cx)) .await .unwrap(); thread .update(cx, |thread, cx| thread.send_raw("Hello from Zed!", cx)) .await .unwrap(); let output = thread.read_with(cx, |thread, cx| thread.to_markdown(cx)); assert_eq!( output, indoc! {r#" ## User Hello from Zed! ## Assistant Thinking hard! "#} ); } #[gpui::test] async fn test_edits_concurrently_to_user(cx: &mut TestAppContext) { init_test(cx); let fs = FakeFs::new(cx.executor()); fs.insert_tree(path!("/tmp"), json!({"foo": "one\ntwo\nthree\n"})) .await; let project = Project::test(fs.clone(), [], cx).await; let (read_file_tx, read_file_rx) = oneshot::channel::<()>(); let read_file_tx = Rc::new(RefCell::new(Some(read_file_tx))); let connection = Rc::new(FakeAgentConnection::new().on_user_message( move |_, thread, mut cx| { let read_file_tx = read_file_tx.clone(); async move { let content = thread .update(&mut cx, |thread, cx| { thread.read_text_file(path!("/tmp/foo").into(), None, None, false, cx) }) .unwrap() .await .unwrap(); assert_eq!(content, "one\ntwo\nthree\n"); read_file_tx.take().unwrap().send(()).unwrap(); thread .update(&mut cx, |thread, cx| { thread.write_text_file( path!("/tmp/foo").into(), "one\ntwo\nthree\nfour\nfive\n".to_string(), cx, ) }) .unwrap() .await .unwrap(); Ok(acp::PromptResponse { stop_reason: acp::StopReason::EndTurn, }) } .boxed_local() }, )); let (worktree, pathbuf) = project .update(cx, |project, cx| { project.find_or_create_worktree(path!("/tmp/foo"), true, cx) }) .await .unwrap(); let buffer = project .update(cx, |project, cx| { project.open_buffer((worktree.read(cx).id(), pathbuf), cx) }) .await .unwrap(); let thread = cx .update(|cx| connection.new_thread(project, Path::new(path!("/tmp")), cx)) .await .unwrap(); let request = thread.update(cx, |thread, cx| { thread.send_raw("Extend the count in /tmp/foo", cx) }); read_file_rx.await.ok(); buffer.update(cx, |buffer, cx| { buffer.edit([(0..0, "zero\n".to_string())], None, cx); }); cx.run_until_parked(); assert_eq!( buffer.read_with(cx, |buffer, _| buffer.text()), "zero\none\ntwo\nthree\nfour\nfive\n" ); assert_eq!( String::from_utf8(fs.read_file_sync(path!("/tmp/foo")).unwrap()).unwrap(), "zero\none\ntwo\nthree\nfour\nfive\n" ); request.await.unwrap(); } #[gpui::test] async fn test_succeeding_canceled_toolcall(cx: &mut TestAppContext) { init_test(cx); let fs = FakeFs::new(cx.executor()); let project = Project::test(fs, [], cx).await; let id = acp::ToolCallId("test".into()); let connection = Rc::new(FakeAgentConnection::new().on_user_message({ let id = id.clone(); move |_, thread, mut cx| { let id = id.clone(); async move { thread .update(&mut cx, |thread, cx| { thread.handle_session_update( acp::SessionUpdate::ToolCall(acp::ToolCall { id: id.clone(), title: "Label".into(), kind: acp::ToolKind::Fetch, status: acp::ToolCallStatus::InProgress, content: vec![], locations: vec![], raw_input: None, raw_output: None, }), cx, ) }) .unwrap() .unwrap(); Ok(acp::PromptResponse { stop_reason: acp::StopReason::EndTurn, }) } .boxed_local() } })); let thread = cx .update(|cx| connection.new_thread(project, Path::new(path!("/test")), cx)) .await .unwrap(); let request = thread.update(cx, |thread, cx| { thread.send_raw("Fetch https://example.com", cx) }); run_until_first_tool_call(&thread, cx).await; thread.read_with(cx, |thread, _| { assert!(matches!( thread.entries[1], AgentThreadEntry::ToolCall(ToolCall { status: ToolCallStatus::InProgress, .. }) )); }); thread.update(cx, |thread, cx| thread.cancel(cx)).await; thread.read_with(cx, |thread, _| { assert!(matches!( &thread.entries[1], AgentThreadEntry::ToolCall(ToolCall { status: ToolCallStatus::Canceled, .. }) )); }); thread .update(cx, |thread, cx| { thread.handle_session_update( acp::SessionUpdate::ToolCallUpdate(acp::ToolCallUpdate { id, fields: acp::ToolCallUpdateFields { status: Some(acp::ToolCallStatus::Completed), ..Default::default() }, }), cx, ) }) .unwrap(); request.await.unwrap(); thread.read_with(cx, |thread, _| { assert!(matches!( thread.entries[1], AgentThreadEntry::ToolCall(ToolCall { status: ToolCallStatus::Completed, .. }) )); }); } #[gpui::test] async fn test_no_pending_edits_if_tool_calls_are_completed(cx: &mut TestAppContext) { init_test(cx); let fs = FakeFs::new(cx.background_executor.clone()); fs.insert_tree(path!("/test"), json!({})).await; let project = Project::test(fs, [path!("/test").as_ref()], cx).await; let connection = Rc::new(FakeAgentConnection::new().on_user_message({ move |_, thread, mut cx| { async move { thread .update(&mut cx, |thread, cx| { thread.handle_session_update( acp::SessionUpdate::ToolCall(acp::ToolCall { id: acp::ToolCallId("test".into()), title: "Label".into(), kind: acp::ToolKind::Edit, status: acp::ToolCallStatus::Completed, content: vec![acp::ToolCallContent::Diff { diff: acp::Diff { path: "/test/test.txt".into(), old_text: None, new_text: "foo".into(), }, }], locations: vec![], raw_input: None, raw_output: None, }), cx, ) }) .unwrap() .unwrap(); Ok(acp::PromptResponse { stop_reason: acp::StopReason::EndTurn, }) } .boxed_local() } })); let thread = cx .update(|cx| connection.new_thread(project, Path::new(path!("/test")), cx)) .await .unwrap(); cx.update(|cx| thread.update(cx, |thread, cx| thread.send(vec!["Hi".into()], cx))) .await .unwrap(); assert!(cx.read(|cx| !thread.read(cx).has_pending_edit_tool_calls())); } #[gpui::test(iterations = 10)] async fn test_checkpoints(cx: &mut TestAppContext) { init_test(cx); let fs = FakeFs::new(cx.background_executor.clone()); fs.insert_tree( path!("/test"), json!({ ".git": {} }), ) .await; let project = Project::test(fs.clone(), [path!("/test").as_ref()], cx).await; let simulate_changes = Arc::new(AtomicBool::new(true)); let next_filename = Arc::new(AtomicUsize::new(0)); let connection = Rc::new(FakeAgentConnection::new().on_user_message({ let simulate_changes = simulate_changes.clone(); let next_filename = next_filename.clone(); let fs = fs.clone(); move |request, thread, mut cx| { let fs = fs.clone(); let simulate_changes = simulate_changes.clone(); let next_filename = next_filename.clone(); async move { if simulate_changes.load(SeqCst) { let filename = format!("/test/file-{}", next_filename.fetch_add(1, SeqCst)); fs.write(Path::new(&filename), b"").await?; } let acp::ContentBlock::Text(content) = &request.prompt[0] else { panic!("expected text content block"); }; thread.update(&mut cx, |thread, cx| { thread .handle_session_update( acp::SessionUpdate::AgentMessageChunk { content: content.text.to_uppercase().into(), }, cx, ) .unwrap(); })?; Ok(acp::PromptResponse { stop_reason: acp::StopReason::EndTurn, }) } .boxed_local() } })); let thread = cx .update(|cx| connection.new_thread(project, Path::new(path!("/test")), cx)) .await .unwrap(); cx.update(|cx| thread.update(cx, |thread, cx| thread.send(vec!["Lorem".into()], cx))) .await .unwrap(); thread.read_with(cx, |thread, cx| { assert_eq!( thread.to_markdown(cx), indoc! {" ## User (checkpoint) Lorem ## Assistant LOREM "} ); }); assert_eq!(fs.files(), vec![Path::new(path!("/test/file-0"))]); cx.update(|cx| thread.update(cx, |thread, cx| thread.send(vec!["ipsum".into()], cx))) .await .unwrap(); thread.read_with(cx, |thread, cx| { assert_eq!( thread.to_markdown(cx), indoc! {" ## User (checkpoint) Lorem ## Assistant LOREM ## User (checkpoint) ipsum ## Assistant IPSUM "} ); }); assert_eq!( fs.files(), vec![ Path::new(path!("/test/file-0")), Path::new(path!("/test/file-1")) ] ); // Checkpoint isn't stored when there are no changes. simulate_changes.store(false, SeqCst); cx.update(|cx| thread.update(cx, |thread, cx| thread.send(vec!["dolor".into()], cx))) .await .unwrap(); thread.read_with(cx, |thread, cx| { assert_eq!( thread.to_markdown(cx), indoc! {" ## User (checkpoint) Lorem ## Assistant LOREM ## User (checkpoint) ipsum ## Assistant IPSUM ## User dolor ## Assistant DOLOR "} ); }); assert_eq!( fs.files(), vec![ Path::new(path!("/test/file-0")), Path::new(path!("/test/file-1")) ] ); // Rewinding the conversation truncates the history and restores the checkpoint. thread .update(cx, |thread, cx| { let AgentThreadEntry::UserMessage(message) = &thread.entries[2] else { panic!("unexpected entries {:?}", thread.entries) }; thread.rewind(message.id.clone().unwrap(), cx) }) .await .unwrap(); thread.read_with(cx, |thread, cx| { assert_eq!( thread.to_markdown(cx), indoc! {" ## User (checkpoint) Lorem ## Assistant LOREM "} ); }); assert_eq!(fs.files(), vec![Path::new(path!("/test/file-0"))]); } #[gpui::test] async fn test_refusal(cx: &mut TestAppContext) { init_test(cx); let fs = FakeFs::new(cx.background_executor.clone()); fs.insert_tree(path!("/"), json!({})).await; let project = Project::test(fs.clone(), [path!("/").as_ref()], cx).await; let refuse_next = Arc::new(AtomicBool::new(false)); let connection = Rc::new(FakeAgentConnection::new().on_user_message({ let refuse_next = refuse_next.clone(); move |request, thread, mut cx| { let refuse_next = refuse_next.clone(); async move { if refuse_next.load(SeqCst) { return Ok(acp::PromptResponse { stop_reason: acp::StopReason::Refusal, }); } let acp::ContentBlock::Text(content) = &request.prompt[0] else { panic!("expected text content block"); }; thread.update(&mut cx, |thread, cx| { thread .handle_session_update( acp::SessionUpdate::AgentMessageChunk { content: content.text.to_uppercase().into(), }, cx, ) .unwrap(); })?; Ok(acp::PromptResponse { stop_reason: acp::StopReason::EndTurn, }) } .boxed_local() } })); let thread = cx .update(|cx| connection.new_thread(project, Path::new(path!("/test")), cx)) .await .unwrap(); cx.update(|cx| thread.update(cx, |thread, cx| thread.send(vec!["hello".into()], cx))) .await .unwrap(); thread.read_with(cx, |thread, cx| { assert_eq!( thread.to_markdown(cx), indoc! {" ## User hello ## Assistant HELLO "} ); }); // Simulate refusing the second message, ensuring the conversation gets // truncated to before sending it. refuse_next.store(true, SeqCst); cx.update(|cx| thread.update(cx, |thread, cx| thread.send(vec!["world".into()], cx))) .await .unwrap(); thread.read_with(cx, |thread, cx| { assert_eq!( thread.to_markdown(cx), indoc! {" ## User hello ## Assistant HELLO "} ); }); } async fn run_until_first_tool_call( thread: &Entity, cx: &mut TestAppContext, ) -> usize { let (mut tx, mut rx) = mpsc::channel::(1); let subscription = cx.update(|cx| { cx.subscribe(thread, move |thread, _, cx| { for (ix, entry) in thread.read(cx).entries.iter().enumerate() { if matches!(entry, AgentThreadEntry::ToolCall(_)) { return tx.try_send(ix).unwrap(); } } }) }); select! { _ = futures::FutureExt::fuse(smol::Timer::after(Duration::from_secs(10))) => { panic!("Timeout waiting for tool call") } ix = rx.next().fuse() => { drop(subscription); ix.unwrap() } } } #[derive(Clone, Default)] struct FakeAgentConnection { auth_methods: Vec, sessions: Arc>>>, on_user_message: Option< Rc< dyn Fn( acp::PromptRequest, WeakEntity, AsyncApp, ) -> LocalBoxFuture<'static, Result> + 'static, >, >, } impl FakeAgentConnection { fn new() -> Self { Self { auth_methods: Vec::new(), on_user_message: None, sessions: Arc::default(), } } #[expect(unused)] fn with_auth_methods(mut self, auth_methods: Vec) -> Self { self.auth_methods = auth_methods; self } fn on_user_message( mut self, handler: impl Fn( acp::PromptRequest, WeakEntity, AsyncApp, ) -> LocalBoxFuture<'static, Result> + 'static, ) -> Self { self.on_user_message.replace(Rc::new(handler)); self } } impl AgentConnection for FakeAgentConnection { fn auth_methods(&self) -> &[acp::AuthMethod] { &self.auth_methods } fn new_thread( self: Rc, project: Entity, _cwd: &Path, cx: &mut App, ) -> Task>> { let session_id = acp::SessionId( rand::thread_rng() .sample_iter(&rand::distributions::Alphanumeric) .take(7) .map(char::from) .collect::() .into(), ); let action_log = cx.new(|_| ActionLog::new(project.clone())); let thread = cx.new(|cx| { AcpThread::new( "Test", self.clone(), project, action_log, session_id.clone(), watch::Receiver::constant(acp::PromptCapabilities { image: true, audio: true, embedded_context: true, }), cx, ) }); self.sessions.lock().insert(session_id, thread.downgrade()); Task::ready(Ok(thread)) } fn authenticate(&self, method: acp::AuthMethodId, _cx: &mut App) -> Task> { if self.auth_methods().iter().any(|m| m.id == method) { Task::ready(Ok(())) } else { Task::ready(Err(anyhow!("Invalid Auth Method"))) } } fn prompt( &self, _id: Option, params: acp::PromptRequest, cx: &mut App, ) -> Task> { let sessions = self.sessions.lock(); let thread = sessions.get(¶ms.session_id).unwrap(); if let Some(handler) = &self.on_user_message { let handler = handler.clone(); let thread = thread.clone(); cx.spawn(async move |cx| handler(params, thread, cx.clone()).await) } else { Task::ready(Ok(acp::PromptResponse { stop_reason: acp::StopReason::EndTurn, })) } } fn cancel(&self, session_id: &acp::SessionId, cx: &mut App) { let sessions = self.sessions.lock(); let thread = sessions.get(session_id).unwrap().clone(); cx.spawn(async move |cx| { thread .update(cx, |thread, cx| thread.cancel(cx)) .unwrap() .await }) .detach(); } fn truncate( &self, session_id: &acp::SessionId, _cx: &App, ) -> Option> { Some(Rc::new(FakeAgentSessionEditor { _session_id: session_id.clone(), })) } fn into_any(self: Rc) -> Rc { self } } struct FakeAgentSessionEditor { _session_id: acp::SessionId, } impl AgentSessionTruncate for FakeAgentSessionEditor { fn run(&self, _message_id: UserMessageId, _cx: &mut App) -> Task> { Task::ready(Ok(())) } } }