Zone abstract class
A zone represents an environment that remains stable across asynchronous calls.
Code is always executed in the context of a zone, available as Zone.current. The initial main
function runs in the context of the default zone (Zone.ROOT). Code can be run in a different zone using either runZoned, to create a new zone, or Zone.run to run code in the context of an existing zone likely created using Zone.fork.
Developers can create a new zone that overrides some of the functionality of an existing zone. For example, custom zones can replace of modify the behavior of print
, timers, microtasks or how uncaught errors are handled.
The Zone class is not subclassable, but users can provide custom zones by forking an existing zone (usually Zone.current) with a ZoneSpecification. This is similar to creating a new class that extends the base Zone
class and that overrides some methods, except without actually creating a new class. Instead the overriding methods are provided as functions that explicitly take the equivalent of their own class, the "super" class and the this
object as parameters.
Asynchronous callbacks always run in the context of the zone where they were scheduled. This is implemented using two steps:
- the callback is first registered using one of registerCallback, registerUnaryCallback, or registerBinaryCallback. This allows the zone to record that a callback exists and potentially modify it (by returning a different callback). The code doing the registration (e.g.,
Future.then
) also remembers the current zone so that it can later run the callback in that zone. - At a later point the registered callback is run in the remembered zone.
This is all handled internally by the platform code and most users don't need to worry about it. However, developers of new asynchronous operations, provided by the underlying system or through native extensions, must follow the protocol to be zone compatible.
For convenience, zones provide bindCallback (and the corresponding bindUnaryCallback or bindBinaryCallback) to make it easier to respect the zone contract: these functions first invoke the corresponding register
functions and then wrap the returned function so that it runs in the current zone when it is later asynchronously invoked.
Constants
Static Properties
Properties
- errorZone → Zone read-only
-
The error zone is the one that is responsible for dealing with uncaught errors.
- parent → Zone read-only
-
The parent zone of the this zone.
- hashCode → int read-only, inherited
-
The hash code for this object.
- runtimeType → Type read-only, inherited
-
A representation of the runtime type of the object.
Operators
- operator [](
Object key) → dynamic -
Retrieves the zone-value associated with
key
. - operator ==(
other) → bool inherited -
The equality operator.
Methods
- bindBinaryCallback<R, T1, T2>(
R action(T1 argument1, T2 argument2), { bool runGuarded: true }) → ZoneBinaryCallback<R, T1, T2> -
Equivalent to:
- bindCallback<R>(
R action(), { bool runGuarded: true }) → ZoneCallback<R> -
Equivalent to:
- bindUnaryCallback<R, T>(
R action(T argument), { bool runGuarded: true }) → ZoneUnaryCallback<R, T> -
Equivalent to:
- createPeriodicTimer(
Duration period, void callback(Timer timer)) → Timer -
Creates a periodic Timer where the callback is executed in this zone.
- createTimer(
Duration duration, void callback()) → Timer -
Creates a Timer where the callback is executed in this zone.
- errorCallback(
Object error, StackTrace stackTrace) → AsyncError -
Intercepts errors when added programatically to a
Future
orStream
. - fork(
{ZoneSpecification specification, Map zoneValues }) → Zone -
Creates a new zone as a child of
this
. - handleUncaughtError<R>(
error, StackTrace stackTrace) → R -
Handles uncaught asynchronous errors.
- inSameErrorZone(
Zone otherZone) → bool -
Returns true if
this
andotherZone
are in the same error zone. - print(
String line) → void -
Prints the given
line
. - registerBinaryCallback<R, T1, T2>(
R callback(T1 arg1, T2 arg2)) → ZoneBinaryCallback<R, T1, T2> -
Registers the given callback in this zone.
- registerCallback<R>(
R callback()) → ZoneCallback<R> -
Registers the given callback in this zone.
- registerUnaryCallback<R, T>(
R callback(T arg)) → ZoneUnaryCallback<R, T> -
Registers the given callback in this zone.
- run<R>(
R action()) → R -
Executes
action
in this zone. - runBinary<R, T1, T2>(
R action(T1 argument1, T2 argument2), T1 argument1, T2 argument2) → R -
Executes the given
action
withargument1
andargument2
in this zone. - runBinaryGuarded<R, T1, T2>(
R action(T1 argument1, T2 argument2), T1 argument1, T2 argument2) → R -
Executes the given
action
withargument1
andargument2
in this zone and catches synchronous errors. - runGuarded<R>(
R action()) → R -
Executes the given
action
in this zone and catches synchronous errors. - runUnary<R, T>(
R action(T argument), T argument) → R -
Executes the given
action
withargument
in this zone. - runUnaryGuarded<R, T>(
R action(T argument), T argument) → R -
Executes the given
action
withargument
in this zone and catches synchronous errors. - scheduleMicrotask(
void action()) → void -
Runs
action
asynchronously in this zone. - noSuchMethod(
Invocation invocation) → dynamic inherited -
Invoked when a non-existent method or property is accessed.
- toString(
) → String inherited -
Returns a string representation of this object.
© 2012 the Dart project authors
Licensed under the Creative Commons Attribution-ShareAlike License v4.0.
https://api.dartlang.org/stable/1.24.3/dart-async/Zone-class.html