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24c7be7da05824d8e4ae2da5522f214fae8deab2
llmx/codex-rs/tui/src/chatwidget.rs
Jeremy Rose 16d16a4ddc refactor: move slash command handling into chatwidget (#2536) 
no functional change, just moving the code that handles /foo into
chatwidget, since most commands just do things with chatwidget.
2025-08-21 10:36:58 -07:00

1098 lines
40 KiB
Rust
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use std::collections::HashMap;
use std::path::PathBuf;
use std::sync::Arc;
use codex_core::config::Config;
use codex_core::protocol::AgentMessageDeltaEvent;
use codex_core::protocol::AgentMessageEvent;
use codex_core::protocol::AgentReasoningDeltaEvent;
use codex_core::protocol::AgentReasoningEvent;
use codex_core::protocol::AgentReasoningRawContentDeltaEvent;
use codex_core::protocol::AgentReasoningRawContentEvent;
use codex_core::protocol::ApplyPatchApprovalRequestEvent;
use codex_core::protocol::BackgroundEventEvent;
use codex_core::protocol::ErrorEvent;
use codex_core::protocol::Event;
use codex_core::protocol::EventMsg;
use codex_core::protocol::ExecApprovalRequestEvent;
use codex_core::protocol::ExecCommandBeginEvent;
use codex_core::protocol::ExecCommandEndEvent;
use codex_core::protocol::InputItem;
use codex_core::protocol::McpListToolsResponseEvent;
use codex_core::protocol::McpToolCallBeginEvent;
use codex_core::protocol::McpToolCallEndEvent;
use codex_core::protocol::Op;
use codex_core::protocol::PatchApplyBeginEvent;
use codex_core::protocol::StreamErrorEvent;
use codex_core::protocol::TaskCompleteEvent;
use codex_core::protocol::TokenUsage;
use codex_core::protocol::TurnDiffEvent;
use codex_protocol::parse_command::ParsedCommand;
use crossterm::event::KeyEvent;
use crossterm::event::KeyEventKind;
use rand::Rng;
use ratatui::buffer::Buffer;
use ratatui::layout::Constraint;
use ratatui::layout::Layout;
use ratatui::layout::Rect;
use ratatui::widgets::Widget;
use ratatui::widgets::WidgetRef;
use tokio::sync::mpsc::UnboundedSender;
use tracing::debug;
use crate::app_event::AppEvent;
use crate::app_event_sender::AppEventSender;
use crate::bottom_pane::BottomPane;
use crate::bottom_pane::BottomPaneParams;
use crate::bottom_pane::CancellationEvent;
use crate::bottom_pane::InputResult;
use crate::bottom_pane::SelectionAction;
use crate::bottom_pane::SelectionItem;
use crate::get_git_diff::get_git_diff;
use crate::history_cell;
use crate::history_cell::CommandOutput;
use crate::history_cell::ExecCell;
use crate::history_cell::HistoryCell;
use crate::history_cell::PatchEventType;
use crate::slash_command::SlashCommand;
use crate::tui::FrameRequester;
// streaming internals are provided by crate::streaming and crate::markdown_stream
use crate::user_approval_widget::ApprovalRequest;
mod interrupts;
use self::interrupts::InterruptManager;
mod agent;
use self::agent::spawn_agent;
use crate::streaming::controller::AppEventHistorySink;
use crate::streaming::controller::StreamController;
use codex_common::approval_presets::ApprovalPreset;
use codex_common::approval_presets::builtin_approval_presets;
use codex_common::model_presets::ModelPreset;
use codex_common::model_presets::builtin_model_presets;
use codex_core::ConversationManager;
use codex_core::protocol::AskForApproval;
use codex_core::protocol::SandboxPolicy;
use codex_core::protocol_config_types::ReasoningEffort as ReasoningEffortConfig;
use codex_file_search::FileMatch;
use uuid::Uuid;
// Track information about an in-flight exec command.
struct RunningCommand {
command: Vec<String>,
parsed_cmd: Vec<ParsedCommand>,
}
pub(crate) struct ChatWidget {
app_event_tx: AppEventSender,
codex_op_tx: UnboundedSender<Op>,
bottom_pane: BottomPane,
active_exec_cell: Option<ExecCell>,
config: Config,
initial_user_message: Option<UserMessage>,
total_token_usage: TokenUsage,
last_token_usage: TokenUsage,
// Stream lifecycle controller
stream: StreamController,
running_commands: HashMap<String, RunningCommand>,
pending_exec_completions: Vec<(Vec<String>, Vec<ParsedCommand>, CommandOutput)>,
task_complete_pending: bool,
// Queue of interruptive UI events deferred during an active write cycle
interrupts: InterruptManager,
// Whether a redraw is needed after handling the current event
needs_redraw: bool,
// Accumulates the current reasoning block text to extract a header
reasoning_buffer: String,
// Accumulates full reasoning content for transcript-only recording
full_reasoning_buffer: String,
session_id: Option<Uuid>,
frame_requester: FrameRequester,
}
struct UserMessage {
text: String,
image_paths: Vec<PathBuf>,
}
impl From<String> for UserMessage {
fn from(text: String) -> Self {
Self {
text,
image_paths: Vec::new(),
}
}
}
fn create_initial_user_message(text: String, image_paths: Vec<PathBuf>) -> Option<UserMessage> {
if text.is_empty() && image_paths.is_empty() {
None
} else {
Some(UserMessage { text, image_paths })
}
}
impl ChatWidget {
#[inline]
fn mark_needs_redraw(&mut self) {
self.needs_redraw = true;
}
fn flush_answer_stream_with_separator(&mut self) {
let sink = AppEventHistorySink(self.app_event_tx.clone());
let _ = self.stream.finalize(true, &sink);
}
// --- Small event handlers ---
fn on_session_configured(&mut self, event: codex_core::protocol::SessionConfiguredEvent) {
self.bottom_pane
.set_history_metadata(event.history_log_id, event.history_entry_count);
self.session_id = Some(event.session_id);
self.add_to_history(history_cell::new_session_info(&self.config, event, true));
if let Some(user_message) = self.initial_user_message.take() {
self.submit_user_message(user_message);
}
self.mark_needs_redraw();
}
fn on_agent_message(&mut self, message: String) {
let sink = AppEventHistorySink(self.app_event_tx.clone());
let finished = self.stream.apply_final_answer(&message, &sink);
self.handle_if_stream_finished(finished);
self.mark_needs_redraw();
}
fn on_agent_message_delta(&mut self, delta: String) {
self.handle_streaming_delta(delta);
}
fn on_agent_reasoning_delta(&mut self, delta: String) {
// For reasoning deltas, do not stream to history. Accumulate the
// current reasoning block and extract the first bold element
// (between **/**) as the chunk header. Show this header as status.
self.reasoning_buffer.push_str(&delta);
if let Some(header) = extract_first_bold(&self.reasoning_buffer) {
// Update the shimmer header to the extracted reasoning chunk header.
self.bottom_pane.update_status_header(header);
} else {
// Fallback while we don't yet have a bold header: leave existing header as-is.
}
self.mark_needs_redraw();
}
fn on_agent_reasoning_final(&mut self) {
// At the end of a reasoning block, record transcript-only content.
self.full_reasoning_buffer.push_str(&self.reasoning_buffer);
if !self.full_reasoning_buffer.is_empty() {
self.add_to_history(history_cell::new_reasoning_block(
self.full_reasoning_buffer.clone(),
&self.config,
));
}
self.reasoning_buffer.clear();
self.full_reasoning_buffer.clear();
self.mark_needs_redraw();
}
fn on_reasoning_section_break(&mut self) {
// Start a new reasoning block for header extraction and accumulate transcript.
self.full_reasoning_buffer.push_str(&self.reasoning_buffer);
self.full_reasoning_buffer.push_str("\n\n");
self.reasoning_buffer.clear();
}
// Raw reasoning uses the same flow as summarized reasoning
fn on_task_started(&mut self) {
self.bottom_pane.clear_ctrl_c_quit_hint();
self.bottom_pane.set_task_running(true);
self.stream.reset_headers_for_new_turn();
self.full_reasoning_buffer.clear();
self.reasoning_buffer.clear();
self.mark_needs_redraw();
}
fn on_task_complete(&mut self) {
// If a stream is currently active, finalize only that stream to flush any tail
// without emitting stray headers for other streams.
if self.stream.is_write_cycle_active() {
let sink = AppEventHistorySink(self.app_event_tx.clone());
let _ = self.stream.finalize(true, &sink);
}
// Mark task stopped and request redraw now that all content is in history.
self.bottom_pane.set_task_running(false);
self.running_commands.clear();
self.mark_needs_redraw();
}
fn on_token_count(&mut self, token_usage: TokenUsage) {
self.total_token_usage = add_token_usage(&self.total_token_usage, &token_usage);
self.last_token_usage = token_usage;
self.bottom_pane.set_token_usage(
self.total_token_usage.clone(),
self.last_token_usage.clone(),
self.config.model_context_window,
);
}
fn on_error(&mut self, message: String) {
self.add_to_history(history_cell::new_error_event(message));
self.bottom_pane.set_task_running(false);
self.running_commands.clear();
self.stream.clear_all();
self.mark_needs_redraw();
}
fn on_plan_update(&mut self, update: codex_core::plan_tool::UpdatePlanArgs) {
self.add_to_history(history_cell::new_plan_update(update));
}
fn on_exec_approval_request(&mut self, id: String, ev: ExecApprovalRequestEvent) {
let id2 = id.clone();
let ev2 = ev.clone();
self.defer_or_handle(
|q| q.push_exec_approval(id, ev),
|s| s.handle_exec_approval_now(id2, ev2),
);
}
fn on_apply_patch_approval_request(&mut self, id: String, ev: ApplyPatchApprovalRequestEvent) {
let id2 = id.clone();
let ev2 = ev.clone();
self.defer_or_handle(
|q| q.push_apply_patch_approval(id, ev),
|s| s.handle_apply_patch_approval_now(id2, ev2),
);
}
fn on_exec_command_begin(&mut self, ev: ExecCommandBeginEvent) {
self.flush_answer_stream_with_separator();
let ev2 = ev.clone();
self.defer_or_handle(|q| q.push_exec_begin(ev), |s| s.handle_exec_begin_now(ev2));
}
fn on_exec_command_output_delta(
&mut self,
_ev: codex_core::protocol::ExecCommandOutputDeltaEvent,
) {
// TODO: Handle streaming exec output if/when implemented
}
fn on_patch_apply_begin(&mut self, event: PatchApplyBeginEvent) {
self.add_to_history(history_cell::new_patch_event(
PatchEventType::ApplyBegin {
auto_approved: event.auto_approved,
},
event.changes,
));
}
fn on_patch_apply_end(&mut self, event: codex_core::protocol::PatchApplyEndEvent) {
let ev2 = event.clone();
self.defer_or_handle(
|q| q.push_patch_end(event),
|s| s.handle_patch_apply_end_now(ev2),
);
}
fn on_exec_command_end(&mut self, ev: ExecCommandEndEvent) {
let ev2 = ev.clone();
self.defer_or_handle(|q| q.push_exec_end(ev), |s| s.handle_exec_end_now(ev2));
}
fn on_mcp_tool_call_begin(&mut self, ev: McpToolCallBeginEvent) {
let ev2 = ev.clone();
self.defer_or_handle(|q| q.push_mcp_begin(ev), |s| s.handle_mcp_begin_now(ev2));
}
fn on_mcp_tool_call_end(&mut self, ev: McpToolCallEndEvent) {
let ev2 = ev.clone();
self.defer_or_handle(|q| q.push_mcp_end(ev), |s| s.handle_mcp_end_now(ev2));
}
fn on_get_history_entry_response(
&mut self,
event: codex_core::protocol::GetHistoryEntryResponseEvent,
) {
let codex_core::protocol::GetHistoryEntryResponseEvent {
offset,
log_id,
entry,
} = event;
self.bottom_pane
.on_history_entry_response(log_id, offset, entry.map(|e| e.text));
}
fn on_shutdown_complete(&mut self) {
self.app_event_tx.send(AppEvent::ExitRequest);
}
fn on_turn_diff(&mut self, unified_diff: String) {
debug!("TurnDiffEvent: {unified_diff}");
}
fn on_background_event(&mut self, message: String) {
debug!("BackgroundEvent: {message}");
}
fn on_stream_error(&mut self, message: String) {
// Show stream errors in the transcript so users see retry/backoff info.
self.add_to_history(history_cell::new_stream_error_event(message));
self.mark_needs_redraw();
}
/// Periodic tick to commit at most one queued line to history with a small delay,
/// animating the output.
pub(crate) fn on_commit_tick(&mut self) {
let sink = AppEventHistorySink(self.app_event_tx.clone());
let finished = self.stream.on_commit_tick(&sink);
self.handle_if_stream_finished(finished);
}
fn is_write_cycle_active(&self) -> bool {
self.stream.is_write_cycle_active()
}
fn flush_interrupt_queue(&mut self) {
let mut mgr = std::mem::take(&mut self.interrupts);
mgr.flush_all(self);
self.interrupts = mgr;
}
#[inline]
fn defer_or_handle(
&mut self,
push: impl FnOnce(&mut InterruptManager),
handle: impl FnOnce(&mut Self),
) {
// Preserve deterministic FIFO across queued interrupts: once anything
// is queued due to an active write cycle, continue queueing until the
// queue is flushed to avoid reordering (e.g., ExecEnd before ExecBegin).
if self.is_write_cycle_active() || !self.interrupts.is_empty() {
push(&mut self.interrupts);
} else {
handle(self);
}
}
#[inline]
fn handle_if_stream_finished(&mut self, finished: bool) {
if finished {
if self.task_complete_pending {
self.bottom_pane.set_task_running(false);
self.task_complete_pending = false;
}
self.flush_interrupt_queue();
}
}
#[inline]
fn handle_streaming_delta(&mut self, delta: String) {
let sink = AppEventHistorySink(self.app_event_tx.clone());
self.stream.begin(&sink);
self.stream.push_and_maybe_commit(&delta, &sink);
self.mark_needs_redraw();
}
pub(crate) fn handle_exec_end_now(&mut self, ev: ExecCommandEndEvent) {
let running = self.running_commands.remove(&ev.call_id);
let (command, parsed) = match running {
Some(rc) => (rc.command, rc.parsed_cmd),
None => (vec![ev.call_id.clone()], Vec::new()),
};
self.pending_exec_completions.push((
command,
parsed,
CommandOutput {
exit_code: ev.exit_code,
stdout: ev.stdout.clone(),
stderr: ev.stderr.clone(),
},
));
if self.running_commands.is_empty() {
self.active_exec_cell = None;
let pending = std::mem::take(&mut self.pending_exec_completions);
for (command, parsed, output) in pending {
self.add_to_history(history_cell::new_completed_exec_command(
command, parsed, output,
));
}
}
}
pub(crate) fn handle_patch_apply_end_now(
&mut self,
event: codex_core::protocol::PatchApplyEndEvent,
) {
if event.success {
self.add_to_history(history_cell::new_patch_apply_success(event.stdout));
} else {
self.add_to_history(history_cell::new_patch_apply_failure(event.stderr));
}
}
pub(crate) fn handle_exec_approval_now(&mut self, id: String, ev: ExecApprovalRequestEvent) {
self.flush_answer_stream_with_separator();
let request = ApprovalRequest::Exec {
id,
command: ev.command,
reason: ev.reason,
};
self.bottom_pane.push_approval_request(request);
self.mark_needs_redraw();
}
pub(crate) fn handle_apply_patch_approval_now(
&mut self,
id: String,
ev: ApplyPatchApprovalRequestEvent,
) {
self.flush_answer_stream_with_separator();
self.add_to_history(history_cell::new_patch_event(
PatchEventType::ApprovalRequest,
ev.changes.clone(),
));
let request = ApprovalRequest::ApplyPatch {
id,
reason: ev.reason,
grant_root: ev.grant_root,
};
self.bottom_pane.push_approval_request(request);
self.mark_needs_redraw();
}
pub(crate) fn handle_exec_begin_now(&mut self, ev: ExecCommandBeginEvent) {
// Ensure the status indicator is visible while the command runs.
self.running_commands.insert(
ev.call_id.clone(),
RunningCommand {
command: ev.command.clone(),
parsed_cmd: ev.parsed_cmd.clone(),
},
);
// Accumulate parsed commands into a single active Exec cell so they stack
match self.active_exec_cell.as_mut() {
Some(exec) => {
exec.parsed.extend(ev.parsed_cmd);
}
_ => {
self.active_exec_cell = Some(history_cell::new_active_exec_command(
ev.command,
ev.parsed_cmd,
));
}
}
// Request a redraw so the working header and command list are visible immediately.
self.mark_needs_redraw();
}
pub(crate) fn handle_mcp_begin_now(&mut self, ev: McpToolCallBeginEvent) {
self.flush_answer_stream_with_separator();
self.add_to_history(history_cell::new_active_mcp_tool_call(ev.invocation));
}
pub(crate) fn handle_mcp_end_now(&mut self, ev: McpToolCallEndEvent) {
self.flush_answer_stream_with_separator();
self.add_boxed_history(history_cell::new_completed_mcp_tool_call(
80,
ev.invocation,
ev.duration,
ev.result
.as_ref()
.map(|r| !r.is_error.unwrap_or(false))
.unwrap_or(false),
ev.result,
));
}
fn interrupt_running_task(&mut self) {
if self.bottom_pane.is_task_running() {
self.active_exec_cell = None;
self.running_commands.clear();
self.bottom_pane.clear_ctrl_c_quit_hint();
self.submit_op(Op::Interrupt);
self.bottom_pane.set_task_running(false);
self.stream.clear_all();
self.request_redraw();
}
}
fn layout_areas(&self, area: Rect) -> [Rect; 2] {
Layout::vertical([
Constraint::Max(
self.active_exec_cell
.as_ref()
.map_or(0, |c| c.desired_height(area.width)),
),
Constraint::Min(self.bottom_pane.desired_height(area.width)),
])
.areas(area)
}
pub(crate) fn new(
config: Config,
conversation_manager: Arc<ConversationManager>,
frame_requester: FrameRequester,
app_event_tx: AppEventSender,
initial_prompt: Option<String>,
initial_images: Vec<PathBuf>,
enhanced_keys_supported: bool,
) -> Self {
let mut rng = rand::rng();
let placeholder = EXAMPLE_PROMPTS[rng.random_range(0..EXAMPLE_PROMPTS.len())].to_string();
let codex_op_tx = spawn_agent(config.clone(), app_event_tx.clone(), conversation_manager);
Self {
app_event_tx: app_event_tx.clone(),
frame_requester: frame_requester.clone(),
codex_op_tx,
bottom_pane: BottomPane::new(BottomPaneParams {
frame_requester,
app_event_tx,
has_input_focus: true,
enhanced_keys_supported,
placeholder_text: placeholder,
}),
active_exec_cell: None,
config: config.clone(),
initial_user_message: create_initial_user_message(
initial_prompt.unwrap_or_default(),
initial_images,
),
total_token_usage: TokenUsage::default(),
last_token_usage: TokenUsage::default(),
stream: StreamController::new(config),
running_commands: HashMap::new(),
pending_exec_completions: Vec::new(),
task_complete_pending: false,
interrupts: InterruptManager::new(),
needs_redraw: false,
reasoning_buffer: String::new(),
full_reasoning_buffer: String::new(),
session_id: None,
}
}
pub fn desired_height(&self, width: u16) -> u16 {
self.bottom_pane.desired_height(width)
+ self
.active_exec_cell
.as_ref()
.map_or(0, |c| c.desired_height(width))
}
pub(crate) fn handle_key_event(&mut self, key_event: KeyEvent) {
if key_event.kind == KeyEventKind::Press {
self.bottom_pane.clear_ctrl_c_quit_hint();
}
match self.bottom_pane.handle_key_event(key_event) {
InputResult::Submitted(text) => {
self.submit_user_message(text.into());
}
InputResult::Command(cmd) => {
self.dispatch_command(cmd);
}
InputResult::None => {}
}
}
fn dispatch_command(&mut self, cmd: SlashCommand) {
match cmd {
SlashCommand::New => {
self.app_event_tx.send(AppEvent::NewSession);
}
SlashCommand::Init => {
// Guard: do not run if a task is active.
const INIT_PROMPT: &str = include_str!("../prompt_for_init_command.md");
self.submit_text_message(INIT_PROMPT.to_string());
}
SlashCommand::Compact => {
self.clear_token_usage();
self.app_event_tx.send(AppEvent::CodexOp(Op::Compact));
}
SlashCommand::Model => {
self.open_model_popup();
}
SlashCommand::Approvals => {
self.open_approvals_popup();
}
SlashCommand::Quit => {
self.app_event_tx.send(AppEvent::ExitRequest);
}
SlashCommand::Logout => {
if let Err(e) = codex_login::logout(&self.config.codex_home) {
tracing::error!("failed to logout: {e}");
}
self.app_event_tx.send(AppEvent::ExitRequest);
}
SlashCommand::Diff => {
self.add_diff_in_progress();
let tx = self.app_event_tx.clone();
tokio::spawn(async move {
let text = match get_git_diff().await {
Ok((is_git_repo, diff_text)) => {
if is_git_repo {
diff_text
} else {
"`/diff` — _not inside a git repository_".to_string()
}
}
Err(e) => format!("Failed to compute diff: {e}"),
};
tx.send(AppEvent::DiffResult(text));
});
}
SlashCommand::Mention => {
self.insert_str("@");
}
SlashCommand::Status => {
self.add_status_output();
}
SlashCommand::Mcp => {
self.add_mcp_output();
}
#[cfg(debug_assertions)]
SlashCommand::TestApproval => {
use codex_core::protocol::EventMsg;
use std::collections::HashMap;
use codex_core::protocol::ApplyPatchApprovalRequestEvent;
use codex_core::protocol::FileChange;
self.app_event_tx.send(AppEvent::CodexEvent(Event {
id: "1".to_string(),
// msg: EventMsg::ExecApprovalRequest(ExecApprovalRequestEvent {
// call_id: "1".to_string(),
// command: vec!["git".into(), "apply".into()],
// cwd: self.config.cwd.clone(),
// reason: Some("test".to_string()),
// }),
msg: EventMsg::ApplyPatchApprovalRequest(ApplyPatchApprovalRequestEvent {
call_id: "1".to_string(),
changes: HashMap::from([
(
PathBuf::from("/tmp/test.txt"),
FileChange::Add {
content: "test".to_string(),
},
),
(
PathBuf::from("/tmp/test2.txt"),
FileChange::Update {
unified_diff: "+test\n-test2".to_string(),
move_path: None,
},
),
]),
reason: None,
grant_root: Some(PathBuf::from("/tmp")),
}),
}));
}
}
}
pub(crate) fn handle_paste(&mut self, text: String) {
self.bottom_pane.handle_paste(text);
}
fn flush_active_exec_cell(&mut self) {
if let Some(active) = self.active_exec_cell.take() {
self.app_event_tx
.send(AppEvent::InsertHistoryCell(Box::new(active)));
}
}
fn add_to_history(&mut self, cell: impl HistoryCell + 'static) {
self.flush_active_exec_cell();
self.app_event_tx
.send(AppEvent::InsertHistoryCell(Box::new(cell)));
}
fn add_boxed_history(&mut self, cell: Box<dyn HistoryCell>) {
self.flush_active_exec_cell();
self.app_event_tx.send(AppEvent::InsertHistoryCell(cell));
}
fn submit_user_message(&mut self, user_message: UserMessage) {
let UserMessage { text, image_paths } = user_message;
let mut items: Vec<InputItem> = Vec::new();
if !text.is_empty() {
items.push(InputItem::Text { text: text.clone() });
}
for path in image_paths {
items.push(InputItem::LocalImage { path });
}
if items.is_empty() {
return;
}
self.codex_op_tx
.send(Op::UserInput { items })
.unwrap_or_else(|e| {
tracing::error!("failed to send message: {e}");
});
// Persist the text to cross-session message history.
if !text.is_empty() {
self.codex_op_tx
.send(Op::AddToHistory { text: text.clone() })
.unwrap_or_else(|e| {
tracing::error!("failed to send AddHistory op: {e}");
});
}
// Only show the text portion in conversation history.
if !text.is_empty() {
self.add_to_history(history_cell::new_user_prompt(text.clone()));
}
}
pub(crate) fn handle_codex_event(&mut self, event: Event) {
// Reset redraw flag for this dispatch
self.needs_redraw = false;
let Event { id, msg } = event;
match msg {
EventMsg::AgentMessageDelta(_)
| EventMsg::AgentReasoningDelta(_)
| EventMsg::ExecCommandOutputDelta(_) => {}
_ => {
tracing::trace!("handle_codex_event: {:?}", msg);
}
}
match msg {
EventMsg::SessionConfigured(e) => self.on_session_configured(e),
EventMsg::AgentMessage(AgentMessageEvent { message }) => self.on_agent_message(message),
EventMsg::AgentMessageDelta(AgentMessageDeltaEvent { delta }) => {
self.on_agent_message_delta(delta)
}
EventMsg::AgentReasoningDelta(AgentReasoningDeltaEvent { delta })
| EventMsg::AgentReasoningRawContentDelta(AgentReasoningRawContentDeltaEvent {
delta,
}) => self.on_agent_reasoning_delta(delta),
EventMsg::AgentReasoning(AgentReasoningEvent { .. })
| EventMsg::AgentReasoningRawContent(AgentReasoningRawContentEvent { .. }) => {
self.on_agent_reasoning_final()
}
EventMsg::AgentReasoningSectionBreak(_) => self.on_reasoning_section_break(),
EventMsg::TaskStarted => self.on_task_started(),
EventMsg::TaskComplete(TaskCompleteEvent { .. }) => self.on_task_complete(),
EventMsg::TokenCount(token_usage) => self.on_token_count(token_usage),
EventMsg::Error(ErrorEvent { message }) => self.on_error(message),
EventMsg::TurnAborted(_) => self.on_error("Turn interrupted".to_owned()),
EventMsg::PlanUpdate(update) => self.on_plan_update(update),
EventMsg::ExecApprovalRequest(ev) => self.on_exec_approval_request(id, ev),
EventMsg::ApplyPatchApprovalRequest(ev) => self.on_apply_patch_approval_request(id, ev),
EventMsg::ExecCommandBegin(ev) => self.on_exec_command_begin(ev),
EventMsg::ExecCommandOutputDelta(delta) => self.on_exec_command_output_delta(delta),
EventMsg::PatchApplyBegin(ev) => self.on_patch_apply_begin(ev),
EventMsg::PatchApplyEnd(ev) => self.on_patch_apply_end(ev),
EventMsg::ExecCommandEnd(ev) => self.on_exec_command_end(ev),
EventMsg::McpToolCallBegin(ev) => self.on_mcp_tool_call_begin(ev),
EventMsg::McpToolCallEnd(ev) => self.on_mcp_tool_call_end(ev),
EventMsg::GetHistoryEntryResponse(ev) => self.on_get_history_entry_response(ev),
EventMsg::McpListToolsResponse(ev) => self.on_list_mcp_tools(ev),
EventMsg::ShutdownComplete => self.on_shutdown_complete(),
EventMsg::TurnDiff(TurnDiffEvent { unified_diff }) => self.on_turn_diff(unified_diff),
EventMsg::BackgroundEvent(BackgroundEventEvent { message }) => {
self.on_background_event(message)
}
EventMsg::StreamError(StreamErrorEvent { message }) => self.on_stream_error(message),
}
// Coalesce redraws: issue at most one after handling the event
if self.needs_redraw {
self.request_redraw();
self.needs_redraw = false;
}
}
fn request_redraw(&mut self) {
self.frame_requester.schedule_frame();
}
pub(crate) fn add_diff_in_progress(&mut self) {
self.bottom_pane.set_task_running(true);
self.bottom_pane
.update_status_text("computing diff".to_string());
self.request_redraw();
}
pub(crate) fn add_diff_output(&mut self, diff_output: String) {
self.bottom_pane.set_task_running(false);
self.add_to_history(history_cell::new_diff_output(diff_output));
self.mark_needs_redraw();
}
pub(crate) fn add_status_output(&mut self) {
self.add_to_history(history_cell::new_status_output(
&self.config,
&self.total_token_usage,
&self.session_id,
));
}
/// Open a popup to choose the model preset (model + reasoning effort).
pub(crate) fn open_model_popup(&mut self) {
let current_model = self.config.model.clone();
let current_effort = self.config.model_reasoning_effort;
let presets: &[ModelPreset] = builtin_model_presets();
let mut items: Vec<SelectionItem> = Vec::new();
for preset in presets.iter() {
let name = preset.label.to_string();
let description = Some(preset.description.to_string());
let is_current = preset.model == current_model && preset.effort == current_effort;
let model_slug = preset.model.to_string();
let effort = preset.effort;
let actions: Vec<SelectionAction> = vec![Box::new(move |tx| {
tx.send(AppEvent::CodexOp(Op::OverrideTurnContext {
cwd: None,
approval_policy: None,
sandbox_policy: None,
model: Some(model_slug.clone()),
effort: Some(effort),
summary: None,
}));
tx.send(AppEvent::UpdateModel(model_slug.clone()));
tx.send(AppEvent::UpdateReasoningEffort(effort));
})];
items.push(SelectionItem {
name,
description,
is_current,
actions,
});
}
self.bottom_pane.show_selection_view(
"Select model and reasoning level".to_string(),
Some("Switch between OpenAI models for this and future Codex CLI session".to_string()),
Some("Press Enter to confirm or Esc to go back".to_string()),
items,
);
}
/// Open a popup to choose the approvals mode (ask for approval policy + sandbox policy).
pub(crate) fn open_approvals_popup(&mut self) {
let current_approval = self.config.approval_policy;
let current_sandbox = self.config.sandbox_policy.clone();
let mut items: Vec<SelectionItem> = Vec::new();
let presets: Vec<ApprovalPreset> = builtin_approval_presets();
for preset in presets.into_iter() {
let is_current =
current_approval == preset.approval && current_sandbox == preset.sandbox;
let approval = preset.approval;
let sandbox = preset.sandbox.clone();
let name = preset.label.to_string();
let description = Some(preset.description.to_string());
let actions: Vec<SelectionAction> = vec![Box::new(move |tx| {
tx.send(AppEvent::CodexOp(Op::OverrideTurnContext {
cwd: None,
approval_policy: Some(approval),
sandbox_policy: Some(sandbox.clone()),
model: None,
effort: None,
summary: None,
}));
tx.send(AppEvent::UpdateAskForApprovalPolicy(approval));
tx.send(AppEvent::UpdateSandboxPolicy(sandbox.clone()));
})];
items.push(SelectionItem {
name,
description,
is_current,
actions,
});
}
self.bottom_pane.show_selection_view(
"Select Approval Mode".to_string(),
None,
Some("Press Enter to confirm or Esc to go back".to_string()),
items,
);
}
/// Set the approval policy in the widget's config copy.
pub(crate) fn set_approval_policy(&mut self, policy: AskForApproval) {
self.config.approval_policy = policy;
}
/// Set the sandbox policy in the widget's config copy.
pub(crate) fn set_sandbox_policy(&mut self, policy: SandboxPolicy) {
self.config.sandbox_policy = policy;
}
/// Set the reasoning effort in the widget's config copy.
pub(crate) fn set_reasoning_effort(&mut self, effort: ReasoningEffortConfig) {
self.config.model_reasoning_effort = effort;
}
/// Set the model in the widget's config copy.
pub(crate) fn set_model(&mut self, model: String) {
self.config.model = model;
}
pub(crate) fn add_mcp_output(&mut self) {
if self.config.mcp_servers.is_empty() {
self.add_to_history(history_cell::empty_mcp_output());
} else {
self.submit_op(Op::ListMcpTools);
}
}
/// Forward file-search results to the bottom pane.
pub(crate) fn apply_file_search_result(&mut self, query: String, matches: Vec<FileMatch>) {
self.bottom_pane.on_file_search_result(query, matches);
}
/// Handle Ctrl-C key press.
/// Returns CancellationEvent::Handled if the event was consumed by the UI, or
/// CancellationEvent::Ignored if the caller should handle it (e.g. exit).
pub(crate) fn on_ctrl_c(&mut self) -> CancellationEvent {
match self.bottom_pane.on_ctrl_c() {
CancellationEvent::Handled => return CancellationEvent::Handled,
CancellationEvent::Ignored => {}
}
if self.bottom_pane.is_task_running() {
self.interrupt_running_task();
CancellationEvent::Ignored
} else if self.bottom_pane.ctrl_c_quit_hint_visible() {
self.submit_op(Op::Shutdown);
CancellationEvent::Handled
} else {
self.bottom_pane.show_ctrl_c_quit_hint();
CancellationEvent::Ignored
}
}
pub(crate) fn composer_is_empty(&self) -> bool {
self.bottom_pane.composer_is_empty()
}
pub(crate) fn insert_str(&mut self, text: &str) {
self.bottom_pane.insert_str(text);
}
/// Forward an `Op` directly to codex.
pub(crate) fn submit_op(&self, op: Op) {
// Record outbound operation for session replay fidelity.
crate::session_log::log_outbound_op(&op);
if let Err(e) = self.codex_op_tx.send(op) {
tracing::error!("failed to submit op: {e}");
}
}
fn on_list_mcp_tools(&mut self, ev: McpListToolsResponseEvent) {
self.add_to_history(history_cell::new_mcp_tools_output(&self.config, ev.tools));
}
/// Programmatically submit a user text message as if typed in the
/// composer. The text will be added to conversation history and sent to
/// the agent.
pub(crate) fn submit_text_message(&mut self, text: String) {
if text.is_empty() {
return;
}
self.submit_user_message(text.into());
}
pub(crate) fn token_usage(&self) -> &TokenUsage {
&self.total_token_usage
}
pub(crate) fn clear_token_usage(&mut self) {
self.total_token_usage = TokenUsage::default();
self.bottom_pane.set_token_usage(
self.total_token_usage.clone(),
self.last_token_usage.clone(),
self.config.model_context_window,
);
}
pub fn cursor_pos(&self, area: Rect) -> Option<(u16, u16)> {
let [_, bottom_pane_area] = self.layout_areas(area);
self.bottom_pane.cursor_pos(bottom_pane_area)
}
}
impl WidgetRef for &ChatWidget {
fn render_ref(&self, area: Rect, buf: &mut Buffer) {
let [active_cell_area, bottom_pane_area] = self.layout_areas(area);
(&self.bottom_pane).render(bottom_pane_area, buf);
if let Some(cell) = &self.active_exec_cell {
cell.render_ref(active_cell_area, buf);
}
}
}
const EXAMPLE_PROMPTS: [&str; 6] = [
"Explain this codebase",
"Summarize recent commits",
"Implement {feature}",
"Find and fix a bug in @filename",
"Write tests for @filename",
"Improve documentation in @filename",
];
fn add_token_usage(current_usage: &TokenUsage, new_usage: &TokenUsage) -> TokenUsage {
let cached_input_tokens = match (
current_usage.cached_input_tokens,
new_usage.cached_input_tokens,
) {
(Some(current), Some(new)) => Some(current + new),
(Some(current), None) => Some(current),
(None, Some(new)) => Some(new),
(None, None) => None,
};
let reasoning_output_tokens = match (
current_usage.reasoning_output_tokens,
new_usage.reasoning_output_tokens,
) {
(Some(current), Some(new)) => Some(current + new),
(Some(current), None) => Some(current),
(None, Some(new)) => Some(new),
(None, None) => None,
};
TokenUsage {
input_tokens: current_usage.input_tokens + new_usage.input_tokens,
cached_input_tokens,
output_tokens: current_usage.output_tokens + new_usage.output_tokens,
reasoning_output_tokens,
total_tokens: current_usage.total_tokens + new_usage.total_tokens,
}
}
// Extract the first bold (Markdown) element in the form **...** from `s`.
// Returns the inner text if found; otherwise `None`.
fn extract_first_bold(s: &str) -> Option<String> {
let bytes = s.as_bytes();
let mut i = 0usize;
while i + 1 < bytes.len() {
if bytes[i] == b'*' && bytes[i + 1] == b'*' {
let start = i + 2;
let mut j = start;
while j + 1 < bytes.len() {
if bytes[j] == b'*' && bytes[j + 1] == b'*' {
// Found closing **
let inner = &s[start..j];
let trimmed = inner.trim();
if !trimmed.is_empty() {
return Some(trimmed.to_string());
} else {
return None;
}
}
j += 1;
}
// No closing; stop searching (wait for more deltas)
return None;
}
i += 1;
}
None
}
#[cfg(test)]
mod tests;
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