EventHandlerGroup<T> createWorkerPool( final Sequence[] barrierSequences, final WorkHandler<? super T>[] workHandlers) { final SequenceBarrier sequenceBarrier = ringBuffer.newBarrier(barrierSequences); final WorkerPool<T> workerPool = new WorkerPool<>(ringBuffer, sequenceBarrier, exceptionHandler, workHandlers); consumerRepository.add(workerPool, sequenceBarrier); final Sequence[] workerSequences = workerPool.getWorkerSequences(); updateGatingSequencesForNextInChain(barrierSequences, workerSequences); return new EventHandlerGroup<>(this, consumerRepository, workerSequences); }
EventHandlerGroup<T> createEventProcessors( final Sequence[] barrierSequences, final EventHandler<? super T>[] eventHandlers) { checkNotStarted(); final Sequence[] processorSequences = new Sequence[eventHandlers.length]; final SequenceBarrier barrier = ringBuffer.newBarrier(barrierSequences); for (int i = 0, eventHandlersLength = eventHandlers.length; i < eventHandlersLength; i++) { final EventHandler<? super T> eventHandler = eventHandlers[i]; final BatchEventProcessor<T> batchEventProcessor = new BatchEventProcessor<>(ringBuffer, barrier, eventHandler); if (exceptionHandler != null) { batchEventProcessor.setExceptionHandler(exceptionHandler); } consumerRepository.add(batchEventProcessor, eventHandler, barrier); processorSequences[i] = batchEventProcessor.getSequence(); } updateGatingSequencesForNextInChain(barrierSequences, processorSequences); return new EventHandlerGroup<>(this, consumerRepository, processorSequences); }
EventHandlerGroup<T> createWorkerPool( final Sequence[] barrierSequences, final WorkHandler<? super T>[] workHandlers) { final SequenceBarrier sequenceBarrier = ringBuffer.newBarrier(barrierSequences); final WorkerPool<T> workerPool = new WorkerPool<>(ringBuffer, sequenceBarrier, exceptionHandler, workHandlers); consumerRepository.add(workerPool, sequenceBarrier); final Sequence[] workerSequences = workerPool.getWorkerSequences(); updateGatingSequencesForNextInChain(barrierSequences, workerSequences); return new EventHandlerGroup<>(this, consumerRepository, workerSequences); }
EventHandlerGroup<T> createEventProcessors( final Sequence[] barrierSequences, final EventHandler<? super T>[] eventHandlers) { checkNotStarted(); final Sequence[] processorSequences = new Sequence[eventHandlers.length]; final SequenceBarrier barrier = ringBuffer.newBarrier(barrierSequences); for (int i = 0, eventHandlersLength = eventHandlers.length; i < eventHandlersLength; i++) { final EventHandler<? super T> eventHandler = eventHandlers[i]; final BatchEventProcessor<T> batchEventProcessor = new BatchEventProcessor<>(ringBuffer, barrier, eventHandler); if (exceptionHandler != null) { batchEventProcessor.setExceptionHandler(exceptionHandler); } consumerRepository.add(batchEventProcessor, eventHandler, barrier); processorSequences[i] = batchEventProcessor.getSequence(); } updateGatingSequencesForNextInChain(barrierSequences, processorSequences); return new EventHandlerGroup<>(this, consumerRepository, processorSequences); }
EventHandlerGroup<T> createWorkerPool( final Sequence[] barrierSequences, final WorkHandler<? super T>[] workHandlers) { final SequenceBarrier sequenceBarrier = ringBuffer.newBarrier(barrierSequences); final WorkerPool<T> workerPool = new WorkerPool<>(ringBuffer, sequenceBarrier, exceptionHandler, workHandlers); consumerRepository.add(workerPool, sequenceBarrier); final Sequence[] workerSequences = workerPool.getWorkerSequences(); updateGatingSequencesForNextInChain(barrierSequences, workerSequences); return new EventHandlerGroup<>(this, consumerRepository, workerSequences); }
EventHandlerGroup<T> createEventProcessors( final Sequence[] barrierSequences, final EventHandler<? super T>[] eventHandlers) { checkNotStarted(); final Sequence[] processorSequences = new Sequence[eventHandlers.length]; final SequenceBarrier barrier = ringBuffer.newBarrier(barrierSequences); for (int i = 0, eventHandlersLength = eventHandlers.length; i < eventHandlersLength; i++) { final EventHandler<? super T> eventHandler = eventHandlers[i]; final BatchEventProcessor<T> batchEventProcessor = new BatchEventProcessor<>(ringBuffer, barrier, eventHandler); if (exceptionHandler != null) { batchEventProcessor.setExceptionHandler(exceptionHandler); } consumerRepository.add(batchEventProcessor, eventHandler, barrier); processorSequences[i] = batchEventProcessor.getSequence(); } updateGatingSequencesForNextInChain(barrierSequences, processorSequences); return new EventHandlerGroup<>(this, consumerRepository, processorSequences); }