state_beacon_core 0.33.2 state_beacon_core: ^0.33.2 copied to clipboard
A reactive primitive and simple state managerment solution for dart.
Overview #
A Beacon is a reactive primitive(signal
) and simple state management solution for Dart and Flutter.
Installation #
dart pub add state_beacon_core
Usage #
import 'package:flutter/material.dart';
import 'package:state_beacon/state_beacon.dart';
final name = Beacon.writable("Bob");
class ProfileCard extends StatelessWidget {
const ProfileCard({super.key});
@override
Widget build(BuildContext context) {
// rebuilds whenever the name changes
return Text(name.watch(context));
}
}
Using an asynchronous function
final counter = Beacon.writable(0);
// The future will be recomputed whenever the counter changes
final derivedFutureCounter = Beacon.derivedFuture(() async {
final count = counter.value;
return await fetchData(count);
});
Future<String> fetchData(int count) async {
await Future.delayed(Duration(seconds: count));
return '$count second has passed.';
}
class FutureCounter extends StatelessWidget {
const FutureCounter({super.key});
@override
Widget build(BuildContext context) {
return switch (derivedFutureCounter.watch(context)) {
AsyncData<String>(value: final v) => Text(v),
AsyncError(error: final e) => Text('$e'),
_ => const CircularProgressIndicator(),
};
}
}
Linting (optional) #
It is recommended to use state_beacon_lint for package specific rules.
dart pub add custom_lint state_beacon_lint --dev
Enable the custom_lint
plugin in your analysis_options.yaml
file by adding the following.
analyzer:
plugins:
- custom_lint
NB: Create the file if it doesn't exist.
Features #
- Beacon.writable: Mutable beacon that allows both reading and writing.
- Beacon.scopedWritable: Returns a
ReadableBeacon
and a function for setting its value.
- Beacon.scopedWritable: Returns a
- Beacon.readable: Immutable beacon that only emit values, ideal for readonly data.
- Beacon.effect: React to changes in beacon values.
- Beacon.derived: Derive values from other beacons, keeping them reactively in sync.
- Beacon.derivedStream: Specialized derived beacon that subscribes to the stream returned from its callback and updates its value based on the emitted values.
- Beacon.derivedFuture: Derive values from asynchronous operations, managing state during computation.
- Beacon.future: Initialize beacons from futures.
- overrideWith: Replace the callback.
- Beacon.batch: Combine multiple updates into a single notification.
- Beacon.debounced: Delay value updates until a specified time has elapsed, preventing rapid or unwanted updates.
- Beacon.throttled: Limit the frequency of value updates, ideal for managing frequent events or user input.
- Beacon.filtered: Update values based on filter criteria.
- Beacon.timestamped: Attach timestamps to each value update.
- Beacon.undoRedo: Provides the ability to undo and redo value changes.
- Beacon.bufferedCount: Create a buffer/list of values based an
int
limit. - Beacon.bufferedTime: Create a buffer/list of values based on a time limit.
- Beacon.stream: Create beacons from Dart streams. values are wrapped in an
AsyncValue
. - Beacon.streamRaw: Like
Beacon.stream
, but it doesn't wrap the value in anAsyncValue
. - Beacon.list: Manage reactive lists that automatically update dependent beacons upon changes.
- Beacon.hashSet: Like Beacon.list, but for Sets.
- Beacon.hashMap: Like Beacon.list, but for Maps.
- AsyncValue: A wrapper around a value that can be in one of four states:
idle
,loading
,data
, orerror
.- unwrap: Casts this [AsyncValue] to [AsyncData] and return its value.
- lastData: Returns the latest valid data value or null.
- tryCatch: Execute a future and return [AsyncData] or [AsyncError].
- optimistic updates: Update the value optimistically when using tryCatch.
- Beacon.family: Create and manage a family of related beacons.
- Extension Methods: Additional methods for beacons that can be chained.
- stream: Obtain a stream from a beacon, enabling integration with stream-based APIs and libraries.
- wrap: Wraps an existing beacon and consumes its values
- ingest: Wraps any stream and consumes its values
- next: Allows awaiting the next value as a future.
- Chaining Beacons: Seamlessly chain beacons to create sophisticated reactive pipelines, combining multiple functionalities for advanced value manipulation and control.
- buffer: Returns a Beacon.bufferedCount that wraps this beacon.
- bufferTime: Returns a Beacon.bufferedTime that wraps this beacon.
- throttle: Returns a Beacon.throttled that wraps this beacon.
- filter: Returns a Beacon.filtered that wraps this beacon.
- debounce: Returns a Beacon.debounced that wraps this beacon.
Beacon.writable: #
Creates a WritableBeacon
from a value that can be read and written to.
final counter = Beacon.writable(0);
counter.value = 10;
print(counter.value); // 10
Beacon.lazyWritable: #
Like Beacon.writable
but behaves like a late
variable. It must be set before it's read.
NB: All writable beacons have a lazy counterpart.
final counter = Beacon.lazyWritable();
print(counter.value); // throws UninitializeLazyReadException()
counter.value = 10;
print(counter.value); // 10
Beacon.scopedWritable: #
Returns a ReadableBeacon
and a function for setting its value.
This is useful for creating a beacon that's readable by the public,
but writable only by the owner.
var (count,setCount) = Beacon.scopedWritable(15);
Beacon.readable: #
Creates an immutable ReadableBeacon
from a value. This is useful for exposing a beacon's value to consumers without allowing them to modify it.
final counter = Beacon.readable(10);
counter.value = 10; // Compilation error
final _internalCounter = Beacon.writable(10);
// Expose the beacon's value without allowing it to be modified
ReadableBeacon<int> get counter => _internalCounter;
Beacon.effect: #
An effect is just a function that will re-run whenever one of its dependencies change. An effect runs immediately after creation.
final age = Beacon.writable(15);
Beacon.effect(() {
if (age.value >= 18) {
print("You can vote!");
} else {
print("You can't vote yet");
}
});
// Outputs: "You can't vote yet"
age.value = 20; // Outputs: "You can vote!"
Beacon.derived: #
Creates a DerivedBeacon
whose value is derived from a computation function.
This beacon will recompute its value every time one of it's dependencies change.
If shouldSleep
is true
(default), the callback will not execute if the beacon is no longer being watched.
It will resume executing once a listener is added or its value is accessed.
If supportConditional
is false
(default: true), it will only look dependencies on its first run.
This means once a beacon is added as a dependency, it will not be removed even if it's no longer used and no new dependencies will be added. This can be used a performance optimization.
Example:
final age = Beacon.writable<int>(18);
final canDrink = Beacon.derived(() => age.value >= 21);
print(canDrink.value); // Outputs: false
age.value = 22;
print(canDrink.value); // Outputs: true
Beacon.derivedStream: #
Specialized DerivedBeacon
that subscribes to the stream returned from its callback and updates its value based on the emitted values.
When a dependency changes, the beacon will unsubscribe from the old stream and subscribe to the new one.
If shouldSleep
is true
(default), the callback will not execute if the beacon is no longer being watched.
It will cancel the stream subscription and enter a sleep state.
It will resume executing once a listener is added or its value is accessed.
Example:
final userID = Beacon.writable<int>(18235);
final profileBeacon = Beacon.derivedStream(() {
return getProfileStreamFromUID(userID.value);
});
Beacon.derivedFuture: #
Creates a DerivedBeacon
whose value is derived from an asynchronous computation.
This beacon will recompute its value every time one of its dependencies change.
The result is wrapped in an AsyncValue
, which can be in one of four states: idle
, loading
, data
, or error
.
If manualStart
is true
(default: false), the beacon will be in the idle
state and the future will not execute until start()
is called. Calling start()
on a beacon that's already started will have no effect.
If cancelRunning
is true
(default), the results of a current execution will be discarded
if another execution is triggered before the current one finishes.
If shouldSleep
is true
(default), the callback will not execute if the beacon is no longer being watched.
It will resume executing once a listener is added or its value is accessed.
This means that it will enter the loading
state when woken up.
Example:
final counter = Beacon.writable(0);
// The future will be recomputed whenever the counter changes
final derivedFutureCounter = Beacon.derivedFuture(() async {
final count = counter.value;
await Future.delayed(Duration(seconds: count));
return '$count second has passed.';
});
class FutureCounter extends StatelessWidget {
const FutureCounter({super.key});
@override
Widget build(BuildContext context) {
return switch (derivedFutureCounter.watch(context)) {
AsyncData<String>(value: final v) => Text(v),
AsyncError(error: final e) => Text('$e'),
AsyncLoading() || AsyncIdle() => const CircularProgressIndicator(),
};
}
}
Can be transformed into a future with myFutureBeacon.toFuture()
This can useful when a DerivedFutureBeacon depends on another DerivedFutureBeacon.
This functionality is also available to regular FutureBeacons and StreamBeacons.
var count = Beacon.writable(0);
var firstName = Beacon.derivedFuture(() async {
final val = count.value;
await Future.delayed(k10ms);
return 'Sally $val';
});
var lastName = Beacon.derivedFuture(() async {
final val = count.value + 1;
await Future.delayed(k10ms);
return 'Smith $val';
});
var fullName = Beacon.derivedFuture(() async {
// wait for the future to complete
// we don't have to manually handle all the states
final [fname, lname] = await Future.wait(
[
firstName.toFuture(),
lastName.toFuture(),
],
);
return '$fname $lname';
});
Beacon.batch: #
This allows multiple updates to be batched into a single update. This can be used to optimize performance by reducing the number of update notifications.
final age = Beacon.writable<int>(10);
var callCount = 0;
age.subscribe((_) => callCount++);
Beacon.batch(() {
age.value = 15;
age.value = 16;
age.value = 20;
age.value = 23;
});
expect(callCount, equals(1)); // There were 4 updates, but only 1 notification
Beacon.debounced: #
Creates a DebouncedBeacon
that will delay updates to its value based on the duration. This is useful when you want to wait until a user has stopped typing before performing an action.
var query = Beacon.debounced('', duration: Duration(seconds: 1));
query.subscribe((value) {
print(value); // Outputs: 'apple' after 1 second
});
// simulate user typing
query.value = 'a';
query.value = 'ap';
query.value = 'app';
query.value = 'appl';
query.value = 'apple';
// after 1 second, the value will be updated to 'apple'
Beacon.throttled: #
Creates a ThrottledBeacon
that will limit the rate of updates to its value based on the duration.
If dropBlocked
is true
(default), values will be dropped while the beacon is blocked, otherwise, values will be buffered and emitted one by one when the beacon is unblocked.
const k10ms = Duration(milliseconds: 10);
var beacon = Beacon.throttled(10, duration: k10ms);
beacon.set(20);
expect(beacon.value, equals(20)); // first update allowed
beacon.set(30);
expect(beacon.value, equals(20)); // too fast, update ignored
await Future.delayed(k10ms * 1.1);
beacon.set(30);
expect(beacon.value, equals(30)); // throttle time passed, update allowed
Beacon.filtered: #
Creates a FilteredBeacon
that will only updates its value if it passes the filter criteria.
The filter function receives the previous and new values as arguments.
The filter function can also be changed using the setFilter
method.
Simple Example:
// only positive values are allowed
var pageNum = Beacon.filtered(10, filter: (prev, next) => next > 0);
pageNum.value = 20; // update is allowed
pageNum.value = -5; // update is ignored
Example when filter function depends on another beacon:
In this example, posts
is a derived future beacon that will fetch the posts whenever pageNum
changes.
We want to prevent the user from changing pageNum
while posts
is loading.
var pageNum = Beacon.filtered(1); // we will set the filter function later
final posts = Beacon.derivedFuture(() => Repository.getPosts(pageNum.value));
// can't change pageNum while loading
pageNum.setFilter((prev, next) => !posts.isLoading);
Extracted from the infinite list example
Beacon.timestamped: #
Creates a TimestampBeacon
that attaches a timestamp to each value update.
var myBeacon = Beacon.timestamped(10);
print(myBeacon.value); // Outputs: (value: 10, timestamp: __CURRENT_TIME__)
Beacon.undoRedo: #
Creates an UndoRedoBeacon
that allows undoing and redoing changes to its value.
var age = Beacon.undoRedo(0, historyLimit: 10);
age.value = 10;
age.value = 20;
age.undo(); // Reverts to 10
age.redo(); // Goes back to 20
Beacon.bufferedCount: #
Creates a BufferedCountBeacon
that collects and buffers a specified number
of values. Once the count threshold is reached, the beacon's value is updated
with the list of collected values and the buffer is reset.
This beacon is useful in scenarios where you need to aggregate a certain number of values before processing them together.
var countBeacon = Beacon.bufferedCount<int>(3);
countBeacon.subscribe((values) {
print(values);
});
countBeacon.add(1);
countBeacon.add(2);
countBeacon.add(3); // Triggers update and prints [1, 2, 3]
You may also access the currentBuffer
as a readable beacon.
See it in use in the konami example;
Beacon.bufferedTime: #
Creates a BufferedTimeBeacon
that collects values over a specified time duration.
Once the time duration elapses, the beacon's value is updated with the list of
collected values and the buffer is reset.
var timeBeacon = Beacon.bufferedTime<int>(duration: Duration(seconds: 5));
timeBeacon.subscribe((values) {
print(values);
});
timeBeacon.add(1);
timeBeacon.add(2);
// After 5 seconds, it will output [1, 2]
Beacon.stream: #
Creates a StreamBeacon
from a given stream.
This beacon updates its value based on the stream's emitted values.
The emitted values are wrapped in an AsyncValue
, which can be in one of 4 states:idle
, loading
, data
, or error
.
This can we wrapped in a Throttled or Filtered beacon to control the rate of updates.
Can be transformed into a future with mystreamBeacon.toFuture()
:
var myStream = Stream.periodic(Duration(seconds: 1), (i) => i);
var myBeacon = Beacon.stream(myStream);
myBeacon.subscribe((value) {
print(value); // Outputs AsyncLoading(),AsyncData(0),AsyncData(1),AsyncData(2),...
});
Beacon.streamRaw: #
Like Beacon.stream
, but it doesn't wrap the value in an AsyncValue
.
If you don't supply an initial value, the type has to be nullable or isLazy
has to be true
. When isLazy
is true
, the beacon must be set before it's read.
var myStream = Stream.periodic(Duration(seconds: 1), (i) => i);
var myBeacon = Beacon.streamRaw(myStream,initialValue: 0);
myBeacon.subscribe((value) {
print(value); // Outputs 0,1,2,3,...
});
Beacon.future: #
Creates a FutureBeacon
that initializes its value based on a future.
This can be refreshed by calling the reset
method.
If manualStart
is true
, the future will not execute until [start()] is called.
var myBeacon = Beacon.future(() async {
return await Future.delayed(Duration(seconds: 1), () => 'Hello');
});
myBeacon.subscribe((value) {
print(value); // Outputs AsyncLoading immediately then AsyncData('Hello') after 1 second
});
FutureBeacon.overrideWith:
Replaces the current callback and resets the beacon by running the new callback. This can also be done with DerivedFutureBeacons.
var futureBeacon = Beacon.future(() async => 1);
await Future.delayed(k1ms);
expect(futureBeacon.value.unwrap(), 1);
futureBeacon.overrideWith(() async => throw Exception('error'));
await Future.delayed(k1ms);
expect(futureBeacon.value, isA<AsyncError>());
Beacon.list: #
The ListBeacon
provides methods to add, remove, and update items in the list and notifies listeners without having to make a copy.
NB: The previousValue
and current value will always be the same because the same list is being mutated. If you need access to the previousValue, use Beacon.writable
Beacon.hashSet:
Similar to Beacon.list(), but for Sets.
Beacon.hashMap:
Similar to Beacon.list(), but for Maps.
var nums = Beacon.list<int>([1, 2, 3]);
Beacon.effect(() {
print(nums.value); // Outputs: [1, 2, 3]
});
nums.add(4); // Outputs: [1, 2, 3, 4]
nums.remove(2); // Outputs: [1, 3, 4]
AsyncValue: #
An AsyncValue
is a wrapper around a value that can be in one of four states:idle
, loading
, data
, or error
.
This is the value type of FutureBeacons,DerivedFutureBeacons and StreamBeacons.
var myBeacon = Beacon.future(() async {
return await Future.delayed(Duration(seconds: 1), () => 'Hello');
});
print(myBeacon.value); // Outputs AsyncLoading immediately
await Future.delayed(Duration(seconds: 1));
print(myBeacon.value); // Outputs AsyncData('Hello')
AsyncValue.unwrap():
Casts this [AsyncValue] to [AsyncData] and return its value. This will throw an error if the value is not an [AsyncData].
var name = AsyncData('Bob');
print(name.unwrap()); // Outputs: Bob
name = AsyncLoading();
print(name.unwrap()); // Throws error
AsyncValue.lastData:
Returns the latest valid data value or null. This is useful when you want to display the last valid value while loading new data.
var myBeacon = Beacon.future(() async {
return await Future.delayed(Duration(seconds: 1), () => 'Hello');
});
print(myBeacon.value); // Outputs AsyncLoading immediately
print(myBeacon.value.lastData); // Outputs null as there is no valid data yet
await Future.delayed(Duration(seconds: 1));
print(myBeacon.value.lastData); // Outputs 'Hello'
myBeacon.reset();
print(myBeacon.value); // Outputs AsyncLoading
print(myBeacon.value.lastData); // Outputs 'Hello' as the last valid data when in loading state
AsyncValue.tryCatch:
Executes the future provided and returns [AsyncData] with the result if successful or [AsyncError] if an exception is thrown.
Supply an optional [WritableBeacon] that will be set throughout the various states.
Supply an optional [optimisticResult] that will be set while loading, instead of [AsyncLoading].
Future<String> fetchUserData() {
// Imagine this is a network request that might throw an error
return Future.delayed(Duration(seconds: 1), () => 'User data');
}
beacon.value = AsyncLoading();
beacon.value = await AsyncValue.tryCatch(fetchUserData);
You can also pass the beacon as a parameter.
loading
,data
and error
states,
as well as the last successful data will be set automatically.
await AsyncValue.tryCatch(fetchUserData, beacon: beacon);
// or use the extension method.
await beacon.tryCatch(fetchUserData);
See it in use in the shopping cat example.
If you want to do optimistic updates, you can supply an optional optimisticResult
parameter.
await beacon.tryCatch(mutateUserData, optimisticResult: 'User data');
Without tryCatch
, handling the potential error requires more
boilerplate code:
beacon.value = AsyncLoading();
try {
beacon.value = AsyncData(await fetchUserData());
} catch (err,stacktrace) {
beacon.value = AsyncError(err, stacktrace);
}
Beacon.family: #
Creates and manages a family of related Beacon
s based on a single creation function.
This class provides a convenient way to handle related beacons that share the same creation logic but have different arguments.
Type Parameters: #
T
: The type of the value emitted by the beacons in the family.Arg
: The type of the argument used to identify individual beacons within the family.BeaconType
: The type of the beacon in the family.
If cache
is true
, created beacons are cached. Default is false
.
Example:
final apiClientFamily = Beacon.family(
(String baseUrl) {
return Beacon.readable(ApiClient(baseUrl));
},
);
final githubApiClient = apiClientFamily('https://api.github.com');
final twitterApiClient = apiClientFamily('https://api.twitter.com');
Extensions: #
myBeacon.stream: #
This returns a stream that emits the beacon's value whenever it changes.
myWritable.wrap(anyBeacon): #
Wraps an existing beacon and consumes its values
Supply a (then
) function to customize how the emitted values are
processed.
var bufferBeacon = Beacon.bufferedCount<String>(10);
var count = Beacon.writable(5);
// Wrap the bufferBeacon with the readableBeacon and provide a custom transformation.
bufferBeacon.wrap(count, then: (value) {
// Custom transformation: Convert the value to a string and add it to the buffer.
bufferBeacon.add(value.toString());
});
print(bufferBeacon.buffer); // Outputs: ['5']
count.value = 10;
print(bufferBeacon.buffer); // Outputs: ['5', '10']
This method is available on all writable beacons, including BufferedBeacons; and can wrap any beacon since all beacons are readable.
myWritable.ingest(anyStream): #
This functions like .wrap()
but it's specifically for streams. It listens to the stream and updates the beacon's value with the emitted values.
final beacon = Beacon.writable(0);
final myStream = Stream.fromIterable([1, 2, 3]);
beacon.ingest(myStream);
beacon.subscribe((value) {
print(value); // Outputs: 1, 2, 3
});
mybeacon.next(): #
Listens for the next value emitted by this Beacon and returns it as a Future.
This method subscribes to this Beacon and waits for the next value
that matches the optional [filter] function. If [filter] is provided and
returns false
for a emitted value, the method continues waiting for the
next value that matches the filter. If no [filter] is provided,
the method completes with the first value received.
If a value is not emitted within the specified [timeout] duration (default is 10 seconds), the method times out and returns the current value of the beacon.
final age = Beacon.writable(20);
Timer(Duration(seconds: 1), () => age.value = 21;);
final nextAge = await age.next(); // returns 21 after 1 second
Chaining methods: #
Seamlessly chain beacons to create sophisticated reactive pipelines, combining multiple functionalities for advanced value manipulation and control.
// every write to this beacon will be filtered then debounced.
final searchQuery = Beacon.writable('').filter(filter: (prev, next) => next.length > 2).debounce(duration: k500ms);
Important
When chaining beacons, all writes made to the returned beacon will be re-routed to the first beacon in the chain.
const k500ms = Duration(milliseconds: 500);
final count = Beacon.writable(10);
final filteredCount = count
.debounce(duration: k500ms),
.filter(filter: (prev, next) => next > 10);
filteredCount.value = 20;
// The mutation will be re-routed to count
// before being passed to the debounced beacon
// then to the filtered beacon.
// This is equivalent to count.value = 20;
expect(count.value, equals(20));
await Future.delayed(k500ms);
expect(filteredCount.value, equals(20));
Warning
buffer
and bufferTime
cannot be mid-chain. If they are used, they have to be the last in the chain.
// GOOD
someBeacon.filter().buffer(10);
// BAD
someBeacon.buffer(10).filter();
mybeacon.buffer(): #
Returns a Beacon.bufferedCount that wraps this beacon.
NB: The returned beacon will be disposed when the wrapped beacon is disposed.
final age = Beacon.writable(20);
final bufferedAge = age.buffer(10);
bufferedAge.subscribe((value) {
print(value); // Outputs: [20, 21, 22, 23, 24, 25, 26, 27, 28, 29]
});
for (var i = 0; i < 10; i++) {
age.value++;
}
mybeacon.bufferTime(): #
Returns a Beacon.bufferedTime that wraps this beacon.
mybeacon.throttle(): #
Returns a Beacon.throttled that wraps this beacon.
mybeacon.filter(): #
Returns a Beacon.filtered that wraps this beacon.
mybeacon.debounce(): #
Returns a Beacon.debounced that wraps this beacon.
final query = Beacon.writable('');
const k500ms = Duration(milliseconds: 500);
final debouncedQuery = query
.filter(filter: (prev, next) => next.length > 2)
.debounce(duration: k500ms);
Pitfalls #
When using Beacon.derivedFuture
, only beacons accessed before the async gap(await
) will be tracked as dependencies.
final counter = Beacon.writable(0);
final doubledCounter = Beacon.derived(() => counter.value * 2);
final derivedFutureCounter = Beacon.derivedFuture(() async {
// This will be tracked as a dependency because it's accessed before the async gap
final count = counter.value;
await Future.delayed(Duration(seconds: count));
// This will NOT be tracked as a dependency because it's accessed after `await`
final doubled = doubledCounter.value;
return '$count x 2 = $doubled';
});
When a derivedFuture depends on multiple future/stream beacons
- DON'T:
final derivedFutureCounter = Beacon.derivedFuture(() async {
// in this instance lastNameStreamBeacon will not be tracked as a dependency
// because it's accessed after the async gap
final firstName = await firstNameFutureBeacon.toFuture();
final lastName = await lastNameStreamBeacon.toFuture();
return 'Fullname is $firstName $lastName';
});
- DO:
final derivedFutureCounter = Beacon.derivedFuture(() async {
// acquire the futures before the async gap ie: don't use await
final firstNameFuture = firstNameFutureBeacon.toFuture();
final lastNameFuture = lastNameStreamBeacon.toFuture();
// wait for the futures to complete
final (String firstName, String lastName) = await (firstNameFuture, lastNameFuture).wait;
return 'Fullname is $firstName $lastName';
});