Struct tracing_subscriber::registry::SpanRef [−][src]
pub struct SpanRef<'a, R: LookupSpan<'a>> { /* fields omitted */ }
Expand description
Implementations
Returns a static reference to the span’s metadata.
Returns the ID of this span’s parent, or None
if this span is the root
of its trace tree.
Returns a SpanRef
describing this span’s parent, or None
if this
span is the root of its trace tree.
Returns an iterator over all parents of this span, starting with this span, ordered from leaf to root.
The iterator will first return the span, then the span’s immediate parent, followed by that span’s parent, and so on, until it reaches a root span.
use tracing::{span, Subscriber};
use tracing_subscriber::{
layer::{Context, Layer},
prelude::*,
registry::LookupSpan,
};
struct PrintingLayer;
impl<S> Layer<S> for PrintingLayer
where
S: Subscriber + for<'lookup> LookupSpan<'lookup>,
{
fn on_enter(&self, id: &span::Id, ctx: Context<S>) {
let span = ctx.span(id).unwrap();
let scope = span.scope().map(|span| span.name()).collect::<Vec<_>>();
println!("Entering span: {:?}", scope);
}
}
tracing::subscriber::with_default(tracing_subscriber::registry().with(PrintingLayer), || {
let _root = tracing::info_span!("root").entered();
// Prints: Entering span: ["root"]
let _child = tracing::info_span!("child").entered();
// Prints: Entering span: ["child", "root"]
let _leaf = tracing::info_span!("leaf").entered();
// Prints: Entering span: ["leaf", "child", "root"]
});
If the opposite order (from the root to this span) is desired, calling Scope::from_root
on
the returned iterator reverses the order.
impl<S> Layer<S> for PrintingLayer
where
S: Subscriber + for<'lookup> LookupSpan<'lookup>,
{
fn on_enter(&self, id: &span::Id, ctx: Context<S>) {
let span = ctx.span(id).unwrap();
let scope = span.scope().from_root().map(|span| span.name()).collect::<Vec<_>>();
println!("Entering span: {:?}", scope);
}
}
tracing::subscriber::with_default(tracing_subscriber::registry().with(PrintingLayer), || {
let _root = tracing::info_span!("root").entered();
// Prints: Entering span: ["root"]
let _child = tracing::info_span!("child").entered();
// Prints: Entering span: ["root", "child"]
let _leaf = tracing::info_span!("leaf").entered();
// Prints: Entering span: ["root", "child", "leaf"]
});
👎 Deprecated: equivalent to self.parent().into_iter().flat_map(SpanRef::scope)
, but consider whether excluding self
is actually intended
equivalent to self.parent().into_iter().flat_map(SpanRef::scope)
, but consider whether excluding self
is actually intended
Returns an iterator over all parents of this span, starting with the immediate parent.
The iterator will first return the span’s immediate parent, followed by that span’s parent, followed by that span’s parent, and so on, until a it reaches a root span.
👎 Deprecated since 0.2.19: equivalent to self.parent().into_iter().flat_map(|span| span.scope().from_root())
, but consider whether excluding self
is actually intended
equivalent to self.parent().into_iter().flat_map(|span| span.scope().from_root())
, but consider whether excluding self
is actually intended
Returns an iterator over all parents of this span, starting with the root of the trace tree.
The iterator will return the root of the trace tree, followed by the next span, and then the next, until this span’s immediate parent is returned.
Note: this will allocate if there are many spans remaining, or if the “smallvec” feature flag is not enabled.
Returns a reference to this span’s Extensions
.
The extensions may be used by Layer
s to store additional data
describing the span.
Returns a mutable reference to this span’s Extensions
.
The extensions may be used by Layer
s to store additional data
describing the span.