Trait tracing_subscriber::filter::FilterExt
source · pub trait FilterExt<S>: Filter<S> {
// Provided methods
fn and<B>(self, other: B) -> And<Self, B, S> ⓘ
where Self: Sized,
B: Filter<S> { ... }
fn or<B>(self, other: B) -> Or<Self, B, S> ⓘ
where Self: Sized,
B: Filter<S> { ... }
fn not(self) -> Not<Self, S> ⓘ
where Self: Sized { ... }
fn boxed(self) -> Box<dyn Filter<S> + Send + Sync + 'static>
where Self: Sized + Send + Sync + 'static { ... }
}
registry
and std
only.Expand description
Extension trait adding combinators for combining Filter
.
Provided Methods§
sourcefn and<B>(self, other: B) -> And<Self, B, S> ⓘ
fn and<B>(self, other: B) -> And<Self, B, S> ⓘ
Combines this Filter
with another Filter
s so that spans and
events are enabled if and only if both filters return true
.
Examples
Enabling spans or events if they have both a particular target and are above a certain level:
use tracing_subscriber::{
filter::{filter_fn, LevelFilter, FilterExt},
prelude::*,
};
// Enables spans and events with targets starting with `interesting_target`:
let target_filter = filter_fn(|meta| {
meta.target().starts_with("interesting_target")
});
// Enables spans and events with levels `INFO` and below:
let level_filter = LevelFilter::INFO;
// Combine the two filters together, returning a filter that only enables
// spans and events that *both* filters will enable:
let filter = target_filter.and(level_filter);
tracing_subscriber::registry()
.with(tracing_subscriber::fmt::layer().with_filter(filter))
.init();
// This event will *not* be enabled:
tracing::info!("an event with an uninteresting target");
// This event *will* be enabled:
tracing::info!(target: "interesting_target", "a very interesting event");
// This event will *not* be enabled:
tracing::debug!(target: "interesting_target", "interesting debug event...");
sourcefn or<B>(self, other: B) -> Or<Self, B, S> ⓘ
fn or<B>(self, other: B) -> Or<Self, B, S> ⓘ
Combines two Filter
s so that spans and events are enabled if either filter
returns true
.
Examples
Enabling spans and events at the INFO
level and above, and all spans
and events with a particular target:
use tracing_subscriber::{
filter::{filter_fn, LevelFilter, FilterExt},
prelude::*,
};
// Enables spans and events with targets starting with `interesting_target`:
let target_filter = filter_fn(|meta| {
meta.target().starts_with("interesting_target")
});
// Enables spans and events with levels `INFO` and below:
let level_filter = LevelFilter::INFO;
// Combine the two filters together so that a span or event is enabled
// if it is at INFO or lower, or if it has a target starting with
// `interesting_target`.
let filter = level_filter.or(target_filter);
tracing_subscriber::registry()
.with(tracing_subscriber::fmt::layer().with_filter(filter))
.init();
// This event will *not* be enabled:
tracing::debug!("an uninteresting event");
// This event *will* be enabled:
tracing::info!("an uninteresting INFO event");
// This event *will* be enabled:
tracing::info!(target: "interesting_target", "a very interesting event");
// This event *will* be enabled:
tracing::debug!(target: "interesting_target", "interesting debug event...");
Enabling a higher level for a particular target by using or
in
conjunction with the and
combinator:
use tracing_subscriber::{
filter::{filter_fn, LevelFilter, FilterExt},
prelude::*,
};
// This filter will enable spans and events with targets beginning with
// `my_crate`:
let my_crate = filter_fn(|meta| {
meta.target().starts_with("my_crate")
});
let filter = my_crate
// Combine the `my_crate` filter with a `LevelFilter` to produce a
// filter that will enable the `INFO` level and lower for spans and
// events with `my_crate` targets:
.and(LevelFilter::INFO)
// If a span or event *doesn't* have a target beginning with
// `my_crate`, enable it if it has the `WARN` level or lower:
.or(LevelFilter::WARN);
tracing_subscriber::registry()
.with(tracing_subscriber::fmt::layer().with_filter(filter))
.init();
sourcefn not(self) -> Not<Self, S> ⓘwhere
Self: Sized,
fn not(self) -> Not<Self, S> ⓘwhere
Self: Sized,
Inverts self
, returning a filter that enables spans and events only if
self
would not enable them.
This inverts the values returned by the enabled
and callsite_enabled
methods on the wrapped filter; it does not invert event_enabled
, as
filters which do not implement filtering on event field values will return
the default true
even for events that their enabled
method disables.
Consider a normal filter defined as:
// for spans
match callsite_enabled() {
ALWAYS => on_span(),
SOMETIMES => if enabled() { on_span() },
NEVER => (),
}
// for events
match callsite_enabled() {
ALWAYS => on_event(),
SOMETIMES => if enabled() && event_enabled() { on_event() },
NEVER => (),
}
and an inverted filter defined as:
// for spans
match callsite_enabled() {
ALWAYS => (),
SOMETIMES => if !enabled() { on_span() },
NEVER => on_span(),
}
// for events
match callsite_enabled() {
ALWAYS => (),
SOMETIMES => if !enabled() { on_event() },
NEVER => on_event(),
}
A proper inversion would do !(enabled() && event_enabled())
(or
!enabled() || !event_enabled()
), but because of the implicit &&
relation between enabled
and event_enabled
, it is difficult to
short circuit and not call the wrapped event_enabled
.
A combinator which remembers the result of enabled
in order to call
event_enabled
only when enabled() == true
is possible, but requires
additional thread-local mutable state to support a very niche use case.
sourcefn boxed(self) -> Box<dyn Filter<S> + Send + Sync + 'static>
fn boxed(self) -> Box<dyn Filter<S> + Send + Sync + 'static>
Boxes self
, erasing its concrete type.
This is equivalent to calling Box::new
, but in method form, so that
it can be used when chaining combinator methods.
Examples
When different combinations of filters are used conditionally, they may
have different types. For example, the following code won’t compile,
since the if
and else
clause produce filters of different types:
use tracing_subscriber::{
filter::{filter_fn, LevelFilter, FilterExt},
prelude::*,
};
let enable_bar_target: bool = // ...
let filter = if enable_bar_target {
filter_fn(|meta| meta.target().starts_with("foo"))
// If `enable_bar_target` is true, add a `filter_fn` enabling
// spans and events with the target `bar`:
.or(filter_fn(|meta| meta.target().starts_with("bar")))
.and(LevelFilter::INFO)
} else {
filter_fn(|meta| meta.target().starts_with("foo"))
.and(LevelFilter::INFO)
};
tracing_subscriber::registry()
.with(tracing_subscriber::fmt::layer().with_filter(filter))
.init();
By using boxed
, the types of the two different branches can be erased,
so the assignment to the filter
variable is valid (as both branches
have the type Box<dyn Filter<S> + Send + Sync + 'static>
). The
following code does compile:
use tracing_subscriber::{
filter::{filter_fn, LevelFilter, FilterExt},
prelude::*,
};
let enable_bar_target: bool = // ...
let filter = if enable_bar_target {
filter_fn(|meta| meta.target().starts_with("foo"))
.or(filter_fn(|meta| meta.target().starts_with("bar")))
.and(LevelFilter::INFO)
// Boxing the filter erases its type, so both branches now
// have the same type.
.boxed()
} else {
filter_fn(|meta| meta.target().starts_with("foo"))
.and(LevelFilter::INFO)
.boxed()
};
tracing_subscriber::registry()
.with(tracing_subscriber::fmt::layer().with_filter(filter))
.init();