platform/core/events/test/event_test.dart

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import 'package:angel3_event_bus/res/app_event.dart';
import 'package:test/test.dart';
import 'package:angel3_container/angel3_container.dart';
import 'package:angel3_mq/mq.dart';
import 'package:angel3_events/dispatcher.dart'; // Replace with the actual import path
void main() {
late Dispatcher dispatcher;
late MockMQClient mockMQClient;
setUp(() {
var container = Container(EmptyReflector());
dispatcher = Dispatcher(container);
mockMQClient = MockMQClient();
dispatcher.mqClient = mockMQClient; // Use the setter
// Clear the queue before each test
mockMQClient.queuedMessages.clear();
});
group('Dispatcher', () {
test('listen and dispatch', () async {
var callCount = 0;
dispatcher.listen('test_event', (dynamic event, dynamic payload) {
expect(event, equals('test_event'));
expect(payload, equals(['test_payload']));
callCount++;
});
await dispatcher.dispatch('test_event', ['test_payload']);
expect(callCount, equals(1));
});
test('wildcard listener', () async {
var callCount = 0;
dispatcher.listen('test.*', (dynamic event, dynamic payload) {
expect(event, matches(RegExp(r'^test\.')));
callCount++;
});
await dispatcher.dispatch('test.one', ['payload1']);
await dispatcher.dispatch('test.two', ['payload2']);
expect(callCount, equals(2));
});
test('hasListeners', () {
dispatcher.listen('test_event', (dynamic event, dynamic payload) {});
expect(dispatcher.hasListeners('test_event'), isTrue);
expect(dispatcher.hasListeners('non_existent_event'), isFalse);
});
test('until', () async {
// Test without pushing the event immediately
var futureResult = dispatcher.until('test_event');
// Use a small delay to ensure the until listener is set up
await Future.delayed(Duration(milliseconds: 10));
await dispatcher.dispatch('test_event', ['test_payload']);
var result = await futureResult;
expect(result, equals(['test_payload']));
// Test with pushing the event immediately
result =
await dispatcher.until('another_test_event', ['another_payload']);
expect(result, equals(['another_payload']));
}, timeout: Timeout(Duration(seconds: 5))); // Add a reasonable timeout
test('forget', () async {
var callCount = 0;
dispatcher.listen('test_event', (dynamic event, dynamic payload) {
callCount++;
});
await dispatcher.dispatch('test_event');
expect(callCount, equals(1));
dispatcher.forget('test_event');
await dispatcher.dispatch('test_event');
expect(callCount, equals(1)); // Should not increase
});
test('push and flush', () async {
print('Starting push and flush test');
// Push 4 messages
for (var i = 0; i < 4; i++) {
dispatcher.push('delayed_event', ['delayed_payload_$i']);
}
// Verify that 4 messages were queued
expect(mockMQClient.queuedMessages['delayed_events_queue']?.length,
equals(4),
reason: 'Should have queued exactly 4 messages');
print(
'Queued messages: ${mockMQClient.queuedMessages['delayed_events_queue']?.length}');
var callCount = 0;
var processedPayloads = <String>[];
// Remove any existing listeners
dispatcher.forget('delayed_event');
dispatcher.listen('delayed_event', (dynamic event, dynamic payload) {
print('Listener called with payload: $payload');
expect(event, equals('delayed_event'));
expect(payload[0], startsWith('delayed_payload_'));
processedPayloads.add(payload[0]);
callCount++;
});
await dispatcher.flush('delayed_event');
print('After flush - Call count: $callCount');
print('Processed payloads: $processedPayloads');
expect(callCount, equals(4), reason: 'Should process exactly 4 messages');
expect(processedPayloads.toSet().length, equals(4),
reason: 'All payloads should be unique');
// Verify that all messages were removed from the queue
expect(mockMQClient.queuedMessages['delayed_events_queue']?.length,
equals(0),
reason: 'Queue should be empty after flush');
// Flush again to ensure no more messages are processed
await dispatcher.flush('delayed_event');
expect(callCount, equals(4),
reason: 'Should still be 4 after second flush');
});
test('shouldBroadcast', () async {
var broadcastEvent = BroadcastTestEvent();
var callCount = 0;
dispatcher.listen('BroadcastTestEvent', (dynamic event, dynamic payload) {
callCount++;
});
await dispatcher.dispatch(broadcastEvent);
expect(callCount, equals(1));
});
test('shouldQueue', () async {
var queueEvent = QueueTestEvent();
await dispatcher.dispatch(queueEvent);
expect(mockMQClient.queuedMessages['events_queue'], isNotEmpty);
expect(mockMQClient.queuedMessages['events_queue']!.first.payload,
containsPair('event', 'QueueTestEvent'));
});
});
}
abstract class MQClientWrapper {
Stream<Message> fetchQueue(String queueId);
void sendMessage({
required Message message,
String? exchangeName,
String? routingKey,
});
String declareQueue(String queueId);
void declareExchange({
required String exchangeName,
required ExchangeType exchangeType,
});
void bindQueue({
required String queueId,
required String exchangeName,
String? bindingKey,
});
void close();
}
class RealMQClientWrapper implements MQClientWrapper {
final MQClient _client;
RealMQClientWrapper(this._client);
@override
Stream<Message> fetchQueue(String queueId) => _client.fetchQueue(queueId);
@override
void sendMessage({
required Message message,
String? exchangeName,
String? routingKey,
}) =>
_client.sendMessage(
message: message,
exchangeName: exchangeName,
routingKey: routingKey,
);
@override
String declareQueue(String queueId) => _client.declareQueue(queueId);
@override
void declareExchange({
required String exchangeName,
required ExchangeType exchangeType,
}) =>
_client.declareExchange(
exchangeName: exchangeName,
exchangeType: exchangeType,
);
@override
void bindQueue({
required String queueId,
required String exchangeName,
String? bindingKey,
}) =>
_client.bindQueue(
queueId: queueId,
exchangeName: exchangeName,
bindingKey: bindingKey,
);
@override
void close() => _client.close();
}
class MockMQClient implements MQClient {
Map<String, List<Message>> queuedMessages = {};
int _messageIdCounter = 0;
void queueMessage(String queueName, Message message) {
queuedMessages.putIfAbsent(queueName, () => []).add(message);
print(
'Queued message. Queue $queueName now has ${queuedMessages[queueName]?.length} messages');
}
@override
String declareQueue(String queueId) {
queuedMessages[queueId] = [];
return queueId;
}
@override
void deleteQueue(String queueId) {
queuedMessages.remove(queueId);
}
@override
Stream<Message> fetchQueue(String queueId) {
print('Fetching queue: $queueId');
return Stream.fromIterable(queuedMessages[queueId] ?? []);
}
@override
void sendMessage({
required Message message,
String? exchangeName,
String? routingKey,
}) {
print('Sending message to queue: $routingKey');
final newMessage = Message(
payload: message.payload,
headers: message.headers,
timestamp: message.timestamp,
id: 'msg_${_messageIdCounter++}',
);
queueMessage(routingKey ?? '', newMessage);
}
@override
Message? getLatestMessage(String queueId) {
final messages = queuedMessages[queueId];
return messages?.isNotEmpty == true ? messages!.last : null;
}
@override
void bindQueue({
required String queueId,
required String exchangeName,
String? bindingKey,
}) {
// Implement if needed for your tests
}
@override
void unbindQueue({
required String queueId,
required String exchangeName,
String? bindingKey,
}) {
// Implement if needed for your tests
}
@override
void declareExchange({
required String exchangeName,
required ExchangeType exchangeType,
}) {
// Implement if needed for your tests
}
@override
void deleteExchange(String exchangeName) {
// Implement if needed for your tests
}
@override
List<String> listQueues() {
return queuedMessages.keys.toList();
}
@override
void close() {
queuedMessages.clear();
}
@override
void deleteMessage(String queueId, Message message) {
print('Deleting message from queue: $queueId');
queuedMessages[queueId]?.removeWhere((m) => m.id == message.id);
print(
'After deletion, queue $queueId has ${queuedMessages[queueId]?.length} messages');
}
}
class BroadcastTestEvent implements AppEvent, ShouldBroadcast {
@override
List<Object?> get props => [];
@override
bool? get stringify => true;
@override
DateTime get timestamp => DateTime.now();
}
class QueueTestEvent implements AppEvent, ShouldQueue {
@override
List<Object?> get props => [];
@override
bool? get stringify => true;
@override
DateTime get timestamp => DateTime.now();
}
// This is a simple implementation of Reflector that does nothing
class EmptyReflector implements Reflector {
const EmptyReflector();
@override
ReflectedType reflectType(Type type) {
throw UnimplementedError();
}
@override
ReflectedInstance reflectInstance(Object object) {
throw UnimplementedError();
}
@override
ReflectedType reflectFutureOf(Type type) {
throw UnimplementedError();
}
@override
String? getName(Symbol symbol) {
// TODO: implement getName
throw UnimplementedError();
}
@override
ReflectedClass? reflectClass(Type clazz) {
// TODO: implement reflectClass
throw UnimplementedError();
}
@override
ReflectedFunction? reflectFunction(Function function) {
// TODO: implement reflectFunction
throw UnimplementedError();
}
}