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8.5. Aggregator


Overview

The aggregator pattern, shown in Figure 8.5, “Aggregator Pattern”, enables you to combine a batch of related messages into a single message.

Figure 8.5. Aggregator Pattern

Aggregator pattern
To control the aggregator's behavior, Apache Camel allows you to specify the properties described in Enterprise Integration Patterns, as follows:
  • Correlation expression — Determines which messages should be aggregated together. The correlation expression is evaluated on each incoming message to produce a correlation key. Incoming messages with the same correlation key are then grouped into the same batch. For example, if you want to aggregate all incoming messages into a single message, you can use a constant expression.
  • Completeness condition — Determines when a batch of messages is complete. You can specify this either as a simple size limit or, more generally, you can specify a predicate condition that flags when the batch is complete.
  • Aggregation algorithm — Combines the message exchanges for a single correlation key into a single message exchange.
For example, consider a stock market data system that receives 30,000 messages per second. You might want to throttle down the message flow if your GUI tool cannot cope with such a massive update rate. The incoming stock quotes can be aggregated together simply by choosing the latest quote and discarding the older prices. (You can apply a delta processing algorithm, if you prefer to capture some of the history.)
Note
The Aggregator now enlists in JMX using a ManagedAggregateProcessorMBean that includes more information. It enables you to use the aggregate controller to control it.

How the aggregator works

Figure 8.6, “Aggregator Implementation” shows an overview of how the aggregator works, assuming it is fed with a stream of exchanges that have correlation keys such as A, B, C, or D.

Figure 8.6. Aggregator Implementation

Aggregator Implementation
The incoming stream of exchanges shown in Figure 8.6, “Aggregator Implementation” is processed as follows:
  1. The correlator is responsible for sorting exchanges based on the correlation key. For each incoming exchange, the correlation expression is evaluated, yielding the correlation key. For example, for the exchange shown in Figure 8.6, “Aggregator Implementation”, the correlation key evaluates to A.
  2. The aggregation strategy is responsible for merging exchanges with the same correlation key. When a new exchange, A, comes in, the aggregator looks up the corresponding aggregate exchange, A', in the aggregation repository and combines it with the new exchange.
    Until a particular aggregation cycle is completed, incoming exchanges are continuously aggregated with the corresponding aggregate exchange. An aggregation cycle lasts until terminated by one of the completion mechanisms.
    Note
    From Camel 2.16, the new XSLT Aggregation Strategy allows you to merge two messages with an XSLT file. You can access the AggregationStrategies.xslt() file from the toolbox.
  3. If a completion predicate is specified on the aggregator, the aggregate exchange is tested to determine whether it is ready to be sent to the next processor in the route. Processing continues as follows:
    • If complete, the aggregate exchange is processed by the latter part of the route. There are two alternative models for this: synchronous (the default), which causes the calling thread to block, or asynchronous (if parallel processing is enabled), where the aggregate exchange is submitted to an executor thread pool (as shown in Figure 8.6, “Aggregator Implementation”).
    • If not complete, the aggregate exchange is saved back to the aggregation repository.
  4. In parallel with the synchronous completion tests, it is possible to enable an asynchronous completion test by enabling either the completionTimeout option or the completionInterval option. These completion tests run in a separate thread and, whenever the completion test is satisfied, the corresponding exchange is marked as complete and starts to be processed by the latter part of the route (either synchronously or asynchronously, depending on whether parallel processing is enabled or not).
  5. If parallel processing is enabled, a thread pool is responsible for processing exchanges in the latter part of the route. By default, this thread pool contains ten threads, but you have the option of customizing the pool (the section called “Threading options”).

Java DSL example

The following example aggregates exchanges with the same StockSymbol header value, using the UseLatestAggregationStrategy aggregation strategy. For a given StockSymbol value, if more than three seconds elapse since the last exchange with that correlation key was received, the aggregated exchange is deemed to be complete and is sent to the mock endpoint.
from("direct:start")
    .aggregate(header("id"), new UseLatestAggregationStrategy())
        .completionTimeout(3000)
    .to("mock:aggregated");

XML DSL example

The following example shows how to configure the same route in XML:
<camelContext xmlns="http://camel.apache.org/schema/spring">
    <route>
        <from uri="direct:start"/>
        <aggregate strategyRef="aggregatorStrategy"
                   completionTimeout="3000">
            <correlationExpression>
                <simple>header.StockSymbol</simple>
            </correlationExpression>
            <to uri="mock:aggregated"/>
        </aggregate>
    </route>
</camelContext>

<bean id="aggregatorStrategy"
      class="org.apache.camel.processor.aggregate.UseLatestAggregationStrategy"/>

Specifying the correlation expression

In the Java DSL, the correlation expression is always passed as the first argument to the aggregate() DSL command. You are not limited to using the Simple expression language here. You can specify a correlation expression using any of the expression languages or scripting languages, such as XPath, XQuery, SQL, and so on.
For exampe, to correlate exchanges using an XPath expression, you could use the following Java DSL route:
from("direct:start")
    .aggregate(xpath("/stockQuote/@symbol"), new UseLatestAggregationStrategy())
        .completionTimeout(3000)
    .to("mock:aggregated");
If the correlation expression cannot be evaluated on a particular incoming exchange, the aggregator throws a CamelExchangeException by default. You can suppress this exception by setting the ignoreInvalidCorrelationKeys option. For example, in the Java DSL:
from(...).aggregate(...).ignoreInvalidCorrelationKeys()
In the XML DSL, you can set the ignoreInvalidCorrelationKeys option is set as an attribute, as follows:
<aggregate strategyRef="aggregatorStrategy"
           ignoreInvalidCorrelationKeys="true"
           ...>
    ...
</aggregate>

Specifying the aggregation strategy

In Java DSL, you can either pass the aggregation strategy as the second argument to the aggregate() DSL command or specify it using the aggregationStrategy() clause. For example, you can use the aggregationStrategy() clause as follows:
from("direct:start")
    .aggregate(header("id"))
        .aggregationStrategy(new UseLatestAggregationStrategy())
        .completionTimeout(3000)
    .to("mock:aggregated");
Apache Camel provides the following basic aggregation strategies (where the classes belong to the org.apache.camel.processor.aggregate Java package):
UseLatestAggregationStrategy
Return the last exchange for a given correlation key, discarding all earlier exchanges with this key. For example, this strategy could be useful for throttling the feed from a stock exchange, where you just want to know the latest price of a particular stock symbol.
UseOriginalAggregationStrategy
Return the first exchange for a given correlation key, discarding all later exchanges with this key. You must set the first exchange by calling UseOriginalAggregationStrategy.setOriginal() before you can use this strategy.
GroupedExchangeAggregationStrategy
Concatenates all of the exchanges for a given correlation key into a list, which is stored in the Exchange.GROUPED_EXCHANGE exchange property. See the section called “Grouped exchanges”.

Implementing a custom aggregation strategy

If you want to apply a different aggregation strategy, you can implement one of the following aggregation strategy base interfaces:
org.apache.camel.processor.aggregate.AggregationStrategy
The basic aggregation strategy interface.
org.apache.camel.processor.aggregate.TimeoutAwareAggregationStrategy
Implement this interface, if you want your implementation to receive a notification when an aggregation cycle times out. The timeout notification method has the following signature:
void timeout(Exchange oldExchange, int index, int total, long timeout)
org.apache.camel.processor.aggregate.CompletionAwareAggregationStrategy
Implement this interface, if you want your implementation to receive a notification when an aggregation cycle completes normally. The notification method has the following signature:
void onCompletion(Exchange exchange)
For example, the following code shows two different custom aggregation strategies, StringAggregationStrategy and ArrayListAggregationStrategy::
 //simply combines Exchange String body values using '+' as a delimiter
 class StringAggregationStrategy implements AggregationStrategy {
 
     public Exchange aggregate(Exchange oldExchange, Exchange newExchange) {
         if (oldExchange == null) {
             return newExchange;
         }
 
         String oldBody = oldExchange.getIn().getBody(String.class);
         String newBody = newExchange.getIn().getBody(String.class);
         oldExchange.getIn().setBody(oldBody + "+" + newBody);
         return oldExchange;
     }
 }
 
 //simply combines Exchange body values into an ArrayList<Object>
 class ArrayListAggregationStrategy implements AggregationStrategy {
 
     public Exchange aggregate(Exchange oldExchange, Exchange newExchange) {
 	    Object newBody = newExchange.getIn().getBody();
     	ArrayList<Object> list = null;
         if (oldExchange == null) {
 		    list = new ArrayList<Object>();
 		    list.add(newBody);
 		    newExchange.getIn().setBody(list);
 		    return newExchange;
         } else {
 	        list = oldExchange.getIn().getBody(ArrayList.class);
 	    	list.add(newBody);
 		    return oldExchange;
 	    }
     }
 }
Note
Since Apache Camel 2.0, the AggregationStrategy.aggregate() callback method is also invoked for the very first exchange. On the first invocation of the aggregate method, the oldExchange parameter is null and the newExchange parameter contains the first incoming exchange.
To aggregate messages using the custom strategy class, ArrayListAggregationStrategy, define a route like the following:
from("direct:start")
    .aggregate(header("StockSymbol"), new ArrayListAggregationStrategy())
    .completionTimeout(3000)
    .to("mock:result");
You can also configure a route with a custom aggregation strategy in XML, as follows:
<camelContext xmlns="http://camel.apache.org/schema/spring">
  <route>
    <from uri="direct:start"/>
    <aggregate strategyRef="aggregatorStrategy"
               completionTimeout="3000">
      <correlationExpression>
        <simple>header.StockSymbol</simple>
      </correlationExpression>
      <to uri="mock:aggregated"/>
    </aggregate>
  </route>
</camelContext>

<bean id="aggregatorStrategy" class="com.my_package_name.ArrayListAggregationStrategy"/>

Controlling the lifecycle of a custom aggregation strategy

You can implement a custom aggregation strategy so that its lifecycle is aligned with the lifecycle of the enterprise integration pattern that is controlling it. This can be useful for ensuring that the aggregation strategy can shut down gracefully.
To implement an aggregation strategy with lifecycle support, you must implement the org.apache.camel.Service interface (in addition to the AggregationStrategy interface) and provide implementations of the start() and stop() lifecycle methods. For example, the following code example shows an outline of an aggregation strategy with lifecycle support:
// Java
import org.apache.camel.processor.aggregate.AggregationStrategy;
import org.apache.camel.Service;
import java.lang.Exception;
...
class MyAggStrategyWithLifecycleControl
       implements AggregationStrategy, Service {

    public Exchange aggregate(Exchange oldExchange, Exchange newExchange) {
        // Implementation not shown...
        ...
    }

    public void start() throws Exception {
        // Actions to perform when the enclosing EIP starts up
        ...
    }

    public void stop() throws Exception {
        // Actions to perform when the enclosing EIP is stopping
        ...
    }
}

Exchange properties

The following properties are set on each aggregated exchange:
Table 8.1. Aggregated Exchange Properties
Header Type Description
Exchange.AGGREGATED_SIZE int The total number of exchanges aggregated into this exchange.
Exchange.AGGREGATED_COMPLETED_BY String Indicates the mechanism responsible for completing the aggregate exchange. Possible values are: predicate, size, timeout, interval, or consumer.
The following properties are set on exchanges redelivered by the HawtDB aggregation repository (see the section called “Persistent aggregation repository”):
Table 8.2. Redelivered Exchange Properties
Header Type Description
Exchange.REDELIVERY_COUNTER int Sequence number of the current redelivery attempt (starting at 1).

Specifying a completion condition

It is mandatory to specify at least one completion condition, which determines when an aggregate exchange leaves the aggregator and proceeds to the next node on the route. The following completion conditions can be specified:
completionPredicate
Evaluates a predicate after each exchange is aggregated in order to determine completeness. A value of true indicates that the aggregate exchange is complete. Alternatively, instead of setting this option, you can define a custom AggregationStrategy that implements the Predicate interface, in which case the AggregationStrategy will be used as the completion predicate.
completionSize
Completes the aggregate exchange after the specified number of incoming exchanges are aggregated.
completionTimeout
(Incompatible with completionInterval) Completes the aggregate exchange, if no incoming exchanges are aggregated within the specified timeout.
In other words, the timeout mechanism keeps track of a timeout for each correlation key value. The clock starts ticking after the latest exchange with a particular key value is received. If another exchange with the same key value is not received within the specified timeout, the corresponding aggregate exchange is marked complete and sent to the next node on the route.
completionInterval
(Incompatible with completionTimeout) Completes all outstanding aggregate exchanges, after each time interval (of specified length) has elapsed.
The time interval is not tailored to each aggregate exchange. This mechanism forces simultaneous completion of all outstanding aggregate exchanges. Hence, in some cases, this mechanism could complete an aggregate exchange immediately after it started aggregating.
completionFromBatchConsumer
When used in combination with a consumer endpoint that supports the batch consumer mechanism, this completion option automatically figures out when the current batch of exchanges is complete, based on information it receives from the consumer endpoint. See the section called “Batch consumer”.
forceCompletionOnStop
When this option is enabled, it forces completion of all outstanding aggregate exchanges when the current route context is stopped.
The preceding completion conditions can be combined arbitrarily, except for the completionTimeout and completionInterval conditions, which cannot be simultaneously enabled. When conditions are used in combination, the general rule is that the first completion condition to trigger is the effective completion condition.

Specifying the completion predicate

You can specify an arbitrary predicate expression that determines when an aggregated exchange is complete. There are two possible ways of evaluating the predicate expression:
  • On the latest aggregate exchange—this is the default behavior.
  • On the latest incoming exchange—this behavior is selected when you enable the eagerCheckCompletion option.
For example, if you want to terminate a stream of stock quotes every time you receive an ALERT message (as indicated by the value of a MsgType header in the latest incoming exchange), you can define a route like the following:
from("direct:start")
    .aggregate(
      header("id"),
      new UseLatestAggregationStrategy()
    )
        .completionPredicate(
          header("MsgType").isEqualTo("ALERT")
         )
        .eagerCheckCompletion()
    .to("mock:result");
The following example shows how to configure the same route using XML:
<camelContext xmlns="http://camel.apache.org/schema/spring">
  <route>
    <from uri="direct:start"/>
    <aggregate strategyRef="aggregatorStrategy"
               eagerCheckCompletion="true">
      <correlationExpression>
          <simple>header.StockSymbol</simple>
      </correlationExpression>
      <completionPredicate>
          <simple>$MsgType = 'ALERT'</simple>
      </completionPredicate>
      <to uri="mock:result"/>
    </aggregate>
  </route>
</camelContext>

<bean id="aggregatorStrategy"
      class="org.apache.camel.processor.aggregate.UseLatestAggregationStrategy"/>

Specifying a dynamic completion timeout

It is possible to specify a dynamic completion timeout, where the timeout value is recalculated for every incoming exchange. For example, to set the timeout value from the timeout header in each incoming exchange, you could define a route as follows:
from("direct:start")
    .aggregate(header("StockSymbol"), new UseLatestAggregationStrategy())
        .completionTimeout(header("timeout"))
    .to("mock:aggregated");
You can configure the same route in the XML DSL, as follows:
<camelContext xmlns="http://camel.apache.org/schema/spring">
    <route>
        <from uri="direct:start"/>
        <aggregate strategyRef="aggregatorStrategy">
            <correlationExpression>
                <simple>header.StockSymbol</simple>
            </correlationExpression>
            <completionTimeout>
                <header>timeout</header>
            </completionTimeout>
            <to uri="mock:aggregated"/>
        </aggregate>
    </route>
</camelContext>

<bean id="aggregatorStrategy"
      class="org.apache.camel.processor.UseLatestAggregationStrategy"/>
Note
You can also add a fixed timeout value and Apache Camel will fall back to use this value, if the dynamic value is null or 0.

Specifying a dynamic completion size

It is possible to specify a dynamic completion size, where the completion size is recalculated for every incoming exchange. For example, to set the completion size from the mySize header in each incoming exchange, you could define a route as follows:
from("direct:start")
    .aggregate(header("StockSymbol"), new UseLatestAggregationStrategy())
        .completionSize(header("mySize"))
    .to("mock:aggregated");
And the same example using Spring XML:
<camelContext xmlns="http://camel.apache.org/schema/spring">
    <route>
        <from uri="direct:start"/>
        <aggregate strategyRef="aggregatorStrategy">
            <correlationExpression>
                <simple>header.StockSymbol</simple>
            </correlationExpression>
            <completionSize>
                <header>mySize</header>
            </completionSize>
            <to uri="mock:aggregated"/>
        </aggregate>
    </route>
</camelContext>

<bean id="aggregatorStrategy"
      class="org.apache.camel.processor.UseLatestAggregationStrategy"/>
Note
You can also add a fixed size value and Apache Camel will fall back to use this value, if the dynamic value is null or 0.

Forcing completion of a single group from within an AggregationStrategy

If you implement a custom AggregationStrategy class, there is a mechanism available to force the completion of the current message group, by setting the Exchange.AGGREGATION_COMPLETE_CURRENT_GROUP exchange property to true on the exchange returned from the AggregationStrategy.aggregate() method. This mechanism only affects the current group: other message groups (with different correlation IDs) are not forced to complete. This mechanism overrides any other completion mechanisms, such as predicate, size, timeout, and so on.
For example, the following sample AggregationStrategy class completes the current group, if the message body size is larger than 5:
// Java
public final class MyCompletionStrategy implements AggregationStrategy {
    @Override
    public Exchange aggregate(Exchange oldExchange, Exchange newExchange) {
        if (oldExchange == null) {
            return newExchange;
        }
        String body = oldExchange.getIn().getBody(String.class) + "+" 
            + newExchange.getIn().getBody(String.class);
        oldExchange.getIn().setBody(body);
        if (body.length() >= 5) {
            oldExchange.setProperty(Exchange.AGGREGATION_COMPLETE_CURRENT_GROUP, true);
        }
        return oldExchange;
    }
}

Forcing completion of all groups with a special message

It is possible to force completion of all outstanding aggregate messages, by sending a message with a special header to the route. There are two alternative header settings you can use to force completion:
Exchange.AGGREGATION_COMPLETE_ALL_GROUPS
Set to true, to force completion of the current aggregation cycle. This message acts purely as a signal and is not included in any aggregation cycle. After processing this signal message, the content of the message is discarded.
Exchange.AGGREGATION_COMPLETE_ALL_GROUPS_INCLUSIVE
Set to true, to force completion of the current aggregation cycle. This message is included in the current aggregation cycle.

Using AggregateController

The org.apache.camel.processor.aggregate.AggregateController enables you to control the aggregate at runtime using Java or JMX API. This can be used to force completing groups of exchanges, or query the current runtime statistics.
If no custom have been configured, the aggregator provides a default implementation which you can access using the getAggregateController() method. However, it is easy to configure a controller in the route using aggregateController.

private AggregateController controller = new DefaultAggregateController();
 
from("direct:start")
   .aggregate(header("id"), new MyAggregationStrategy()).completionSize(10).id("myAggregator")
      .aggregateController(controller)
      .to("mock:aggregated");

Also, you can use the API on AggregateControllerto force completion. For example, to complete a group with key foo
int groups = controller.forceCompletionOfGroup("foo");

The number return would be the number of groups completed. Following is an API to complete all groups:
 int groups = controller.forceCompletionOfAllGroups();

Enforcing unique correlation keys

In some aggregation scenarios, you might want to enforce the condition that the correlation key is unique for each batch of exchanges. In other words, when the aggregate exchange for a particular correlation key completes, you want to make sure that no further aggregate exchanges with that correlation key are allowed to proceed. For example, you might want to enforce this condition, if the latter part of the route expects to process exchanges with unique correlation key values.
Depending on how the completion conditions are configured, there might be a risk of more than one aggregate exchange being generated with a particular correlation key. For example, although you might define a completion predicate that is designed to wait until all the exchanges with a particular correlation key are received, you might also define a completion timeout, which could fire before all of the exchanges with that key have arrived. In this case, the late-arriving exchanges could give rise to a second aggregate exchange with the same correlation key value.
For such scenarios, you can configure the aggregator to suppress aggregate exchanges that duplicate previous correlation key values, by setting the closeCorrelationKeyOnCompletion option. In order to suppress duplicate correlation key values, it is necessary for the aggregator to record previous correlation key values in a cache. The size of this cache (the number of cached correlation keys) is specified as an argument to the closeCorrelationKeyOnCompletion() DSL command. To specify a cache of unlimited size, you can pass a value of zero or a negative integer. For example, to specify a cache size of 10000 key values:
from("direct:start")
    .aggregate(header("UniqueBatchID"), new MyConcatenateStrategy())
        .completionSize(header("mySize"))
        .closeCorrelationKeyOnCompletion(10000)
    .to("mock:aggregated");
If an aggregate exchange completes with a duplicate correlation key value, the aggregator throws a ClosedCorrelationKeyException exception.

Grouped exchanges

You can combine all of the aggregated exchanges in an outgoing batch into a single org.apache.camel.impl.GroupedExchange holder class. To enable grouped exchanges, specify the groupExchanges() option, as shown in the following Java DSL route:
from("direct:start")
    .aggregate(header("StockSymbol"))
        .completionTimeout(3000)
        .groupExchanges()
    .to("mock:result");
The grouped exchange sent to mock:result contains the list of aggregated exchanges in the message body. The following line of code shows how a subsequent processor can access the contents of the grouped exchange in the form of a list:
// Java
List<Exchange> grouped = ex.getIn().getBody(List.class);
Note
When you enable the grouped exchanges feature, you must not configure an aggregation strategy (the grouped exchanges feature is itself an aggregation strategy).
Note
The old approach of accessing the grouped exchanges from a property on the outgoing exchange is now deprecated and will be removed in a future release.

Batch consumer

The aggregator can work together with the batch consumer pattern to aggregate the total number of messages reported by the batch consumer (a batch consumer endpoint sets the CamelBatchSize, CamelBatchIndex , and CamelBatchComplete properties on the incoming exchange). For example, to aggregate all of the files found by a File consumer endpoint, you could use a route like the following:
from("file://inbox")
    .aggregate(xpath("//order/@customerId"), new AggregateCustomerOrderStrategy())
    .completionFromBatchConsumer()
    .to("bean:processOrder");
Currently, the following endpoints support the batch consumer mechanism: File, FTP, Mail, iBatis, and JPA.

Persistent aggregation repository

If you want pending aggregated exchanges to be stored persistently, you can use either the HawtDB component or the SQL Component for persistence support as a persistent aggregation repository. For example, if using HawtDB, you need to include a dependency on the camel-hawtdb component in your Maven POM. You can then configure a route to use the HawtDB aggregation repository as follows:
public void configure() throws Exception {
    HawtDBAggregationRepository repo = new AggregationRepository("repo1", "target/data/hawtdb.dat");

    from("direct:start")
        .aggregate(header("id"), new UseLatestAggregationStrategy())
            .completionTimeout(3000)
            .aggregationRepository(repo)
        .to("mock:aggregated");
}
The HawtDB aggregation repository has a feature that enables it to recover and retry any failed exchanges (that is, any exchange that raised an exception while it was being processed by the latter part of the route). Figure 8.7, “Recoverable Aggregation Repository” shows an overview of the recovery mechanism.

Figure 8.7. Recoverable Aggregation Repository

Recoverable Aggregation Repository
The recovery mechanism works as follows:
  1. The aggregator creates a dedicated recovery thread, which runs in the background, scanning the aggregation repository to find any failed exchanges.
  2. Each failed exchange is checked to see whether its current redelivery count exceeds the maximum redelivery limit. If it is under the limit, the recovery task resubmits the exchange for processing in the latter part of the route.
  3. If the current redelivery count is over the limit, the failed exchange is passed to the dead letter queue.
For more details about the HawtDB component, see HawtDB in the Apache Camel Component Reference Guide.

Threading options

As shown in Figure 8.6, “Aggregator Implementation”, the aggregator is decoupled from the latter part of the route, where the exchanges sent to the latter part of the route are processed by a dedicated thread pool. By default, this pool contains just a single thread. If you want to specify a pool with multiple threads, enable the parallelProcessing option, as follows:
from("direct:start")
    .aggregate(header("id"), new UseLatestAggregationStrategy())
        .completionTimeout(3000)
        .parallelProcessing()
    .to("mock:aggregated");
By default, this creates a pool with 10 worker threads.
If you want to exercise more control over the created thread pool, specify a custom java.util.concurrent.ExecutorService instance using the executorService option (in which case it is unnecessary to enable the parallelProcessing option).

Aggregating into a List

A common aggregation scenario involves aggregating a series of incoming message bodies into a List object. To facilitate this scenario, Apache Camel provides the AbstractListAggregationStrategy abstract class, which you can quickly extend to create an aggregation strategy for this case. Incoming message bodies of type, T, are aggregated into a completed exchange, with a message body of type List<T>.
For example, to aggregate a series of Integer message bodies into a List<Integer> object, you could use an aggregation strategy defined as follows:
import org.apache.camel.processor.aggregate.AbstractListAggregationStrategy;
...
/**
 * Strategy to aggregate integers into a List<Integer>.
 */
public final class MyListOfNumbersStrategy extends AbstractListAggregationStrategy<Integer> {
 
    @Override
    public Integer getValue(Exchange exchange) {
        // the message body contains a number, so just return that as-is
        return exchange.getIn().getBody(Integer.class);
    }
}

Aggregator options

The aggregator supports the following options:
Table 8.3. Aggregator Options
OptionDefaultDescription
correlationExpression   Mandatory Expression which evaluates the correlation key to use for aggregation. The Exchange which has the same correlation key is aggregated together. If the correlation key could not be evaluated an Exception is thrown. You can disable this by using the ignoreBadCorrelationKeys option.
aggregationStrategy   Mandatory AggregationStrategy which is used to merge the incoming Exchange with the existing already merged exchanges. At first call the oldExchange parameter is null. On subsequent invocations the oldExchange contains the merged exchanges and newExchange is of course the new incoming Exchange. From Camel 2.9.2 onwards, the strategy can optionally be a TimeoutAwareAggregationStrategy implementation, which supports a timeout callback. From Camel 2.16 onwards, the strategy can also be a PreCompletionAwareAggregationStrategy implementation. It runs the completion check in a pre-completion mode.
strategyRef   A reference to lookup the AggregationStrategy in the Registry.
completionSize   Number of messages aggregated before the aggregation is complete. This option can be set as either a fixed value or using an Expression which allows you to evaluate a size dynamically - will use Integer as result. If both are set Camel will fallback to use the fixed value if the Expression result was null or 0.
completionTimeout   Time in millis that an aggregated exchange should be inactive before its complete. This option can be set as either a fixed value or using an Expression which allows you to evaluate a timeout dynamically - will use Long as result. If both are set Camel will fallback to use the fixed value if the Expression result was null or 0. You cannot use this option together with completionInterval, only one of the two can be used.
completionInterval   A repeating period in millis by which the aggregator will complete all current aggregated exchanges. Camel has a background task which is triggered every period. You cannot use this option together with completionTimeout, only one of them can be used.
completionPredicate   Specifies a predicate (of org.apache.camel.Predicate type), which signals when an aggregated exchange is complete. Alternatively, instead of setting this option, you can define a custom AggregationStrategy that implements the Predicate interface, in which case the AggregationStrategy will be used as the completion predicate.
completionFromBatchConsumer false This option is if the exchanges are coming from a Batch Consumer. Then when enabled the Aggregator will use the batch size determined by the Batch Consumer in the message header CamelBatchSize. See more details at Batch Consumer. This can be used to aggregate all files consumed from a see File endpoint in that given poll.
eagerCheckCompletion false Whether or not to eager check for completion when a new incoming Exchange has been received. This option influences the behavior of the completionPredicate option as the Exchange being passed in changes accordingly. When false the Exchange passed in the Predicate is the aggregated Exchange which means any information you may store on the aggregated Exchange from the AggregationStrategy is available for the Predicate. When true the Exchange passed in the Predicate is the incoming Exchange, which means you can access data from the incoming Exchange.
forceCompletionOnStopfalse If true, complete all aggregated exchanges when the current route context is stopped.
groupExchanges false If enabled then Camel will group all aggregated Exchanges into a single combined org.apache.camel.impl.GroupedExchange holder class that holds all the aggregated Exchanges. And as a result only one Exchange is being sent out from the aggregator. Can be used to combine many incoming Exchanges into a single output Exchange without coding a custom AggregationStrategy yourself.
ignoreInvalidCorrelationKeys false Whether or not to ignore correlation keys which could not be evaluated to a value. By default Camel will throw an Exception, but you can enable this option and ignore the situation instead.
closeCorrelationKeyOnCompletion   Whether or not late Exchanges should be accepted or not. You can enable this to indicate that if a correlation key has already been completed, then any new exchanges with the same correlation key be denied. Camel will then throw a closedCorrelationKeyException exception. When using this option you pass in a integer which is a number for a LRUCache which keeps that last X number of closed correlation keys. You can pass in 0 or a negative value to indicate a unbounded cache. By passing in a number you are ensured that cache wont grown too big if you use a log of different correlation keys.
discardOnCompletionTimeout false Camel 2.5: Whether or not exchanges which complete due to a timeout should be discarded. If enabled, then when a timeout occurs the aggregated message will not be sent out but dropped (discarded).
aggregationRepository  Allows you to plug in you own implementation of org.apache.camel.spi.AggregationRepository which keeps track of the current inflight aggregated exchanges. Camel uses by default a memory based implementation.
aggregationRepositoryRef   Reference to lookup a aggregationRepository in the Registry.
parallelProcessing false When aggregated are completed they are being send out of the aggregator. This option indicates whether or not Camel should use a thread pool with multiple threads for concurrency. If no custom thread pool has been specified then Camel creates a default pool with 10 concurrent threads.
executorService   If using parallelProcessing you can specify a custom thread pool to be used. In fact also if you are not using parallelProcessing this custom thread pool is used to send out aggregated exchanges as well.
executorServiceRef   Reference to lookup a executorService in the Registry
timeoutCheckerExecutorService  If using one of the completionTimeout, completionTimeoutExpression, or completionInterval options, a background thread is created to check for the completion for every aggregator. Set this option to provide a custom thread pool to be used rather than creating a new thread for every aggregator.
timeoutCheckerExecutorServiceRef  Reference to look up a timeoutCheckerExecutorService in the registry.
completeAllOnStop When you stop the Aggregator, this option allows it to complete all pending exchanges from the aggregation repository.
optimisticLockingfalse Turns on optimistic locking, which can be used in combination with an aggregation repository.
optimisticLockRetryPolicy Configures the retry policy for optimistic locking.
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