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chore: update exec crate to use std::time instead of chrono (#952)

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When I originally wrote `elapsed.rs`, I realized we were using both
`std::time` and `chrono` with no real benefit of having both. We should
try to keep the `exec` subcommand trim (as it also buildable as a
standalone executable), so this helps tighten things up.
This commit is contained in:
Michael Bolin
2025-05-16 08:14:50 -07:00
committed by GitHub
parent 070499f534
commit 30cbfdfa87
4 changed files with 36 additions and 37 deletions
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3
codex-rs/common/Cargo.toml
View File

@@ -7,11 +7,10 @@ edition = "2024"
workspace = true
[dependencies]
chrono = { version = "0.4.40", optional = true }
clap = { version = "4", features = ["derive", "wrap_help"], optional = true }
codex-core = { path = "../core" }
[features]
# Separate feature so that `clap` is not a mandatory dependency.
cli = ["clap"]
elapsed = ["chrono"]
elapsed = []

56
codex-rs/common/src/elapsed.rs
View File

@@ -1,18 +1,19 @@
use chrono::Utc;
use std::time::Duration;
use std::time::Instant;
/// Returns a string representing the elapsed time since `start_time` like
/// "1m15s" or "1.50s".
pub fn format_elapsed(start_time: chrono::DateTime<Utc>) -> String {
let elapsed = Utc::now().signed_duration_since(start_time);
format_time_delta(elapsed)
pub fn format_elapsed(start_time: Instant) -> String {
format_duration(start_time.elapsed())
}
fn format_time_delta(elapsed: chrono::TimeDelta) -> String {
let millis = elapsed.num_milliseconds();
format_elapsed_millis(millis)
}
pub fn format_duration(duration: std::time::Duration) -> String {
/// Convert a [`std::time::Duration`] into a human-readable, compact string.
///
/// Formatting rules:
/// * < 1 s -> "{milli}ms"
/// * < 60 s -> "{sec:.2}s" (two decimal places)
/// * >= 60 s -> "{min}m{sec:02}s"
pub fn format_duration(duration: Duration) -> String {
let millis = duration.as_millis() as i64;
format_elapsed_millis(millis)
}
@@ -32,41 +33,40 @@ fn format_elapsed_millis(millis: i64) -> String {
#[cfg(test)]
mod tests {
use super::*;
use chrono::Duration;
#[test]
fn test_format_time_delta_subsecond() {
fn test_format_duration_subsecond() {
// Durations < 1s should be rendered in milliseconds with no decimals.
let dur = Duration::milliseconds(250);
assert_eq!(format_time_delta(dur), "250ms");
let dur = Duration::from_millis(250);
assert_eq!(format_duration(dur), "250ms");
// Exactly zero should still work.
let dur_zero = Duration::milliseconds(0);
assert_eq!(format_time_delta(dur_zero), "0ms");
let dur_zero = Duration::from_millis(0);
assert_eq!(format_duration(dur_zero), "0ms");
}
#[test]
fn test_format_time_delta_seconds() {
fn test_format_duration_seconds() {
// Durations between 1s (inclusive) and 60s (exclusive) should be
// printed with 2-decimal-place seconds.
let dur = Duration::milliseconds(1_500); // 1.5s
assert_eq!(format_time_delta(dur), "1.50s");
let dur = Duration::from_millis(1_500); // 1.5s
assert_eq!(format_duration(dur), "1.50s");
// 59.999s rounds to 60.00s
let dur2 = Duration::milliseconds(59_999);
assert_eq!(format_time_delta(dur2), "60.00s");
let dur2 = Duration::from_millis(59_999);
assert_eq!(format_duration(dur2), "60.00s");
}
#[test]
fn test_format_time_delta_minutes() {
fn test_format_duration_minutes() {
// Durations ≥ 1 minute should be printed mmss.
let dur = Duration::milliseconds(75_000); // 1m15s
assert_eq!(format_time_delta(dur), "1m15s");
let dur = Duration::from_millis(75_000); // 1m15s
assert_eq!(format_duration(dur), "1m15s");
let dur_exact = Duration::milliseconds(60_000); // 1m0s
assert_eq!(format_time_delta(dur_exact), "1m00s");
let dur_exact = Duration::from_millis(60_000); // 1m0s
assert_eq!(format_duration(dur_exact), "1m00s");
let dur_long = Duration::milliseconds(3_601_000);
assert_eq!(format_time_delta(dur_long), "60m01s");
let dur_long = Duration::from_millis(3_601_000);
assert_eq!(format_duration(dur_long), "60m01s");
}
}