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/*
 * 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 com.github.dm.jrt.builder;

import com.github.dm.jrt.builder.InvocationConfiguration.OrderType;
import com.github.dm.jrt.builder.InvocationConfiguration.TimeoutActionType;
import com.github.dm.jrt.log.Log;
import com.github.dm.jrt.log.Log.LogLevel;
import com.github.dm.jrt.runner.Runner;
import com.github.dm.jrt.util.TimeDuration;

import org.jetbrains.annotations.NotNull;
import org.jetbrains.annotations.Nullable;

import java.util.concurrent.TimeUnit;

import static com.github.dm.jrt.util.TimeDuration.fromUnit;

/**
 * Class storing the channel configuration.
 * 

* Each instance is immutable, thus, in order to modify a configuration parameter, a new builder * must be created starting from the specific configuration. *

* The configuration has an asynchronous runner associated.
* The number of input data buffered in the channel can be limited in order to avoid excessive * memory consumption. In case the maximum number is reached when passing an input, the call blocks * until enough data are consumed or the specified timeout elapses. In the latter case, a * {@link com.github.dm.jrt.channel.TimeoutException TimeoutException} will be thrown.
* By default the timeout is set to 0 so to avoid unexpected deadlocks.
* The order of input data is not guaranteed. Nevertheless, it is possible to force data to be * delivered in the same order as they are passed to the channels, at the cost of a slightly * increase in memory usage and computation. *

* Created by davide-maestroni on 07/03/2015. */ public final class ChannelConfiguration { /** * Constant indicating the default value of an integer attribute. */ public static final int DEFAULT = InvocationConfiguration.DEFAULT; private static final DefaultConfigurable sDefaultConfigurable = new DefaultConfigurable(); /** * Empty configuration constant.
The configuration has all the options set to their default. */ public static final ChannelConfiguration DEFAULT_CONFIGURATION = builder().buildConfiguration(); private final Runner mAsyncRunner; private final int mChannelMaxSize; private final OrderType mChannelOrderType; private final TimeDuration mChannelTimeout; private final Log mLog; private final LogLevel mLogLevel; private final TimeDuration mReadTimeout; private final TimeoutActionType mTimeoutActionType; /** * Constructor. * * @param asyncRunner the runner used for asynchronous inputs. * @param readTimeout the timeout for the channel to produce an output. * @param actionType the action to be taken if the timeout elapses before a readable * output is available. * @param channelOrderType the order in which data are collected from the output channel. * @param channelMaxSize the maximum number of buffered data. Must be positive. * @param channelTimeout the maximum timeout while waiting for an object to be passed to the * channel. * @param log the log instance. * @param logLevel the log level. */ private ChannelConfiguration(@Nullable final Runner asyncRunner, @Nullable final TimeDuration readTimeout, @Nullable final TimeoutActionType actionType, @Nullable final OrderType channelOrderType, final int channelMaxSize, @Nullable final TimeDuration channelTimeout, @Nullable final Log log, @Nullable final LogLevel logLevel) { mAsyncRunner = asyncRunner; mReadTimeout = readTimeout; mTimeoutActionType = actionType; mChannelOrderType = channelOrderType; mChannelMaxSize = channelMaxSize; mChannelTimeout = channelTimeout; mLog = log; mLogLevel = logLevel; } /** * Returns a channel configuration builder. * * @return the builder. */ @NotNull public static Builder builder() { return new Builder(sDefaultConfigurable); } /** * Returns a channel configuration builder initialized with the specified configuration. * * @param initialConfiguration the initial configuration. * @return the builder. */ @NotNull public static Builder builderFrom( @Nullable final ChannelConfiguration initialConfiguration) { return (initialConfiguration == null) ? builder() : new Builder(sDefaultConfigurable, initialConfiguration); } /** * Returns a channel configuration builder initialized with this configuration. * * @return the builder. */ @NotNull public Builder builderFrom() { return builderFrom(this); } /** * Returns the runner used for asynchronous inputs (null by default). * * @param valueIfNotSet the default value if none was set. * @return the runner instance. */ public Runner getAsyncRunnerOr(@Nullable final Runner valueIfNotSet) { final Runner runner = mAsyncRunner; return (runner != null) ? runner : valueIfNotSet; } /** * Returns the maximum number of buffered data (DEFAULT by default). * * @param valueIfNotSet the default value if none was set. * @return the maximum size. */ public int getChannelMaxSizeOr(final int valueIfNotSet) { final int maxSize = mChannelMaxSize; return (maxSize != DEFAULT) ? maxSize : valueIfNotSet; } /** * Returns the data order (null by default). * * @param valueIfNotSet the default value if none was set. * @return the order type. */ public OrderType getChannelOrderTypeOr(@Nullable final OrderType valueIfNotSet) { final OrderType orderType = mChannelOrderType; return (orderType != null) ? orderType : valueIfNotSet; } /** * Returns the maximum timeout while waiting for an object to be passed to the channel (null by * default). * * @param valueIfNotSet the default value if none was set. * @return the timeout. */ public TimeDuration getChannelTimeoutOr(@Nullable final TimeDuration valueIfNotSet) { final TimeDuration timeout = mChannelTimeout; return (timeout != null) ? timeout : valueIfNotSet; } /** * Returns the log level (null by default). * * @param valueIfNotSet the default value if none was set. * @return the log level. */ public LogLevel getLogLevelOr(@Nullable final LogLevel valueIfNotSet) { final LogLevel logLevel = mLogLevel; return (logLevel != null) ? logLevel : valueIfNotSet; } /** * Returns the log instance (null by default). * * @param valueIfNotSet the default value if none was set. * @return the log instance. */ public Log getLogOr(@Nullable final Log valueIfNotSet) { final Log log = mLog; return (log != null) ? log : valueIfNotSet; } /** * Returns the action to be taken if the timeout elapses before a readable output is available * (null by default). * * @param valueIfNotSet the default value if none was set. * @return the action type. */ public TimeoutActionType getReadTimeoutActionOr( @Nullable final TimeoutActionType valueIfNotSet) { final TimeoutActionType timeoutActionType = mTimeoutActionType; return (timeoutActionType != null) ? timeoutActionType : valueIfNotSet; } /** * Returns the timeout for the channel to produce a readable output (null by default). * * @param valueIfNotSet the default value if none was set. * @return the timeout. */ public TimeDuration getReadTimeoutOr(@Nullable final TimeDuration valueIfNotSet) { final TimeDuration readTimeout = mReadTimeout; return (readTimeout != null) ? readTimeout : valueIfNotSet; } @Override public int hashCode() { // AUTO-GENERATED CODE int result = mAsyncRunner != null ? mAsyncRunner.hashCode() : 0; result = 31 * result + mChannelMaxSize; result = 31 * result + (mChannelOrderType != null ? mChannelOrderType.hashCode() : 0); result = 31 * result + (mChannelTimeout != null ? mChannelTimeout.hashCode() : 0); result = 31 * result + (mLog != null ? mLog.hashCode() : 0); result = 31 * result + (mLogLevel != null ? mLogLevel.hashCode() : 0); result = 31 * result + (mReadTimeout != null ? mReadTimeout.hashCode() : 0); result = 31 * result + (mTimeoutActionType != null ? mTimeoutActionType.hashCode() : 0); return result; } @Override @SuppressWarnings("SimplifiableIfStatement") public boolean equals(final Object o) { // AUTO-GENERATED CODE if (this == o) { return true; } if (!(o instanceof ChannelConfiguration)) { return false; } final ChannelConfiguration that = (ChannelConfiguration) o; if (mChannelMaxSize != that.mChannelMaxSize) { return false; } if (mAsyncRunner != null ? !mAsyncRunner.equals(that.mAsyncRunner) : that.mAsyncRunner != null) { return false; } if (mChannelOrderType != that.mChannelOrderType) { return false; } if (mChannelTimeout != null ? !mChannelTimeout.equals(that.mChannelTimeout) : that.mChannelTimeout != null) { return false; } if (mLog != null ? !mLog.equals(that.mLog) : that.mLog != null) { return false; } if (mLogLevel != that.mLogLevel) { return false; } if (mReadTimeout != null ? !mReadTimeout.equals(that.mReadTimeout) : that.mReadTimeout != null) { return false; } return mTimeoutActionType == that.mTimeoutActionType; } @Override public String toString() { // AUTO-GENERATED CODE return "ChannelConfiguration{" + "mAsyncRunner=" + mAsyncRunner + ", mChannelMaxSize=" + mChannelMaxSize + ", mChannelOrderType=" + mChannelOrderType + ", mChannelTimeout=" + mChannelTimeout + ", mLog=" + mLog + ", mLogLevel=" + mLogLevel + ", mReadTimeout=" + mReadTimeout + ", mTimeoutActionType=" + mTimeoutActionType + '}'; } /** * Converts this configuration into an invocation one by applying the matching options to the * invocation input channel. * * @return the invocation configuration. */ @NotNull public InvocationConfiguration toInputChannelConfiguration() { return toInvocationConfiguration().builderFrom() .withInputMaxSize(getChannelMaxSizeOr( InvocationConfiguration.DEFAULT)) .withInputOrder(getChannelOrderTypeOr(null)) .withInputTimeout(getChannelTimeoutOr(null)) .set(); } /** * Converts this configuration into an invocation one by mapping the matching options. * * @return the invocation configuration. */ @NotNull public InvocationConfiguration toInvocationConfiguration() { return InvocationConfiguration.builder() .withRunner(getAsyncRunnerOr(null)) .withReadTimeout(getReadTimeoutOr(null)) .withReadTimeoutAction(getReadTimeoutActionOr(null)) .withLog(getLogOr(null)) .withLogLevel(getLogLevelOr(null)) .set(); } /** * Converts this configuration into an invocation one by applying the matching options to the * invocation output channel. * * @return the invocation configuration. */ @NotNull public InvocationConfiguration toOutputChannelConfiguration() { return toInvocationConfiguration().builderFrom() .withOutputMaxSize(getChannelMaxSizeOr( InvocationConfiguration.DEFAULT)) .withOutputOrder(getChannelOrderTypeOr(null)) .withOutputTimeout(getChannelTimeoutOr(null)) .set(); } /** * Interface defining a configurable object. * * @param the configurable object type. */ public interface Configurable { /** * Sets the specified configuration and returns the configurable instance. * * @param configuration the configuration. * @return the configurable instance. */ @NotNull TYPE setConfiguration(@NotNull ChannelConfiguration configuration); } /** * Builder of channel configurations. * * @param the configurable object type. */ public static final class Builder { private final Configurable mConfigurable; private Runner mAsyncRunner; private int mChannelMaxSize; private OrderType mChannelOrderType; private TimeDuration mChannelTimeout; private Log mLog; private LogLevel mLogLevel; private TimeDuration mReadTimeout; private TimeoutActionType mTimeoutActionType; /** * Constructor. * * @param configurable the configurable instance. */ @SuppressWarnings("ConstantConditions") public Builder(@NotNull final Configurable configurable) { if (configurable == null) { throw new NullPointerException("the configurable instance must no be null"); } mConfigurable = configurable; mChannelMaxSize = DEFAULT; } /** * Constructor. * * @param configurable the configurable instance. * @param initialConfiguration the initial configuration. */ @SuppressWarnings("ConstantConditions") public Builder(@NotNull final Configurable configurable, @NotNull final ChannelConfiguration initialConfiguration) { if (configurable == null) { throw new NullPointerException("the configurable instance must no be null"); } mConfigurable = configurable; setConfiguration(initialConfiguration); } /** * Sets the configuration and returns the configurable object. * * @return the configurable object. */ @NotNull public TYPE set() { return mConfigurable.setConfiguration(buildConfiguration()); } /** * Applies the specified configuration to this builder. A null value means that all the * configuration options need to be set to their default value, otherwise only the set * options will be applied. * * @param configuration the channel configuration. * @return this builder. */ @NotNull public Builder with(@Nullable final ChannelConfiguration configuration) { if (configuration == null) { setConfiguration(DEFAULT_CONFIGURATION); return this; } final Runner asyncRunner = configuration.mAsyncRunner; if (asyncRunner != null) { withAsyncRunner(asyncRunner); } final TimeDuration readTimeout = configuration.mReadTimeout; if (readTimeout != null) { withReadTimeout(readTimeout); } final TimeoutActionType timeoutActionType = configuration.mTimeoutActionType; if (timeoutActionType != null) { withReadTimeoutAction(timeoutActionType); } final OrderType orderType = configuration.mChannelOrderType; if (orderType != null) { withChannelOrder(orderType); } final int maxSize = configuration.mChannelMaxSize; if (maxSize != DEFAULT) { withChannelMaxSize(maxSize); } final TimeDuration channelTimeout = configuration.mChannelTimeout; if (channelTimeout != null) { withChannelTimeout(channelTimeout); } final Log log = configuration.mLog; if (log != null) { withLog(log); } final LogLevel logLevel = configuration.mLogLevel; if (logLevel != null) { withLogLevel(logLevel); } return this; } /** * Sets the asynchronous runner instance. A null value means that it is up to the specific * implementation to choose a default one. * * @param runner the runner instance. * @return this builder. */ @NotNull public Builder withAsyncRunner(@Nullable final Runner runner) { mAsyncRunner = runner; return this; } /** * Sets the maximum number of data that the channel can retain before they are consumed. A * {@link ChannelConfiguration#DEFAULT DEFAULT} value means that it is up to the specific * implementation to choose a default one. * * @param maxSize the maximum size. * @return this builder. * @throws java.lang.IllegalArgumentException if the number is less than 1. */ @NotNull public Builder withChannelMaxSize(final int maxSize) { if ((maxSize != DEFAULT) && (maxSize <= 0)) { throw new IllegalArgumentException( "the channel buffer size cannot be 0 or negative: " + maxSize); } mChannelMaxSize = maxSize; return this; } /** * Sets the order in which data are collected from the channel. A null value means that it * is up to the specific implementation to choose a default one.
* Note that this is just the initial configuration, since the channel order can be * dynamically changed through the dedicated methods. * * @param orderType the order type. * @return this builder. */ @NotNull public Builder withChannelOrder(@Nullable final OrderType orderType) { mChannelOrderType = orderType; return this; } /** * Sets the timeout for the channel to have room for additional data. * * @param timeout the timeout. * @param timeUnit the timeout time unit. * @return this builder. * @throws java.lang.IllegalArgumentException if the specified timeout is negative. */ @NotNull public Builder withChannelTimeout(final long timeout, @NotNull final TimeUnit timeUnit) { return withChannelTimeout(fromUnit(timeout, timeUnit)); } /** * Sets the timeout for the channel to have room for additional data. A null value means * that it is up to the specific implementation to choose a default one. * * @param timeout the timeout. * @return this builder. */ @NotNull public Builder withChannelTimeout(@Nullable final TimeDuration timeout) { mChannelTimeout = timeout; return this; } /** * Sets the log instance. A null value means that it is up to the specific implementation to * choose a default one. * * @param log the log instance. * @return this builder. */ @NotNull public Builder withLog(@Nullable final Log log) { mLog = log; return this; } /** * Sets the log level. A null value means that it is up to the specific implementation to * choose a default one. * * @param level the log level. * @return this builder. */ @NotNull public Builder withLogLevel(@Nullable final LogLevel level) { mLogLevel = level; return this; } /** * Sets the timeout for the channel instance to produce a readable output.
* Note that this is just the initial configuration, since the output timeout can be * dynamically changed through the dedicated methods. * * @param timeout the timeout. * @param timeUnit the timeout time unit. * @return this builder. * @throws java.lang.IllegalArgumentException if the specified timeout is negative. */ @NotNull public Builder withReadTimeout(final long timeout, @NotNull final TimeUnit timeUnit) { return withReadTimeout(fromUnit(timeout, timeUnit)); } /** * Sets the timeout for the channel instance to produce a readable output. A null value * means that it is up to the specific implementation to choose a default one.
* Note that this is just the initial configuration, since the output timeout can be * dynamically changed through the dedicated methods. * * @param timeout the timeout. * @return this builder. */ @NotNull public Builder withReadTimeout(@Nullable final TimeDuration timeout) { mReadTimeout = timeout; return this; } /** * Sets the action to be taken if the timeout elapses before an output can be read from the * output channel. A null value means that it is up to the specific implementation to choose * a default one.
* Note that this is just the initial configuration, since the output timeout action can be * dynamically changed through the dedicated methods. * * @param actionType the action type. * @return this builder. */ @NotNull public Builder withReadTimeoutAction(@Nullable final TimeoutActionType actionType) { mTimeoutActionType = actionType; return this; } @NotNull private ChannelConfiguration buildConfiguration() { return new ChannelConfiguration(mAsyncRunner, mReadTimeout, mTimeoutActionType, mChannelOrderType, mChannelMaxSize, mChannelTimeout, mLog, mLogLevel); } private void setConfiguration(@NotNull final ChannelConfiguration configuration) { mAsyncRunner = configuration.mAsyncRunner; mReadTimeout = configuration.mReadTimeout; mTimeoutActionType = configuration.mTimeoutActionType; mChannelOrderType = configuration.mChannelOrderType; mChannelMaxSize = configuration.mChannelMaxSize; mChannelTimeout = configuration.mChannelTimeout; mLog = configuration.mLog; mLogLevel = configuration.mLogLevel; } } /** * Default configurable implementation. */ private static class DefaultConfigurable implements Configurable { @NotNull public ChannelConfiguration setConfiguration( @NotNull final ChannelConfiguration configuration) { return configuration; } } }





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