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|
#[cfg(test)]
use portable_atomic::{AtomicBool, Ordering};
use std::borrow::Cow;
use std::sync::{Arc, Condvar, Mutex, MutexGuard, Weak};
use std::time::Duration;
#[cfg(not(target_arch = "wasm32"))]
use std::time::Instant;
use std::{fmt, io, thread};
#[cfg(target_arch = "wasm32")]
use instant::Instant;
#[cfg(test)]
use once_cell::sync::Lazy;
use crate::draw_target::ProgressDrawTarget;
use crate::state::{AtomicPosition, BarState, ProgressFinish, Reset, TabExpandedString};
use crate::style::ProgressStyle;
use crate::{ProgressBarIter, ProgressIterator, ProgressState};
/// A progress bar or spinner
///
/// The progress bar is an [`Arc`] around its internal state. When the progress bar is cloned it
/// just increments the refcount (so the original and its clone share the same state).
#[derive(Clone)]
pub struct ProgressBar {
state: Arc<Mutex<BarState>>,
pos: Arc<AtomicPosition>,
ticker: Arc<Mutex<Option<Ticker>>>,
}
impl fmt::Debug for ProgressBar {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_struct("ProgressBar").finish()
}
}
impl ProgressBar {
/// Creates a new progress bar with a given length
///
/// This progress bar by default draws directly to stderr, and refreshes a maximum of 15 times
/// a second. To change the refresh rate, set the draw target to one with a different refresh
/// rate.
pub fn new(len: u64) -> Self {
Self::with_draw_target(Some(len), ProgressDrawTarget::stderr())
}
/// Creates a completely hidden progress bar
///
/// This progress bar still responds to API changes but it does not have a length or render in
/// any way.
pub fn hidden() -> Self {
Self::with_draw_target(None, ProgressDrawTarget::hidden())
}
/// Creates a new progress bar with a given length and draw target
pub fn with_draw_target(len: Option<u64>, draw_target: ProgressDrawTarget) -> Self {
let pos = Arc::new(AtomicPosition::new());
Self {
state: Arc::new(Mutex::new(BarState::new(len, draw_target, pos.clone()))),
pos,
ticker: Arc::new(Mutex::new(None)),
}
}
/// Get a clone of the current progress bar style.
pub fn style(&self) -> ProgressStyle {
self.state().style.clone()
}
/// A convenience builder-like function for a progress bar with a given style
pub fn with_style(self, style: ProgressStyle) -> Self {
self.set_style(style);
self
}
/// A convenience builder-like function for a progress bar with a given tab width
pub fn with_tab_width(self, tab_width: usize) -> Self {
self.state().set_tab_width(tab_width);
self
}
/// A convenience builder-like function for a progress bar with a given prefix
///
/// For the prefix to be visible, the `{prefix}` placeholder must be present in the template
/// (see [`ProgressStyle`]).
pub fn with_prefix(self, prefix: impl Into<Cow<'static, str>>) -> Self {
let mut state = self.state();
state.state.prefix = TabExpandedString::new(prefix.into(), state.tab_width);
drop(state);
self
}
/// A convenience builder-like function for a progress bar with a given message
///
/// For the message to be visible, the `{msg}` placeholder must be present in the template (see
/// [`ProgressStyle`]).
pub fn with_message(self, message: impl Into<Cow<'static, str>>) -> Self {
let mut state = self.state();
state.state.message = TabExpandedString::new(message.into(), state.tab_width);
drop(state);
self
}
/// A convenience builder-like function for a progress bar with a given position
pub fn with_position(self, pos: u64) -> Self {
self.state().state.set_pos(pos);
self
}
/// A convenience builder-like function for a progress bar with a given elapsed time
pub fn with_elapsed(self, elapsed: Duration) -> Self {
self.state().state.started = Instant::now().checked_sub(elapsed).unwrap();
self
}
/// Sets the finish behavior for the progress bar
///
/// This behavior is invoked when [`ProgressBar`] or
/// [`ProgressBarIter`] completes and
/// [`ProgressBar::is_finished()`] is false.
/// If you don't want the progress bar to be automatically finished then
/// call `on_finish(None)`.
///
/// [`ProgressBar`]: crate::ProgressBar
/// [`ProgressBarIter`]: crate::ProgressBarIter
/// [`ProgressBar::is_finished()`]: crate::ProgressBar::is_finished
pub fn with_finish(self, finish: ProgressFinish) -> Self {
self.state().on_finish = finish;
self
}
/// Creates a new spinner
///
/// This spinner by default draws directly to stderr. This adds the default spinner style to it.
pub fn new_spinner() -> Self {
let rv = Self::with_draw_target(None, ProgressDrawTarget::stderr());
rv.set_style(ProgressStyle::default_spinner());
rv
}
/// Overrides the stored style
///
/// This does not redraw the bar. Call [`ProgressBar::tick()`] to force it.
pub fn set_style(&self, style: ProgressStyle) {
self.state().set_style(style);
}
/// Sets the tab width (default: 8). All tabs will be expanded to this many spaces.
pub fn set_tab_width(&mut self, tab_width: usize) {
let mut state = self.state();
state.set_tab_width(tab_width);
state.draw(true, Instant::now()).unwrap();
}
/// Spawns a background thread to tick the progress bar
///
/// When this is enabled a background thread will regularly tick the progress bar in the given
/// interval. This is useful to advance progress bars that are very slow by themselves.
///
/// When steady ticks are enabled, calling [`ProgressBar::tick()`] on a progress bar does not
/// have any effect.
pub fn enable_steady_tick(&self, interval: Duration) {
// The way we test for ticker termination is with a single static `AtomicBool`. Since cargo
// runs tests concurrently, we have a `TICKER_TEST` lock to make sure tests using ticker
// don't step on each other. This check catches attempts to use tickers in tests without
// acquiring the lock.
#[cfg(test)]
{
let guard = TICKER_TEST.try_lock();
let lock_acquired = guard.is_ok();
// Drop the guard before panicking to avoid poisoning the lock (which would cause other
// ticker tests to fail)
drop(guard);
if lock_acquired {
panic!("you must acquire the TICKER_TEST lock in your test to use this method");
}
}
if interval.is_zero() {
return;
}
self.stop_and_replace_ticker(Some(interval));
}
/// Undoes [`ProgressBar::enable_steady_tick()`]
pub fn disable_steady_tick(&self) {
self.stop_and_replace_ticker(None);
}
fn stop_and_replace_ticker(&self, interval: Option<Duration>) {
let mut ticker_state = self.ticker.lock().unwrap();
if let Some(ticker) = ticker_state.take() {
ticker.stop();
}
*ticker_state = interval.map(|interval| Ticker::new(interval, &self.state));
}
/// Manually ticks the spinner or progress bar
///
/// This automatically happens on any other change to a progress bar.
pub fn tick(&self) {
self.tick_inner(Instant::now());
}
fn tick_inner(&self, now: Instant) {
// Only tick if a `Ticker` isn't installed
if self.ticker.lock().unwrap().is_none() {
self.state().tick(now);
}
}
/// Advances the position of the progress bar by `delta`
pub fn inc(&self, delta: u64) {
self.pos.inc(delta);
let now = Instant::now();
if self.pos.allow(now) {
self.tick_inner(now);
}
}
/// A quick convenience check if the progress bar is hidden
pub fn is_hidden(&self) -> bool {
self.state().draw_target.is_hidden()
}
/// Indicates that the progress bar finished
pub fn is_finished(&self) -> bool {
self.state().state.is_finished()
}
/// Print a log line above the progress bar
///
/// If the progress bar is hidden (e.g. when standard output is not a terminal), `println()`
/// will not do anything. If you want to write to the standard output in such cases as well, use
/// [`suspend`] instead.
///
/// If the progress bar was added to a [`MultiProgress`], the log line will be
/// printed above all other progress bars.
///
/// [`suspend`]: ProgressBar::suspend
/// [`MultiProgress`]: crate::MultiProgress
pub fn println<I: AsRef<str>>(&self, msg: I) {
self.state().println(Instant::now(), msg.as_ref());
}
/// Update the `ProgressBar`'s inner [`ProgressState`]
pub fn update(&self, f: impl FnOnce(&mut ProgressState)) {
self.state()
.update(Instant::now(), f, self.ticker.lock().unwrap().is_none());
}
/// Sets the position of the progress bar
pub fn set_position(&self, pos: u64) {
self.pos.set(pos);
let now = Instant::now();
if self.pos.allow(now) {
self.tick_inner(now);
}
}
/// Sets the length of the progress bar
pub fn set_length(&self, len: u64) {
self.state().set_length(Instant::now(), len);
}
/// Increase the length of the progress bar
pub fn inc_length(&self, delta: u64) {
self.state().inc_length(Instant::now(), delta);
}
/// Sets the current prefix of the progress bar
///
/// For the prefix to be visible, the `{prefix}` placeholder must be present in the template
/// (see [`ProgressStyle`]).
pub fn set_prefix(&self, prefix: impl Into<Cow<'static, str>>) {
let mut state = self.state();
state.state.prefix = TabExpandedString::new(prefix.into(), state.tab_width);
state.update_estimate_and_draw(Instant::now());
}
/// Sets the current message of the progress bar
///
/// For the message to be visible, the `{msg}` placeholder must be present in the template (see
/// [`ProgressStyle`]).
pub fn set_message(&self, msg: impl Into<Cow<'static, str>>) {
let mut state = self.state();
state.state.message = TabExpandedString::new(msg.into(), state.tab_width);
state.update_estimate_and_draw(Instant::now());
}
/// Creates a new weak reference to this `ProgressBar`
pub fn downgrade(&self) -> WeakProgressBar {
WeakProgressBar {
state: Arc::downgrade(&self.state),
pos: Arc::downgrade(&self.pos),
ticker: Arc::downgrade(&self.ticker),
}
}
/// Resets the ETA calculation
///
/// This can be useful if the progress bars made a large jump or was paused for a prolonged
/// time.
pub fn reset_eta(&self) {
self.state().reset(Instant::now(), Reset::Eta);
}
/// Resets elapsed time and the ETA calculation
pub fn reset_elapsed(&self) {
self.state().reset(Instant::now(), Reset::Elapsed);
}
/// Resets all of the progress bar state
pub fn reset(&self) {
self.state().reset(Instant::now(), Reset::All);
}
/// Finishes the progress bar and leaves the current message
pub fn finish(&self) {
self.state()
.finish_using_style(Instant::now(), ProgressFinish::AndLeave);
}
/// Finishes the progress bar and sets a message
///
/// For the message to be visible, the `{msg}` placeholder must be present in the template (see
/// [`ProgressStyle`]).
pub fn finish_with_message(&self, msg: impl Into<Cow<'static, str>>) {
self.state()
.finish_using_style(Instant::now(), ProgressFinish::WithMessage(msg.into()));
}
/// Finishes the progress bar and completely clears it
pub fn finish_and_clear(&self) {
self.state()
.finish_using_style(Instant::now(), ProgressFinish::AndClear);
}
/// Finishes the progress bar and leaves the current message and progress
pub fn abandon(&self) {
self.state()
.finish_using_style(Instant::now(), ProgressFinish::Abandon);
}
/// Finishes the progress bar and sets a message, and leaves the current progress
///
/// For the message to be visible, the `{msg}` placeholder must be present in the template (see
/// [`ProgressStyle`]).
pub fn abandon_with_message(&self, msg: impl Into<Cow<'static, str>>) {
self.state().finish_using_style(
Instant::now(),
ProgressFinish::AbandonWithMessage(msg.into()),
);
}
/// Finishes the progress bar using the behavior stored in the [`ProgressStyle`]
///
/// See [`ProgressBar::with_finish()`].
pub fn finish_using_style(&self) {
let mut state = self.state();
let finish = state.on_finish.clone();
state.finish_using_style(Instant::now(), finish);
}
/// Sets a different draw target for the progress bar
///
/// This can be used to draw the progress bar to stderr (this is the default):
///
/// ```rust,no_run
/// # use indicatif::{ProgressBar, ProgressDrawTarget};
/// let pb = ProgressBar::new(100);
/// pb.set_draw_target(ProgressDrawTarget::stderr());
/// ```
///
/// **Note:** Calling this method on a [`ProgressBar`] linked with a [`MultiProgress`] (after
/// running [`MultiProgress::add`]) will unlink this progress bar. If you don't want this
/// behavior, call [`MultiProgress::set_draw_target`] instead.
///
/// [`MultiProgress`]: crate::MultiProgress
/// [`MultiProgress::add`]: crate::MultiProgress::add
/// [`MultiProgress::set_draw_target`]: crate::MultiProgress::set_draw_target
pub fn set_draw_target(&self, target: ProgressDrawTarget) {
let mut state = self.state();
state.draw_target.disconnect(Instant::now());
state.draw_target = target;
}
/// Hide the progress bar temporarily, execute `f`, then redraw the progress bar
///
/// Useful for external code that writes to the standard output.
///
/// If the progress bar was added to a MultiProgress, it will suspend the entire MultiProgress
///
/// **Note:** The internal lock is held while `f` is executed. Other threads trying to print
/// anything on the progress bar will be blocked until `f` finishes.
/// Therefore, it is recommended to avoid long-running operations in `f`.
///
/// ```rust,no_run
/// # use indicatif::ProgressBar;
/// let mut pb = ProgressBar::new(3);
/// pb.suspend(|| {
/// println!("Log message");
/// })
/// ```
pub fn suspend<F: FnOnce() -> R, R>(&self, f: F) -> R {
self.state().suspend(Instant::now(), f)
}
/// Wraps an [`Iterator`] with the progress bar
///
/// ```rust,no_run
/// # use indicatif::ProgressBar;
/// let v = vec![1, 2, 3];
/// let pb = ProgressBar::new(3);
/// for item in pb.wrap_iter(v.iter()) {
/// // ...
/// }
/// ```
pub fn wrap_iter<It: Iterator>(&self, it: It) -> ProgressBarIter<It> {
it.progress_with(self.clone())
}
/// Wraps an [`io::Read`] with the progress bar
///
/// ```rust,no_run
/// # use std::fs::File;
/// # use std::io;
/// # use indicatif::ProgressBar;
/// # fn test () -> io::Result<()> {
/// let source = File::open("work.txt")?;
/// let mut target = File::create("done.txt")?;
/// let pb = ProgressBar::new(source.metadata()?.len());
/// io::copy(&mut pb.wrap_read(source), &mut target);
/// # Ok(())
/// # }
/// ```
pub fn wrap_read<R: io::Read>(&self, read: R) -> ProgressBarIter<R> {
ProgressBarIter {
progress: self.clone(),
it: read,
}
}
/// Wraps an [`io::Write`] with the progress bar
///
/// ```rust,no_run
/// # use std::fs::File;
/// # use std::io;
/// # use indicatif::ProgressBar;
/// # fn test () -> io::Result<()> {
/// let mut source = File::open("work.txt")?;
/// let target = File::create("done.txt")?;
/// let pb = ProgressBar::new(source.metadata()?.len());
/// io::copy(&mut source, &mut pb.wrap_write(target));
/// # Ok(())
/// # }
/// ```
pub fn wrap_write<W: io::Write>(&self, write: W) -> ProgressBarIter<W> {
ProgressBarIter {
progress: self.clone(),
it: write,
}
}
#[cfg(feature = "tokio")]
#[cfg_attr(docsrs, doc(cfg(feature = "tokio")))]
/// Wraps an [`tokio::io::AsyncWrite`] with the progress bar
///
/// ```rust,no_run
/// # use tokio::fs::File;
/// # use tokio::io;
/// # use indicatif::ProgressBar;
/// # async fn test() -> io::Result<()> {
/// let mut source = File::open("work.txt").await?;
/// let mut target = File::open("done.txt").await?;
/// let pb = ProgressBar::new(source.metadata().await?.len());
/// io::copy(&mut source, &mut pb.wrap_async_write(target)).await?;
/// # Ok(())
/// # }
/// ```
pub fn wrap_async_write<W: tokio::io::AsyncWrite + Unpin>(
&self,
write: W,
) -> ProgressBarIter<W> {
ProgressBarIter {
progress: self.clone(),
it: write,
}
}
#[cfg(feature = "tokio")]
#[cfg_attr(docsrs, doc(cfg(feature = "tokio")))]
/// Wraps an [`tokio::io::AsyncRead`] with the progress bar
///
/// ```rust,no_run
/// # use tokio::fs::File;
/// # use tokio::io;
/// # use indicatif::ProgressBar;
/// # async fn test() -> io::Result<()> {
/// let mut source = File::open("work.txt").await?;
/// let mut target = File::open("done.txt").await?;
/// let pb = ProgressBar::new(source.metadata().await?.len());
/// io::copy(&mut pb.wrap_async_read(source), &mut target).await?;
/// # Ok(())
/// # }
/// ```
pub fn wrap_async_read<R: tokio::io::AsyncRead + Unpin>(&self, read: R) -> ProgressBarIter<R> {
ProgressBarIter {
progress: self.clone(),
it: read,
}
}
/// Wraps a [`futures::Stream`](https://docs.rs/futures/0.3/futures/stream/trait.StreamExt.html) with the progress bar
///
/// ```
/// # use indicatif::ProgressBar;
/// # futures::executor::block_on(async {
/// use futures::stream::{self, StreamExt};
/// let pb = ProgressBar::new(10);
/// let mut stream = pb.wrap_stream(stream::iter('a'..='z'));
///
/// assert_eq!(stream.next().await, Some('a'));
/// assert_eq!(stream.count().await, 25);
/// # }); // block_on
/// ```
#[cfg(feature = "futures")]
#[cfg_attr(docsrs, doc(cfg(feature = "futures")))]
pub fn wrap_stream<S: futures_core::Stream>(&self, stream: S) -> ProgressBarIter<S> {
ProgressBarIter {
progress: self.clone(),
it: stream,
}
}
/// Returns the current position
pub fn position(&self) -> u64 {
self.state().state.pos()
}
/// Returns the current length
pub fn length(&self) -> Option<u64> {
self.state().state.len()
}
/// Returns the current ETA
pub fn eta(&self) -> Duration {
self.state().state.eta()
}
/// Returns the current rate of progress
pub fn per_sec(&self) -> f64 {
self.state().state.per_sec()
}
/// Returns the current expected duration
pub fn duration(&self) -> Duration {
self.state().state.duration()
}
/// Returns the current elapsed time
pub fn elapsed(&self) -> Duration {
self.state().state.elapsed()
}
/// Index in the `MultiState`
pub(crate) fn index(&self) -> Option<usize> {
self.state().draw_target.remote().map(|(_, idx)| idx)
}
/// Current message
pub fn message(&self) -> String {
self.state().state.message.expanded().to_string()
}
/// Current prefix
pub fn prefix(&self) -> String {
self.state().state.prefix.expanded().to_string()
}
#[inline]
pub(crate) fn state(&self) -> MutexGuard<'_, BarState> {
self.state.lock().unwrap()
}
}
/// A weak reference to a `ProgressBar`.
///
/// Useful for creating custom steady tick implementations
#[derive(Clone, Default)]
pub struct WeakProgressBar {
state: Weak<Mutex<BarState>>,
pos: Weak<AtomicPosition>,
ticker: Weak<Mutex<Option<Ticker>>>,
}
impl WeakProgressBar {
/// Create a new `WeakProgressBar` that returns `None` when [`upgrade`] is called.
///
/// [`upgrade`]: WeakProgressBar::upgrade
pub fn new() -> Self {
Self::default()
}
/// Attempts to upgrade the Weak pointer to a [`ProgressBar`], delaying dropping of the inner
/// value if successful. Returns `None` if the inner value has since been dropped.
///
/// [`ProgressBar`]: struct.ProgressBar.html
pub fn upgrade(&self) -> Option<ProgressBar> {
let state = self.state.upgrade()?;
let pos = self.pos.upgrade()?;
let ticker = self.ticker.upgrade()?;
Some(ProgressBar { state, pos, ticker })
}
}
pub(crate) struct Ticker {
stopping: Arc<(Mutex<bool>, Condvar)>,
join_handle: Option<thread::JoinHandle<()>>,
}
impl Drop for Ticker {
fn drop(&mut self) {
self.stop();
self.join_handle.take().map(|handle| handle.join());
}
}
#[cfg(test)]
static TICKER_RUNNING: AtomicBool = AtomicBool::new(false);
impl Ticker {
pub(crate) fn new(interval: Duration, bar_state: &Arc<Mutex<BarState>>) -> Self {
debug_assert!(!interval.is_zero());
// A `Mutex<bool>` is used as a flag to indicate whether the ticker was requested to stop.
// The `Condvar` is used a notification mechanism: when the ticker is dropped, we notify
// the thread and interrupt the ticker wait.
#[allow(clippy::mutex_atomic)]
let stopping = Arc::new((Mutex::new(false), Condvar::new()));
let control = TickerControl {
stopping: stopping.clone(),
state: Arc::downgrade(bar_state),
};
let join_handle = thread::spawn(move || control.run(interval));
Self {
stopping,
join_handle: Some(join_handle),
}
}
pub(crate) fn stop(&self) {
*self.stopping.0.lock().unwrap() = true;
self.stopping.1.notify_one();
}
}
struct TickerControl {
stopping: Arc<(Mutex<bool>, Condvar)>,
state: Weak<Mutex<BarState>>,
}
impl TickerControl {
fn run(&self, interval: Duration) {
#[cfg(test)]
TICKER_RUNNING.store(true, Ordering::SeqCst);
while let Some(arc) = self.state.upgrade() {
let mut state = arc.lock().unwrap();
if state.state.is_finished() {
break;
}
state.tick(Instant::now());
drop(state); // Don't forget to drop the lock before sleeping
drop(arc); // Also need to drop Arc otherwise BarState won't be dropped
// Wait for `interval` but return early if we are notified to stop
let (_, result) = self
.stopping
.1
.wait_timeout_while(self.stopping.0.lock().unwrap(), interval, |stopped| {
!*stopped
})
.unwrap();
// If the wait didn't time out, it means we were notified to stop
if !result.timed_out() {
break;
}
}
#[cfg(test)]
TICKER_RUNNING.store(false, Ordering::SeqCst);
}
}
// Tests using the global TICKER_RUNNING flag need to be serialized
#[cfg(test)]
pub(crate) static TICKER_TEST: Lazy<Mutex<()>> = Lazy::new(Mutex::default);
#[cfg(test)]
mod tests {
use super::*;
#[allow(clippy::float_cmp)]
#[test]
fn test_pbar_zero() {
let pb = ProgressBar::new(0);
assert_eq!(pb.state().state.fraction(), 1.0);
}
#[allow(clippy::float_cmp)]
#[test]
fn test_pbar_maxu64() {
let pb = ProgressBar::new(!0);
assert_eq!(pb.state().state.fraction(), 0.0);
}
#[test]
fn test_pbar_overflow() {
let pb = ProgressBar::new(1);
pb.set_draw_target(ProgressDrawTarget::hidden());
pb.inc(2);
pb.finish();
}
#[test]
fn test_get_position() {
let pb = ProgressBar::new(1);
pb.set_draw_target(ProgressDrawTarget::hidden());
pb.inc(2);
let pos = pb.position();
assert_eq!(pos, 2);
}
#[test]
fn test_weak_pb() {
let pb = ProgressBar::new(0);
let weak = pb.downgrade();
assert!(weak.upgrade().is_some());
::std::mem::drop(pb);
assert!(weak.upgrade().is_none());
}
#[test]
fn it_can_wrap_a_reader() {
let bytes = &b"I am an implementation of io::Read"[..];
let pb = ProgressBar::new(bytes.len() as u64);
let mut reader = pb.wrap_read(bytes);
let mut writer = Vec::new();
io::copy(&mut reader, &mut writer).unwrap();
assert_eq!(writer, bytes);
}
#[test]
fn it_can_wrap_a_writer() {
let bytes = b"implementation of io::Read";
let mut reader = &bytes[..];
let pb = ProgressBar::new(bytes.len() as u64);
let writer = Vec::new();
let mut writer = pb.wrap_write(writer);
io::copy(&mut reader, &mut writer).unwrap();
assert_eq!(writer.it, bytes);
}
#[test]
fn ticker_thread_terminates_on_drop() {
let _guard = TICKER_TEST.lock().unwrap();
assert!(!TICKER_RUNNING.load(Ordering::SeqCst));
let pb = ProgressBar::new_spinner();
pb.enable_steady_tick(Duration::from_millis(50));
// Give the thread time to start up
thread::sleep(Duration::from_millis(250));
assert!(TICKER_RUNNING.load(Ordering::SeqCst));
drop(pb);
assert!(!TICKER_RUNNING.load(Ordering::SeqCst));
}
#[test]
fn ticker_thread_terminates_on_drop_2() {
let _guard = TICKER_TEST.lock().unwrap();
assert!(!TICKER_RUNNING.load(Ordering::SeqCst));
let pb = ProgressBar::new_spinner();
pb.enable_steady_tick(Duration::from_millis(50));
let pb2 = pb.clone();
// Give the thread time to start up
thread::sleep(Duration::from_millis(250));
assert!(TICKER_RUNNING.load(Ordering::SeqCst));
drop(pb);
assert!(TICKER_RUNNING.load(Ordering::SeqCst));
drop(pb2);
assert!(!TICKER_RUNNING.load(Ordering::SeqCst));
}
}
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