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311ad0ce267e109853dfb30a4ce93e3f7f011f17
llmx/codex-rs/exec/src/event_processor_with_human_output.rs
Ahmed Ibrahim 311ad0ce26 fork conversation from a previous message (#2575) 
This can be the underlying logic in order to start a conversation from a
previous message. will need some love in the UI.

Base for building this: #2588
2025-08-22 17:06:09 -07:00

583 lines
22 KiB
Rust
Raw Blame History

use codex_common::elapsed::format_duration;
use codex_common::elapsed::format_elapsed;
use codex_core::config::Config;
use codex_core::plan_tool::UpdatePlanArgs;
use codex_core::protocol::AgentMessageDeltaEvent;
use codex_core::protocol::AgentMessageEvent;
use codex_core::protocol::AgentReasoningDeltaEvent;
use codex_core::protocol::AgentReasoningRawContentDeltaEvent;
use codex_core::protocol::AgentReasoningRawContentEvent;
use codex_core::protocol::BackgroundEventEvent;
use codex_core::protocol::ErrorEvent;
use codex_core::protocol::Event;
use codex_core::protocol::EventMsg;
use codex_core::protocol::ExecCommandBeginEvent;
use codex_core::protocol::ExecCommandEndEvent;
use codex_core::protocol::FileChange;
use codex_core::protocol::McpInvocation;
use codex_core::protocol::McpToolCallBeginEvent;
use codex_core::protocol::McpToolCallEndEvent;
use codex_core::protocol::PatchApplyBeginEvent;
use codex_core::protocol::PatchApplyEndEvent;
use codex_core::protocol::SessionConfiguredEvent;
use codex_core::protocol::StreamErrorEvent;
use codex_core::protocol::TaskCompleteEvent;
use codex_core::protocol::TurnAbortReason;
use codex_core::protocol::TurnDiffEvent;
use owo_colors::OwoColorize;
use owo_colors::Style;
use shlex::try_join;
use std::collections::HashMap;
use std::io::Write;
use std::path::PathBuf;
use std::time::Instant;
use crate::event_processor::CodexStatus;
use crate::event_processor::EventProcessor;
use crate::event_processor::handle_last_message;
use codex_common::create_config_summary_entries;
/// This should be configurable. When used in CI, users may not want to impose
/// a limit so they can see the full transcript.
const MAX_OUTPUT_LINES_FOR_EXEC_TOOL_CALL: usize = 20;
pub(crate) struct EventProcessorWithHumanOutput {
call_id_to_command: HashMap<String, ExecCommandBegin>,
call_id_to_patch: HashMap<String, PatchApplyBegin>,
// To ensure that --color=never is respected, ANSI escapes _must_ be added
// using .style() with one of these fields. If you need a new style, add a
// new field here.
bold: Style,
italic: Style,
dimmed: Style,
magenta: Style,
red: Style,
green: Style,
cyan: Style,
/// Whether to include `AgentReasoning` events in the output.
show_agent_reasoning: bool,
show_raw_agent_reasoning: bool,
answer_started: bool,
reasoning_started: bool,
raw_reasoning_started: bool,
last_message_path: Option<PathBuf>,
}
impl EventProcessorWithHumanOutput {
pub(crate) fn create_with_ansi(
with_ansi: bool,
config: &Config,
last_message_path: Option<PathBuf>,
) -> Self {
let call_id_to_command = HashMap::new();
let call_id_to_patch = HashMap::new();
if with_ansi {
Self {
call_id_to_command,
call_id_to_patch,
bold: Style::new().bold(),
italic: Style::new().italic(),
dimmed: Style::new().dimmed(),
magenta: Style::new().magenta(),
red: Style::new().red(),
green: Style::new().green(),
cyan: Style::new().cyan(),
show_agent_reasoning: !config.hide_agent_reasoning,
show_raw_agent_reasoning: config.show_raw_agent_reasoning,
answer_started: false,
reasoning_started: false,
raw_reasoning_started: false,
last_message_path,
}
} else {
Self {
call_id_to_command,
call_id_to_patch,
bold: Style::new(),
italic: Style::new(),
dimmed: Style::new(),
magenta: Style::new(),
red: Style::new(),
green: Style::new(),
cyan: Style::new(),
show_agent_reasoning: !config.hide_agent_reasoning,
show_raw_agent_reasoning: config.show_raw_agent_reasoning,
answer_started: false,
reasoning_started: false,
raw_reasoning_started: false,
last_message_path,
}
}
}
}
struct ExecCommandBegin {
command: Vec<String>,
}
struct PatchApplyBegin {
start_time: Instant,
auto_approved: bool,
}
// Timestamped println helper. The timestamp is styled with self.dimmed.
#[macro_export]
macro_rules! ts_println {
($self:ident, $($arg:tt)*) => {{
let now = chrono::Utc::now();
let formatted = now.format("[%Y-%m-%dT%H:%M:%S]");
print!("{} ", formatted.style($self.dimmed));
println!($($arg)*);
}};
}
impl EventProcessor for EventProcessorWithHumanOutput {
/// Print a concise summary of the effective configuration that will be used
/// for the session. This mirrors the information shown in the TUI welcome
/// screen.
fn print_config_summary(&mut self, config: &Config, prompt: &str) {
const VERSION: &str = env!("CARGO_PKG_VERSION");
ts_println!(
self,
"OpenAI Codex v{} (research preview)\n--------",
VERSION
);
let entries = create_config_summary_entries(config);
for (key, value) in entries {
println!("{} {}", format!("{key}:").style(self.bold), value);
}
println!("--------");
// Echo the prompt that will be sent to the agent so it is visible in the
// transcript/logs before any events come in. Note the prompt may have been
// read from stdin, so it may not be visible in the terminal otherwise.
ts_println!(
self,
"{}\n{}",
"User instructions:".style(self.bold).style(self.cyan),
prompt
);
}
fn process_event(&mut self, event: Event) -> CodexStatus {
let Event { id: _, msg } = event;
match msg {
EventMsg::Error(ErrorEvent { message }) => {
let prefix = "ERROR:".style(self.red);
ts_println!(self, "{prefix} {message}");
}
EventMsg::BackgroundEvent(BackgroundEventEvent { message }) => {
ts_println!(self, "{}", message.style(self.dimmed));
}
EventMsg::StreamError(StreamErrorEvent { message }) => {
ts_println!(self, "{}", message.style(self.dimmed));
}
EventMsg::TaskStarted => {
// Ignore.
}
EventMsg::TaskComplete(TaskCompleteEvent { last_agent_message }) => {
if let Some(output_file) = self.last_message_path.as_deref() {
handle_last_message(last_agent_message.as_deref(), output_file);
}
return CodexStatus::InitiateShutdown;
}
EventMsg::TokenCount(token_usage) => {
ts_println!(self, "tokens used: {}", token_usage.blended_total());
}
EventMsg::AgentMessageDelta(AgentMessageDeltaEvent { delta }) => {
if !self.answer_started {
ts_println!(self, "{}\n", "codex".style(self.italic).style(self.magenta));
self.answer_started = true;
}
print!("{delta}");
#[expect(clippy::expect_used)]
std::io::stdout().flush().expect("could not flush stdout");
}
EventMsg::AgentReasoningDelta(AgentReasoningDeltaEvent { delta }) => {
if !self.show_agent_reasoning {
return CodexStatus::Running;
}
if !self.reasoning_started {
ts_println!(
self,
"{}\n",
"thinking".style(self.italic).style(self.magenta),
);
self.reasoning_started = true;
}
print!("{delta}");
#[expect(clippy::expect_used)]
std::io::stdout().flush().expect("could not flush stdout");
}
EventMsg::AgentReasoningSectionBreak(_) => {
if !self.show_agent_reasoning {
return CodexStatus::Running;
}
println!();
#[expect(clippy::expect_used)]
std::io::stdout().flush().expect("could not flush stdout");
}
EventMsg::AgentReasoningRawContent(AgentReasoningRawContentEvent { text }) => {
if !self.show_raw_agent_reasoning {
return CodexStatus::Running;
}
if !self.raw_reasoning_started {
print!("{text}");
#[expect(clippy::expect_used)]
std::io::stdout().flush().expect("could not flush stdout");
} else {
println!();
self.raw_reasoning_started = false;
}
}
EventMsg::AgentReasoningRawContentDelta(AgentReasoningRawContentDeltaEvent {
delta,
}) => {
if !self.show_raw_agent_reasoning {
return CodexStatus::Running;
}
if !self.raw_reasoning_started {
self.raw_reasoning_started = true;
}
print!("{delta}");
#[expect(clippy::expect_used)]
std::io::stdout().flush().expect("could not flush stdout");
}
EventMsg::AgentMessage(AgentMessageEvent { message }) => {
// if answer_started is false, this means we haven't received any
// delta. Thus, we need to print the message as a new answer.
if !self.answer_started {
ts_println!(
self,
"{}\n{}",
"codex".style(self.italic).style(self.magenta),
message,
);
} else {
println!();
self.answer_started = false;
}
}
EventMsg::ExecCommandBegin(ExecCommandBeginEvent {
call_id,
command,
cwd,
parsed_cmd: _,
}) => {
self.call_id_to_command.insert(
call_id.clone(),
ExecCommandBegin {
command: command.clone(),
},
);
ts_println!(
self,
"{} {} in {}",
"exec".style(self.magenta),
escape_command(&command).style(self.bold),
cwd.to_string_lossy(),
);
}
EventMsg::ExecCommandOutputDelta(_) => {}
EventMsg::ExecCommandEnd(ExecCommandEndEvent {
call_id,
stdout,
stderr,
duration,
exit_code,
..
}) => {
let exec_command = self.call_id_to_command.remove(&call_id);
let (duration, call) = if let Some(ExecCommandBegin { command, .. }) = exec_command
{
(
format!(" in {}", format_duration(duration)),
format!("{}", escape_command(&command).style(self.bold)),
)
} else {
("".to_string(), format!("exec('{call_id}')"))
};
let output = if exit_code == 0 { stdout } else { stderr };
let truncated_output = output
.lines()
.take(MAX_OUTPUT_LINES_FOR_EXEC_TOOL_CALL)
.collect::<Vec<_>>()
.join("\n");
match exit_code {
0 => {
let title = format!("{call} succeeded{duration}:");
ts_println!(self, "{}", title.style(self.green));
}
_ => {
let title = format!("{call} exited {exit_code}{duration}:");
ts_println!(self, "{}", title.style(self.red));
}
}
println!("{}", truncated_output.style(self.dimmed));
}
EventMsg::McpToolCallBegin(McpToolCallBeginEvent {
call_id: _,
invocation,
}) => {
ts_println!(
self,
"{} {}",
"tool".style(self.magenta),
format_mcp_invocation(&invocation).style(self.bold),
);
}
EventMsg::McpToolCallEnd(tool_call_end_event) => {
let is_success = tool_call_end_event.is_success();
let McpToolCallEndEvent {
call_id: _,
result,
invocation,
duration,
} = tool_call_end_event;
let duration = format!(" in {}", format_duration(duration));
let status_str = if is_success { "success" } else { "failed" };
let title_style = if is_success { self.green } else { self.red };
let title = format!(
"{} {status_str}{duration}:",
format_mcp_invocation(&invocation)
);
ts_println!(self, "{}", title.style(title_style));
if let Ok(res) = result {
let val: serde_json::Value = res.into();
let pretty =
serde_json::to_string_pretty(&val).unwrap_or_else(|_| val.to_string());
for line in pretty.lines().take(MAX_OUTPUT_LINES_FOR_EXEC_TOOL_CALL) {
println!("{}", line.style(self.dimmed));
}
}
}
EventMsg::PatchApplyBegin(PatchApplyBeginEvent {
call_id,
auto_approved,
changes,
}) => {
// Store metadata so we can calculate duration later when we
// receive the corresponding PatchApplyEnd event.
self.call_id_to_patch.insert(
call_id.clone(),
PatchApplyBegin {
start_time: Instant::now(),
auto_approved,
},
);
ts_println!(
self,
"{} auto_approved={}:",
"apply_patch".style(self.magenta),
auto_approved,
);
// Pretty-print the patch summary with colored diff markers so
// it's easy to scan in the terminal output.
for (path, change) in changes.iter() {
match change {
FileChange::Add { content } => {
let header = format!(
"{} {}",
format_file_change(change),
path.to_string_lossy()
);
println!("{}", header.style(self.magenta));
for line in content.lines() {
println!("{}", line.style(self.green));
}
}
FileChange::Delete => {
let header = format!(
"{} {}",
format_file_change(change),
path.to_string_lossy()
);
println!("{}", header.style(self.magenta));
}
FileChange::Update {
unified_diff,
move_path,
} => {
let header = if let Some(dest) = move_path {
format!(
"{} {} -> {}",
format_file_change(change),
path.to_string_lossy(),
dest.to_string_lossy()
)
} else {
format!("{} {}", format_file_change(change), path.to_string_lossy())
};
println!("{}", header.style(self.magenta));
// Colorize diff lines. We keep file header lines
// (--- / +++) without extra coloring so they are
// still readable.
for diff_line in unified_diff.lines() {
if diff_line.starts_with('+') && !diff_line.starts_with("+++") {
println!("{}", diff_line.style(self.green));
} else if diff_line.starts_with('-')
&& !diff_line.starts_with("---")
{
println!("{}", diff_line.style(self.red));
} else {
println!("{diff_line}");
}
}
}
}
}
}
EventMsg::PatchApplyEnd(PatchApplyEndEvent {
call_id,
stdout,
stderr,
success,
..
}) => {
let patch_begin = self.call_id_to_patch.remove(&call_id);
// Compute duration and summary label similar to exec commands.
let (duration, label) = if let Some(PatchApplyBegin {
start_time,
auto_approved,
}) = patch_begin
{
(
format!(" in {}", format_elapsed(start_time)),
format!("apply_patch(auto_approved={auto_approved})"),
)
} else {
(String::new(), format!("apply_patch('{call_id}')"))
};
let (exit_code, output, title_style) = if success {
(0, stdout, self.green)
} else {
(1, stderr, self.red)
};
let title = format!("{label} exited {exit_code}{duration}:");
ts_println!(self, "{}", title.style(title_style));
for line in output.lines() {
println!("{}", line.style(self.dimmed));
}
}
EventMsg::TurnDiff(TurnDiffEvent { unified_diff }) => {
ts_println!(self, "{}", "turn diff:".style(self.magenta));
println!("{unified_diff}");
}
EventMsg::ExecApprovalRequest(_) => {
// Should we exit?
}
EventMsg::ApplyPatchApprovalRequest(_) => {
// Should we exit?
}
EventMsg::AgentReasoning(agent_reasoning_event) => {
if self.show_agent_reasoning {
if !self.reasoning_started {
ts_println!(
self,
"{}\n{}",
"codex".style(self.italic).style(self.magenta),
agent_reasoning_event.text,
);
} else {
println!();
self.reasoning_started = false;
}
}
}
EventMsg::SessionConfigured(session_configured_event) => {
let SessionConfiguredEvent {
session_id,
model,
history_log_id: _,
history_entry_count: _,
} = session_configured_event;
ts_println!(
self,
"{} {}",
"codex session".style(self.magenta).style(self.bold),
session_id.to_string().style(self.dimmed)
);
ts_println!(self, "model: {}", model);
println!();
}
EventMsg::PlanUpdate(plan_update_event) => {
let UpdatePlanArgs { explanation, plan } = plan_update_event;
ts_println!(self, "explanation: {explanation:?}");
ts_println!(self, "plan: {plan:?}");
}
EventMsg::GetHistoryEntryResponse(_) => {
// Currently ignored in exec output.
}
EventMsg::McpListToolsResponse(_) => {
// Currently ignored in exec output.
}
EventMsg::TurnAborted(abort_reason) => match abort_reason.reason {
TurnAbortReason::Interrupted => {
ts_println!(self, "task interrupted");
}
TurnAbortReason::Replaced => {
ts_println!(self, "task aborted: replaced by a new task");
}
},
EventMsg::ShutdownComplete => return CodexStatus::Shutdown,
EventMsg::ConversationHistory(_) => {}
}
CodexStatus::Running
}
}
fn escape_command(command: &[String]) -> String {
try_join(command.iter().map(|s| s.as_str())).unwrap_or_else(|_| command.join(" "))
}
fn format_file_change(change: &FileChange) -> &'static str {
match change {
FileChange::Add { .. } => "A",
FileChange::Delete => "D",
FileChange::Update {
move_path: Some(_), ..
} => "R",
FileChange::Update {
move_path: None, ..
} => "M",
}
}
fn format_mcp_invocation(invocation: &McpInvocation) -> String {
// Build fully-qualified tool name: server.tool
let fq_tool_name = format!("{}.{}", invocation.server, invocation.tool);
// Format arguments as compact JSON so they fit on one line.
let args_str = invocation
.arguments
.as_ref()
.map(|v: &serde_json::Value| serde_json::to_string(v).unwrap_or_else(|_| v.to_string()))
.unwrap_or_default();
if args_str.is_empty() {
format!("{fq_tool_name}()")
} else {
format!("{fq_tool_name}({args_str})")
}
}
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