isolate_manager 5.1.0 isolate_manager: ^5.1.0 copied to clipboard
Create multiple long-lived isolates for the Functions, supports Worker on the Web (with the effective generator) and WASM compilation.
Isolate Manager #
Features #
- Supports to create multiple Isolates for:
- A single Function: One
IsolateManager
instance can be used for only one Function, so that thestream
can be used easily when using something like aStreamBuilder
(Use the@isolateManagerWorker
and@isolateManagerCustomWorker
annotations). - Multiple Functions: One
IsolateManagerShared
instance can be used for multiple Functions, it's good for computing multiple Functions and doesn't care much about thestream
(Use the@isolateManagerSharedWorker
annotation).
- A single Function: One
- Supports
Worker
on the Web. If theWorker
is unavailable in the working browser or is not configured, theFuture
(andStream
) will be used. - Supports
WASM
compilation on the Web. - Supports
try-catch
blocks. - Multiple
compute
operations are allowed because the plugin will queue the input data and send it to a free isolate later.
Table Of Contents #
- Benchmark
- Isolate Manager Shared (For Multiple Functions)
- Isolate Manager (For A Single Function)
- Try Catch Block
- Addtional Information
- Contributions
Benchmark #
Execute a recursive Fibonacci function 70 times, computing the sequence for the numbers 30, 33, and 36. The results are in microseconds (On Macbook M1 Pro 14-inch 16Gb RAM).
- VM
Fibonacci | Main App | One Isolate | Three Isolates | Isolate.run |
---|---|---|---|---|
30 | 751,364 | 771,142 | 274,854 | 769,588 |
33 | 3,189,873 | 3,185,798 | 1,152,083 | 3,214,685 |
36 | 13,510,136 | 13,540,763 | 4,873,100 | 13,766,930 |
- Chrome (With
Worker
supported)
Fibonacci | Main App | One Worker | Three Workers | Isolate.run (Unsupported) |
---|---|---|---|---|
30 | 2,125,101 | 547,800 | 195,101 | 0 |
33 | 9,083,800 | 2,286,899 | 803,599 | 0 |
36 | 38,083,500 | 9,575,899 | 3,383,299 | 0 |
See here for the test details.
IsolateManagerShared Method #
This method currently doesn't support the IsolateManagerFunction.customFunction
.
void main() async {
// Create 3 isolateShared to solve the problems
final isolateShared = IsolateManager.createShared(
concurrent: 3,
useWorker: true
// Add this mappings so we can ignore the `workerName` parameter
// when using the `compute` method.
workerMappings: {
addFuture : 'addFuture',
add : 'add',
}
);
// Compute the values. The return type and parameter type will respect the type
// of the function.
final added = await isolateShared.compute(
addFuture,
[1.1, 2.2],
// workerFunction: 'addFuture', // Ignored because the `workerMappings` is specified
);
print('addFuture: 1.1 + 2.2 = $added');
// Compute the values. The return type and parameter type will respect the type
// of the function.
final added = await isolateShared.compute(
add,
[1, 2],
// workerFunction: 'add', // Ignored because the `workerMappings` is specified
);
print('add: 1 + 2 = $added');
}
@isolateManagerSharedWorker
Future<double> addFuture(List<double> values) async {
return values[0] + values[1];
}
@isolateManagerSharedWorker
int add(List<int> values) {
return values[0] + values[1];
}
Run this command to generate a Javascript Worker (named $shared_worker.js
inside the web
folder):
dart run isolate_manager:generate
Add flag --shared
if you want to generate only for the IsolateManagerShared
.
IsolateManager Method #
Basic Usage #
There are multiple ways to use this package. The only thing to notice is that the function
has to be a static
or top-level
function.
main() async {
final isolate = IsolateManager.create(
fibonacci,
workerName: 'fibonacci', // Add this line
concurrent: 2,
);
isolate.stream.listen((value) {
print(value);
});
final fibo = await isolate(20);
}
@isolateManagerWorker // Add this anotation
int fibonacci(int n) {
if (n == 0) return 0;
if (n == 1) return 1;
return fibonacci(n - 1) + fibonacci(n - 2);
}
Run this command to generate a Javascript Worker:
dart run isolate_manager:generate
Add flag --single
if you want to generate only for the IsolateManager
.
You can restart or stop the isolate using this method:
await isolateManager.restart();
await isolateManager.stop();
Custom Function Usage #
You can control everything with this method when you want to create multiple isolates for a function.
Step 1: Create a function of this form #
Let it automatically handles the result and the Exception:
@isolateManagerCustomWorker // Add this anotation for a custom function
void customIsolateFunction(dynamic params) {
IsolateManagerFunction.customFunction<int, int>(
params,
onEvent: (controller, message) {
/* This event will be executed every time the `message` is received from the main isolate */
return fibonacci(message);
},
onInitial: (controller, initialParams) {
/* This event will be executed before all the other events and only one time. */
},
onDispose: (controller) {
/* This event will be executed after all the other events and should NOT be a `Future` event */
},
);
}
Handle the result and the Exception by your self:
@isolateManagerCustomWorker // Add this anotation for a custom function
void customIsolateFunction(dynamic params) {
IsolateManagerFunction.customFunction<Map<String, dynamic>, String>(
params,
onEvent: (controller, message) {
// This event will be executed every time the `message` is received from the main isolate.
try {
final result = fibonacci(message);
controller.sendResult(result);
} catch (err, stack) {
controller.sendResultError(IsolateException(err, stack));
}
// Just returns something that unused to complete this method.
return 0;
},
onInitial: (controller, initialParams) {
/* This event will be executed before all the other events. */
},
onDispose: (controller) {
/* This event will be executed after all the other events. */
},
autoHandleException: false,
autoHandleResult: false,
);
}
Step 2: Create an IsolateManager instance for your own function #
final isolateManager = IsolateManager.createCustom(
customIsolateFunction,
initialParams: 'This is the initialParams',
workerName: 'customIsolateFunction',
debugMode: true,
);
Now you can use everything as the Basic Usage.
try-catch Block #
You can use try-catch
to catch exceptions:
try {
final result = await isolate(-10);
} on SomeException catch (e1) {
print(e1);
} catch (e2) {
print(e2);
}
Progress Values #
You can even manage the final result by using this callback, useful when you create your own function that needs to send the progress value before returning the final result:
main() {
// Create an IsolateManager instance.
final isolateManager = IsolateManager.createCustom(progressFunction);
// Get the result.
final result = await isolateManager.compute(100, callback: (value) {
// Condition to recognize the progress value. Ex:
final data = jsonDecode(value);
if (data.containsKey('progress')) {
print('This is a progress value: ${data['progress']}');
// Return `false` to mark this value is not the final.
return false;
}
print('This is a final value: ${data['result']}');
// Return `true` to mark this value is the final.
return true;
});
print(result); // 100
}
// This is a progress function
@isolateManagerCustomWorker // Add this anotation for a custom function
void progressFunction(dynamic params) {
IsolateManagerFunction.customFunction<String, int>(
params,
onEvent: (controller, message) {
// This value is sent as the progress values.
for (int i = 0; i < message; i++) {
final progress = jsonEncode({'progress' : messsage});
controller.sendResult(progress);
}
// This is a final value.
return jsonEncode({'result' : messsage});
},
);
}
Additional Information #
-
The function has to be a
static
ortop-level
function. -
Use
queuesLength
to get the current number of queued computation. -
Use
ensureStarted
to able to wait for thestart
method to finish when you want to call thestart
method manually withoutawait
and wait for it later. -
Use
isStarted
to check if thestart
method is completed or not. -
The result that you get from the isolate (or Worker) is sometimes different from the result that you want to get from the return type in the main app, you can use
converter
andworkerConverter
parameters to convert the result received from theIsolate
(converter) andWorker
(workerConverter). Example:-
List<String>
main() async { final isolate = IsolateManager.create( aStringList, workerName: 'aStringList', // Cast to List<String> workerConverter: (value) => value.cast<String>() as List<String>, isDebug: true, ); final listString = ['a', 'b', 'c']; final result = await isolate.compute(listString); expect(result, listString); } @isolateManagerWorker List<String> aStringList(List<String> params) { return params; }
-
Map<String, int>
: Usejson
for the complicated casesmain() async { final isolate = IsolateManager.create( aStringIntMap, workerName: 'aStringIntMap', isDebug: true, ); await isolate.start(); final map = {'a': 1, 'b': 2, 'c': 3}; final result = await isolate.compute(jsonEncode(map)); expect(jsonDecode(result), map); } @isolateManagerWorker String aStringIntMap(String params) { return params; }
Data flow: Main -> Isolate or Worker -> Converter -> Result
-
-
If you want to use Worker more effectively, convert all parameters and results to JSON (or String) before sending them.
-
The generator options and flags:
--single
: Generates single Functions only.--shared
: Generates shared Functions only.--in <path>
(or-i <path>
): Inputted folder.--out <path>
(or-o <path>
): Outputted folder.--obfuscate <level>
: The obfuscated level of JS (0 to 4). Default is set to4
.--debug
: Keeps the temp files for debugging.