tokio/time/instant.rs
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#![allow(clippy::trivially_copy_pass_by_ref)]
use std::fmt;
use std::ops;
use std::time::Duration;
/// A measurement of a monotonically nondecreasing clock.
/// Opaque and useful only with `Duration`.
///
/// Instants are always guaranteed to be no less than any previously measured
/// instant when created, and are often useful for tasks such as measuring
/// benchmarks or timing how long an operation takes.
///
/// Note, however, that instants are not guaranteed to be **steady**. In other
/// words, each tick of the underlying clock may not be the same length (e.g.
/// some seconds may be longer than others). An instant may jump forwards or
/// experience time dilation (slow down or speed up), but it will never go
/// backwards.
///
/// Instants are opaque types that can only be compared to one another. There is
/// no method to get "the number of seconds" from an instant. Instead, it only
/// allows measuring the duration between two instants (or comparing two
/// instants).
///
/// The size of an `Instant` struct may vary depending on the target operating
/// system.
///
/// # Note
///
/// This type wraps the inner `std` variant and is used to align the Tokio
/// clock for uses of `now()`. This can be useful for testing where you can
/// take advantage of `time::pause()` and `time::advance()`.
#[derive(Clone, Copy, Eq, PartialEq, PartialOrd, Ord, Hash)]
pub struct Instant {
std: std::time::Instant,
}
impl Instant {
/// Returns an instant corresponding to "now".
///
/// # Examples
///
/// ```
/// use tokio::time::Instant;
///
/// let now = Instant::now();
/// ```
pub fn now() -> Instant {
variant::now()
}
/// Create a `tokio::time::Instant` from a `std::time::Instant`.
pub fn from_std(std: std::time::Instant) -> Instant {
Instant { std }
}
pub(crate) fn far_future() -> Instant {
// Roughly 30 years from now.
// API does not provide a way to obtain max `Instant`
// or convert specific date in the future to instant.
// 1000 years overflows on macOS, 100 years overflows on FreeBSD.
Self::now() + Duration::from_secs(86400 * 365 * 30)
}
/// Convert the value into a `std::time::Instant`.
pub fn into_std(self) -> std::time::Instant {
self.std
}
/// Returns the amount of time elapsed from another instant to this one, or
/// zero duration if that instant is later than this one.
pub fn duration_since(&self, earlier: Instant) -> Duration {
self.std.saturating_duration_since(earlier.std)
}
/// Returns the amount of time elapsed from another instant to this one, or
/// None if that instant is later than this one.
///
/// # Examples
///
/// ```
/// use tokio::time::{Duration, Instant, sleep};
///
/// #[tokio::main]
/// async fn main() {
/// let now = Instant::now();
/// sleep(Duration::new(1, 0)).await;
/// let new_now = Instant::now();
/// println!("{:?}", new_now.checked_duration_since(now));
/// println!("{:?}", now.checked_duration_since(new_now)); // None
/// }
/// ```
pub fn checked_duration_since(&self, earlier: Instant) -> Option<Duration> {
self.std.checked_duration_since(earlier.std)
}
/// Returns the amount of time elapsed from another instant to this one, or
/// zero duration if that instant is later than this one.
///
/// # Examples
///
/// ```
/// use tokio::time::{Duration, Instant, sleep};
///
/// #[tokio::main]
/// async fn main() {
/// let now = Instant::now();
/// sleep(Duration::new(1, 0)).await;
/// let new_now = Instant::now();
/// println!("{:?}", new_now.saturating_duration_since(now));
/// println!("{:?}", now.saturating_duration_since(new_now)); // 0ns
/// }
/// ```
pub fn saturating_duration_since(&self, earlier: Instant) -> Duration {
self.std.saturating_duration_since(earlier.std)
}
/// Returns the amount of time elapsed since this instant was created,
/// or zero duration if that this instant is in the future.
///
/// # Examples
///
/// ```
/// use tokio::time::{Duration, Instant, sleep};
///
/// #[tokio::main]
/// async fn main() {
/// let instant = Instant::now();
/// let three_secs = Duration::from_secs(3);
/// sleep(three_secs).await;
/// assert!(instant.elapsed() >= three_secs);
/// }
/// ```
pub fn elapsed(&self) -> Duration {
Instant::now().saturating_duration_since(*self)
}
/// Returns `Some(t)` where `t` is the time `self + duration` if `t` can be
/// represented as `Instant` (which means it's inside the bounds of the
/// underlying data structure), `None` otherwise.
pub fn checked_add(&self, duration: Duration) -> Option<Instant> {
self.std.checked_add(duration).map(Instant::from_std)
}
/// Returns `Some(t)` where `t` is the time `self - duration` if `t` can be
/// represented as `Instant` (which means it's inside the bounds of the
/// underlying data structure), `None` otherwise.
pub fn checked_sub(&self, duration: Duration) -> Option<Instant> {
self.std.checked_sub(duration).map(Instant::from_std)
}
}
impl From<std::time::Instant> for Instant {
fn from(time: std::time::Instant) -> Instant {
Instant::from_std(time)
}
}
impl From<Instant> for std::time::Instant {
fn from(time: Instant) -> std::time::Instant {
time.into_std()
}
}
impl ops::Add<Duration> for Instant {
type Output = Instant;
fn add(self, other: Duration) -> Instant {
Instant::from_std(self.std + other)
}
}
impl ops::AddAssign<Duration> for Instant {
fn add_assign(&mut self, rhs: Duration) {
*self = *self + rhs;
}
}
impl ops::Sub for Instant {
type Output = Duration;
fn sub(self, rhs: Instant) -> Duration {
self.std.saturating_duration_since(rhs.std)
}
}
impl ops::Sub<Duration> for Instant {
type Output = Instant;
fn sub(self, rhs: Duration) -> Instant {
Instant::from_std(std::time::Instant::sub(self.std, rhs))
}
}
impl ops::SubAssign<Duration> for Instant {
fn sub_assign(&mut self, rhs: Duration) {
*self = *self - rhs;
}
}
impl fmt::Debug for Instant {
fn fmt(&self, fmt: &mut fmt::Formatter<'_>) -> fmt::Result {
self.std.fmt(fmt)
}
}
#[cfg(not(feature = "test-util"))]
mod variant {
use super::Instant;
pub(super) fn now() -> Instant {
Instant::from_std(std::time::Instant::now())
}
}
#[cfg(feature = "test-util")]
mod variant {
use super::Instant;
pub(super) fn now() -> Instant {
crate::time::clock::now()
}
}