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• BuildersImpl.scala

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monix.reactive.observers.buffers.BuildersImpl.scala Maven / Gradle / Ivy

/*
 * Copyright (c) 2014-2021 by The Monix Project Developers.
 * See the project homepage at: https://monix.io
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *     http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */

package monix.reactive.observers.buffers

import monix.execution.ChannelType
import monix.execution.ChannelType.MultiProducer
import monix.reactive.OverflowStrategy
import monix.reactive.OverflowStrategy._
import monix.reactive.observers.{BufferedSubscriber, Subscriber}

private[observers] trait BuildersImpl { self: BufferedSubscriber.type =>
  def apply[A](
    subscriber: Subscriber[A],
    bufferPolicy: OverflowStrategy[A],
    producerType: ChannelType.ProducerSide = MultiProducer): Subscriber[A] = {
    bufferPolicy match {
      case Unbounded =>
        SyncBufferedSubscriber.unbounded(subscriber)
      case Fail(bufferSize) =>
        SyncBufferedSubscriber.bounded(subscriber, bufferSize)
      case BackPressure(bufferSize) =>
        BackPressuredBufferedSubscriber(subscriber, bufferSize)

      case DropNew(bufferSize) =>
        SyncBufferedSubscriber.dropNew(subscriber, bufferSize)
      case DropNewAndSignal(bufferSize, f) =>
        SyncBufferedSubscriber.dropNewAndSignal(subscriber, bufferSize, f)

      case DropOld(bufferSize) =>
        SyncBufferedSubscriber.dropOld(subscriber, bufferSize)
      case DropOldAndSignal(bufferSize, f) =>
        SyncBufferedSubscriber.dropOldAndSignal(subscriber, bufferSize, f)

      case ClearBuffer(bufferSize) =>
        SyncBufferedSubscriber.clearBuffer(subscriber, bufferSize)
      case ClearBufferAndSignal(bufferSize, f) =>
        SyncBufferedSubscriber.clearBufferAndSignal(subscriber, bufferSize, f)
    }
  }

  def synchronous[A](
    subscriber: Subscriber[A],
    bufferPolicy: OverflowStrategy.Synchronous[A],
    producerType: ChannelType.ProducerSide = MultiProducer): Subscriber.Sync[A] = {
    bufferPolicy match {
      case Unbounded =>
        SyncBufferedSubscriber.unbounded(subscriber)
      case Fail(bufferSize) =>
        SyncBufferedSubscriber.bounded(subscriber, bufferSize)

      case DropNew(bufferSize) =>
        SyncBufferedSubscriber.dropNew(subscriber, bufferSize)
      case DropNewAndSignal(bufferSize, f) =>
        SyncBufferedSubscriber.dropNewAndSignal(subscriber, bufferSize, f)

      case DropOld(bufferSize) =>
        SyncBufferedSubscriber.dropOld(subscriber, bufferSize)
      case DropOldAndSignal(bufferSize, f) =>
        SyncBufferedSubscriber.dropOldAndSignal(subscriber, bufferSize, f)

      case ClearBuffer(bufferSize) =>
        SyncBufferedSubscriber.clearBuffer(subscriber, bufferSize)
      case ClearBufferAndSignal(bufferSize, f) =>
        SyncBufferedSubscriber.clearBufferAndSignal(subscriber, bufferSize, f)
    }
  }

  def batched[A](
    underlying: Subscriber[List[A]],
    bufferSize: Int,
    producerType: ChannelType.ProducerSide = MultiProducer): Subscriber[A] =
    BatchedBufferedSubscriber(underlying, bufferSize)
}