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use crate::loom::sync::Arc;
use crate::time::driver::ClockTime;
use std::fmt;
/// Handle to time driver instance.
#[derive(Clone)]
pub(crate) struct Handle {
time_source: ClockTime,
inner: Arc<super::Inner>,
}
impl Handle {
/// Creates a new timer `Handle` from a shared `Inner` timer state.
pub(super) fn new(inner: Arc<super::Inner>) -> Self {
let time_source = inner.state.lock().time_source.clone();
Handle { time_source, inner }
}
/// Returns the time source associated with this handle.
pub(super) fn time_source(&self) -> &ClockTime {
&self.time_source
}
/// Access the driver's inner structure.
pub(super) fn get(&self) -> &super::Inner {
&*self.inner
}
/// Checks whether the driver has been shutdown.
pub(super) fn is_shutdown(&self) -> bool {
self.inner.is_shutdown()
}
}
cfg_rt! {
impl Handle {
/// Tries to get a handle to the current timer.
///
/// # Panics
///
/// This function panics if there is no current timer set.
///
/// It can be triggered when `Builder::enable_time()` or
/// `Builder::enable_all()` are not included in the builder.
///
/// It can also panic whenever a timer is created outside of a
/// Tokio runtime. That is why `rt.block_on(delay_for(...))` will panic,
/// since the function is executed outside of the runtime.
/// Whereas `rt.block_on(async {delay_for(...).await})` doesn't panic.
/// And this is because wrapping the function on an async makes it lazy,
/// and so gets executed inside the runtime successfully without
/// panicking.
pub(crate) fn current() -> Self {
crate::runtime::context::time_handle()
.expect("A Tokio 1.x context was found, but timers are disabled. Call `enable_time` on the runtime builder to enable timers.")
}
}
}
cfg_not_rt! {
impl Handle {
/// Tries to get a handle to the current timer.
///
/// # Panics
///
/// This function panics if there is no current timer set.
///
/// It can be triggered when `Builder::enable_time()` or
/// `Builder::enable_all()` are not included in the builder.
///
/// It can also panic whenever a timer is created outside of a Tokio
/// runtime. That is why `rt.block_on(delay_for(...))` will panic,
/// since the function is executed outside of the runtime.
/// Whereas `rt.block_on(async {delay_for(...).await})` doesn't
/// panic. And this is because wrapping the function on an async makes it
/// lazy, and so outside executed inside the runtime successfully without
/// panicking.
pub(crate) fn current() -> Self {
panic!("{}", crate::util::error::CONTEXT_MISSING_ERROR)
}
}
}
impl fmt::Debug for Handle {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
write!(f, "Handle")
}
}
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