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llmx/codex-rs/exec/src/event_processor_with_human_output.rs
pakrym-oai 344d4a1d68 Add explicit codex exec events (#4177) 
This pull request add a new experimental format of JSON output.

You can try it using `codex exec --experimental-json`.

Design takes a lot of inspiration from Responses API items and stream
format.

# Session and items
Each invocation of `codex exec` starts or resumes a session. 

Session contains multiple high-level item types:
1. Assistant message 
2. Assistant thinking 
3. Command execution 
4. File changes
5. To-do lists
6. etc.

# Events 
Session and items are going through their life cycles which is
represented by events.

Session is `session.created` or `session.resumed`
Items are `item.added`, `item.updated`, `item.completed`,
`item.require_approval` (or other item types like `item.output_delta`
when we need streaming).

So a typical session can look like:

<details>

```
{
  "type": "session.created",
  "session_id": "01997dac-9581-7de3-b6a0-1df8256f2752"
}
{
  "type": "item.completed",
  "item": {
    "id": "itm_0",
    "item_type": "assistant_message",
    "text": "I’ll locate the top-level README and remove its first line. Then I’ll show a quick summary of what changed."
  }
}
{
  "type": "item.completed",
  "item": {
    "id": "itm_1",
    "item_type": "command_execution",
    "command": "bash -lc ls -la | sed -n '1,200p'",
    "aggregated_output": "pyenv: cannot rehash: /Users/pakrym/.pyenv/shims isn't writable\ntotal 192\ndrwxr-xr-x@  33 pakrym  staff   1056 Sep 24 14:36 .\ndrwxr-xr-x   41 pakrym  staff   1312 Sep 24 09:17 ..\n-rw-r--r--@   1 pakrym  staff      6 Jul  9 16:16 .codespellignore\n-rw-r--r--@   1 pakrym  staff    258 Aug 13 09:40 .codespellrc\ndrwxr-xr-x@   5 pakrym  staff    160 Jul 23 08:26 .devcontainer\n-rw-r--r--@   1 pakrym  staff   6148 Jul 22 10:03 .DS_Store\ndrwxr-xr-x@  15 pakrym  staff    480 Sep 24 14:38 .git\ndrwxr-xr-x@  12 pakrym  staff    384 Sep  2 16:00 .github\n-rw-r--r--@   1 pakrym  staff    778 Jul  9 16:16 .gitignore\ndrwxr-xr-x@   3 pakrym  staff     96 Aug 11 09:37 .husky\n-rw-r--r--@   1 pakrym  staff    104 Jul  9 16:16 .npmrc\n-rw-r--r--@   1 pakrym  staff     96 Sep  2 08:52 .prettierignore\n-rw-r--r--@   1 pakrym  staff    170 Jul  9 16:16 .prettierrc.toml\ndrwxr-xr-x@   5 pakrym  staff    160 Sep 14 17:43 .vscode\ndrwxr-xr-x@   2 pakrym  staff     64 Sep 11 11:37 2025-09-11\n-rw-r--r--@   1 pakrym  staff   5505 Sep 18 09:28 AGENTS.md\n-rw-r--r--@   1 pakrym  staff     92 Sep  2 08:52 CHANGELOG.md\n-rw-r--r--@   1 pakrym  staff   1145 Jul  9 16:16 cliff.toml\ndrwxr-xr-x@  11 pakrym  staff    352 Sep 24 13:03 codex-cli\ndrwxr-xr-x@  38 pakrym  staff   1216 Sep 24 14:38 codex-rs\ndrwxr-xr-x@  18 pakrym  staff    576 Sep 23 11:01 docs\n-rw-r--r--@   1 pakrym  staff   2038 Jul  9 16:16 flake.lock\n-rw-r--r--@   1 pakrym  staff   1434 Jul  9 16:16 flake.nix\n-rw-r--r--@   1 pakrym  staff  10926 Jul  9 16:16 LICENSE\ndrwxr-xr-x@ 465 pakrym  staff  14880 Jul 15 07:36 node_modules\n-rw-r--r--@   1 pakrym  staff    242 Aug  5 08:25 NOTICE\n-rw-r--r--@   1 pakrym  staff    578 Aug 14 12:31 package.json\n-rw-r--r--@   1 pakrym  staff    498 Aug 11 09:37 pnpm-lock.yaml\n-rw-r--r--@   1 pakrym  staff     58 Aug 11 09:37 pnpm-workspace.yaml\n-rw-r--r--@   1 pakrym  staff   2402 Jul  9 16:16 PNPM.md\n-rw-r--r--@   1 pakrym  staff   4393 Sep 12 14:36 README.md\ndrwxr-xr-x@   4 pakrym  staff    128 Sep 18 09:28 scripts\ndrwxr-xr-x@   2 pakrym  staff     64 Sep 11 11:34 tmp\n",
    "exit_code": 0,
    "status": "completed"
  }
}
{
  "type": "item.completed",
  "item": {
    "id": "itm_2",
    "item_type": "reasoning",
    "text": "**Reviewing README.md file**\n\nI've located the README.md file at the root, and it’s 4393 bytes. Now, I need to remove the first line, but first, I should check its content to make sure I’m patching it correctly. I’ll use sed to display the first 20 lines. By reviewing those lines, I can determine exactly what needs to be removed before I proceed with the editing. Let's do this carefully!"
  }
}
{
  "type": "item.completed",
  "item": {
    "id": "itm_3",
    "item_type": "command_execution",
    "command": "bash -lc sed -n '1,40p' README.md",
    "aggregated_output": "<h1 align=\"center\">OpenAI Codex CLI</h1>\n\n<p align=\"center\"><code>npm i -g @openai/codex</code><br />or <code>brew install codex</code></p>\n\n<p align=\"center\"><strong>Codex CLI</strong> is a coding agent from OpenAI that runs locally on your computer.\n</br>\n</br>If you want Codex in your code editor (VS Code, Cursor, Windsurf), <a href=\"https://developers.openai.com/codex/ide\">install in your IDE</a>\n</br>If you are looking for the <em>cloud-based agent</em> from OpenAI, <strong>Codex Web</strong>, go to <a href=\"https://chatgpt.com/codex\">chatgpt.com/codex</a></p>\n\n<p align=\"center\">\n  <img src=\"./.github/codex-cli-splash.png\" alt=\"Codex CLI splash\" width=\"80%\" />\n  </p>\n\n---\n\n## Quickstart\n\n### Installing and running Codex CLI\n\nInstall globally with your preferred package manager. If you use npm:\n\n```shell\nnpm install -g @openai/codex\n```\n\nAlternatively, if you use Homebrew:\n\n```shell\nbrew install codex\n```\n\nThen simply run `codex` to get started:\n\n```shell\ncodex\n```\n\n<details>\n<summary>You can also go to the <a href=\"https://github.com/openai/codex/releases/latest\">latest GitHub Release</a> and download the appropriate binary for your platform.</summary>\n\n",
    "exit_code": 0,
    "status": "completed"
  }
}
{
  "type": "item.completed",
  "item": {
    "id": "itm_4",
    "item_type": "reasoning",
    "text": "**Updating README file**\n\nThe user wants to update the README by removing the first line, which is an HTML h1 tag. I'll proceed to delete that line while keeping the rest intact. To do this, I need to use the apply_patch tool and create a patch in the diff format. I’ll take care to include context lines around the change. After removing the header, I’m considering whether to delete the following blank line as well to keep it tidy."
  }
}
{
  "type": "item.completed",
  "item": {
    "id": "itm_5",
    "item_type": "reasoning",
    "text": "**Crafting the patch**\n\nThe user has asked to remove just the first line, without mentioning the blank lines. Technically, leaving a blank line at the start is acceptable, but it's not ideal. Ideally, I'd prefer to remove the first line while maintaining the subsequent blank line. However, if I can also remove that blank line, it could tidy things up even more. Still, since the user's request is strictly to remove only the first line, I'll stick to that and craft the patch accordingly."
  }
}
{
  "type": "item.completed",
  "item": {
    "id": "itm_6",
    "item_type": "assistant_message",
    "text": "Applying the change by removing the first line from `README.md`."
  }
}
{
  "type": "item.completed",
  "item": {
    "id": "itm_7",
    "item_type": "file_change",
    "changes": [
      {
        "path": "/Users/pakrym/code/codex/README.md",
        "kind": "update"
      }
    ],
    "status": "completed"
  }
}
{
  "type": "item.completed",
  "item": {
    "id": "itm_8",
    "item_type": "reasoning",
    "text": "**Validating README Update**\n\nI updated the README.md and now I need to validate that the first line has been successfully removed. To do this, I'll check the first 10 lines of the document to ensure everything looks correct. It’s always good to double-check these kinds of changes, so I’m going to take that extra step to make sure the update was executed properly. Let's see what those initial lines say!"
  }
}
{
  "type": "item.completed",
  "item": {
    "id": "itm_9",
    "item_type": "command_execution",
    "command": "bash -lc sed -n '1,20p' README.md",
    "aggregated_output": "\n<p align=\"center\"><code>npm i -g @openai/codex</code><br />or <code>brew install codex</code></p>\n\n<p align=\"center\"><strong>Codex CLI</strong> is a coding agent from OpenAI that runs locally on your computer.\n</br>\n</br>If you want Codex in your code editor (VS Code, Cursor, Windsurf), <a href=\"https://developers.openai.com/codex/ide\">install in your IDE</a>\n</br>If you are looking for the <em>cloud-based agent</em> from OpenAI, <strong>Codex Web</strong>, go to <a href=\"https://chatgpt.com/codex\">chatgpt.com/codex</a></p>\n\n<p align=\"center\">\n  <img src=\"./.github/codex-cli-splash.png\" alt=\"Codex CLI splash\" width=\"80%\" />\n  </p>\n\n---\n\n## Quickstart\n\n### Installing and running Codex CLI\n\nInstall globally with your preferred package manager. If you use npm:\n\n",
    "exit_code": 0,
    "status": "completed"
  }
}
{
  "type": "item.completed",
  "item": {
    "id": "itm_10",
    "item_type": "assistant_message",
    "text": "- Updated `README.md:1` by removing the opening H1 line.\n- The README now starts with the install instructions paragraph.\n\nWant me to also remove the leading blank line at the top?"
  }
}
```

</details>

The idea is to give users fully formatted items they can use directly in
their rendering/application logic and avoid having them building up
items manually based on events (unless they want to for streaming).

This PR implements only the `item.completed` payload for some event
types, more event types and item types to come.

---------

Co-authored-by: Michael Bolin <mbolin@openai.com>
2025-09-25 17:47:09 +00:00

638 lines
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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 codex_core::protocol::WebSearchBeginEvent;
use codex_core::protocol::WebSearchEndEvent;
use codex_protocol::num_format::format_with_separators;
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, _: &SessionConfiguredEvent) {
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(ev) => {
if let Some(usage_info) = ev.info {
ts_println!(
self,
"tokens used: {}",
format_with_separators(usage_info.total_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,
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,
aggregated_output,
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 truncated_output = aggregated_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::WebSearchBegin(WebSearchBeginEvent { call_id: _ }) => {}
EventMsg::WebSearchEnd(WebSearchEndEvent { call_id: _, query }) => {
ts_println!(self, "🌐 Searched: {query}");
}
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,
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 { 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.red));
}
}
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: conversation_id,
model,
reasoning_effort: _,
history_log_id: _,
history_entry_count: _,
initial_messages: _,
rollout_path: _,
} = session_configured_event;
ts_println!(
self,
"{} {}",
"codex session".style(self.magenta).style(self.bold),
conversation_id.to_string().style(self.dimmed)
);
ts_println!(self, "model: {}", model);
println!();
}
EventMsg::PlanUpdate(plan_update_event) => {
let UpdatePlanArgs { explanation, plan } = plan_update_event;
// Header
ts_println!(self, "{}", "Plan update".style(self.magenta));
// Optional explanation
if let Some(explanation) = explanation
&& !explanation.trim().is_empty()
{
ts_println!(self, "{}", explanation.style(self.italic));
}
// Pretty-print the plan items with simple status markers.
for item in plan {
use codex_core::plan_tool::StepStatus;
match item.status {
StepStatus::Completed => {
ts_println!(self, " {} {}", "".style(self.green), item.step);
}
StepStatus::InProgress => {
ts_println!(self, " {} {}", "".style(self.cyan), item.step);
}
StepStatus::Pending => {
ts_println!(
self,
" {} {}",
"".style(self.dimmed),
item.step.style(self.dimmed)
);
}
}
}
}
EventMsg::GetHistoryEntryResponse(_) => {
// Currently ignored in exec output.
}
EventMsg::McpListToolsResponse(_) => {
// Currently ignored in exec output.
}
EventMsg::ListCustomPromptsResponse(_) => {
// 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");
}
TurnAbortReason::ReviewEnded => {
ts_println!(self, "task aborted: review ended");
}
},
EventMsg::ShutdownComplete => return CodexStatus::Shutdown,
EventMsg::ConversationPath(_) => {}
EventMsg::UserMessage(_) => {}
EventMsg::EnteredReviewMode(_) => {}
EventMsg::ExitedReviewMode(_) => {}
}
CodexStatus::Running
}
}
fn escape_command(command: &[String]) -> String {
try_join(command.iter().map(String::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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