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jj/cli/src/progress.rs

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use std::io;
use std::path::Path;
use std::sync::Mutex;
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use std::time::{Duration, Instant};
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use crossterm::terminal::{Clear, ClearType};
use jj_lib::fmt_util::binary_prefix;
use jj_lib::git;
use jj_lib::repo_path::RepoPath;
use crate::cleanup_guard::CleanupGuard;
use crate::text_util;
use crate::ui::{OutputGuard, ProgressOutput, Ui};
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pub struct Progress {
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next_print: Instant,
rate: RateEstimate,
buffer: String,
guard: Option<CleanupGuard>,
}
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impl Progress {
pub fn new(now: Instant) -> Self {
Self {
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next_print: now + INITIAL_DELAY,
rate: RateEstimate::new(),
buffer: String::new(),
guard: None,
}
}
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pub fn update(
&mut self,
now: Instant,
progress: &git::Progress,
output: &mut ProgressOutput,
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) -> io::Result<()> {
use std::fmt::Write as _;
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if progress.overall == 1.0 {
write!(output, "\r{}", Clear(ClearType::CurrentLine))?;
output.flush()?;
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return Ok(());
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}
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let rate = progress
.bytes_downloaded
.and_then(|x| self.rate.update(now, x));
if now < self.next_print {
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return Ok(());
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}
if self.guard.is_none() {
let guard = output.output_guard(crossterm::cursor::Show.to_string());
let guard = CleanupGuard::new(move || {
drop(guard);
});
_ = write!(output, "{}", crossterm::cursor::Hide);
self.guard = Some(guard);
}
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self.next_print = now.min(self.next_print + Duration::from_secs(1) / UPDATE_HZ);
self.buffer.clear();
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write!(self.buffer, "\r{}", Clear(ClearType::CurrentLine)).unwrap();
let control_chars = self.buffer.len();
write!(self.buffer, "{: >3.0}% ", 100.0 * progress.overall).unwrap();
if let Some(total) = progress.bytes_downloaded {
let (scaled, prefix) = binary_prefix(total as f32);
write!(self.buffer, "{scaled: >5.1} {prefix}B ").unwrap();
}
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if let Some(estimate) = rate {
let (scaled, prefix) = binary_prefix(estimate);
write!(self.buffer, "at {scaled: >5.1} {prefix}B/s ").unwrap();
}
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let bar_width = output
.term_width()
.map(usize::from)
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.unwrap_or(0)
.saturating_sub(self.buffer.len() - control_chars + 2);
self.buffer.push('[');
draw_progress(progress.overall, &mut self.buffer, bar_width);
self.buffer.push(']');
write!(output, "{}", self.buffer)?;
output.flush()?;
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Ok(())
}
}
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fn draw_progress(progress: f32, buffer: &mut String, width: usize) {
const CHARS: [char; 9] = [' ', '▏', '▎', '▍', '▌', '▋', '▊', '▉', '█'];
const RESOLUTION: usize = CHARS.len() - 1;
let ticks = (width as f32 * progress.clamp(0.0, 1.0) * RESOLUTION as f32).round() as usize;
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let whole = ticks / RESOLUTION;
for _ in 0..whole {
buffer.push(CHARS[CHARS.len() - 1]);
}
if whole < width {
let fraction = ticks % RESOLUTION;
buffer.push(CHARS[fraction]);
}
for _ in (whole + 1)..width {
buffer.push(CHARS[0]);
}
}
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const UPDATE_HZ: u32 = 30;
const INITIAL_DELAY: Duration = Duration::from_millis(250);
struct RateEstimate {
state: Option<RateEstimateState>,
}
impl RateEstimate {
fn new() -> Self {
RateEstimate { state: None }
}
/// Compute smoothed rate from an update
fn update(&mut self, now: Instant, total: u64) -> Option<f32> {
if let Some(ref mut state) = self.state {
return Some(state.update(now, total));
}
self.state = Some(RateEstimateState {
total,
avg_rate: None,
last_sample: now,
});
None
}
}
struct RateEstimateState {
total: u64,
avg_rate: Option<f32>,
last_sample: Instant,
}
impl RateEstimateState {
fn update(&mut self, now: Instant, total: u64) -> f32 {
let delta = total - self.total;
self.total = total;
let dt = now - self.last_sample;
self.last_sample = now;
let sample = delta as f32 / dt.as_secs_f32();
match self.avg_rate {
None => *self.avg_rate.insert(sample),
Some(ref mut avg_rate) => {
// From Algorithms for Unevenly Spaced Time Series: Moving
// Averages and Other Rolling Operators (Andreas Eckner, 2019)
const TIME_WINDOW: f32 = 2.0;
let alpha = 1.0 - (-dt.as_secs_f32() / TIME_WINDOW).exp();
*avg_rate += alpha * (sample - *avg_rate);
*avg_rate
}
}
}
}
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pub fn snapshot_progress(ui: &Ui) -> Option<impl Fn(&RepoPath) + '_> {
struct State {
guard: Option<OutputGuard>,
output: ProgressOutput,
next_display_time: Instant,
}
let output = ui.progress_output()?;
// Don't clutter the output during fast operations.
let next_display_time = Instant::now() + INITIAL_DELAY;
let state = Mutex::new(State {
guard: None,
output,
next_display_time,
});
Some(move |path: &RepoPath| {
let mut state = state.lock().unwrap();
let now = Instant::now();
if now < state.next_display_time {
// Future work: Display current path after exactly, say, 250ms has elapsed, to
// better handle large single files
return;
}
state.next_display_time = now + Duration::from_secs(1) / UPDATE_HZ;
if state.guard.is_none() {
state.guard = Some(
state
.output
.output_guard(format!("\r{}", Clear(ClearType::CurrentLine))),
);
}
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let line_width = state.output.term_width().map(usize::from).unwrap_or(80);
let max_path_width = line_width.saturating_sub(13); // Account for "Snapshotting "
let fs_path = path.to_fs_path(Path::new(""));
let (display_path, _) =
text_util::elide_start(fs_path.to_str().unwrap(), "...", max_path_width);
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_ = write!(
state.output,
"\r{}Snapshotting {display_path}",
Clear(ClearType::CurrentLine),
);
_ = state.output.flush();
})
}
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#[cfg(test)]
mod tests {
use super::*;
#[test]
fn test_bar() {
let mut buf = String::new();
draw_progress(0.0, &mut buf, 10);
assert_eq!(buf, " ");
buf.clear();
draw_progress(1.0, &mut buf, 10);
assert_eq!(buf, "██████████");
buf.clear();
draw_progress(0.5, &mut buf, 10);
assert_eq!(buf, "█████ ");
buf.clear();
draw_progress(0.54, &mut buf, 10);
assert_eq!(buf, "█████▍ ");
buf.clear();
}
}