BigMemory Max 4.3.5 | Tutorials | Grouping Results
 
Grouping Results
In addition to sorting results, the Ehcache search interface also provides grouping and aggregation functionality. Let's try modifying our sample code to exercise some of these features.
Create Configuration File
Create a new configuration file called "ehcache-group.xml" in your classpath and add a new cache called "group." We're going to add a "Gender" attribute to our Person class, so we'll also add it as a searchAttribute in the configuration.
<ehcache xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
xsi:noNamespaceSchemaLocation="http://ehcache.org/ehcache.xsd"
name="SampleConfig" maxBytesLocalHeap="64M">
<cache name="hello-world"/>
<cache name="crud"/>
<cache name="search">
<searchable>
<searchAttribute name="height"/>
<searchAttribute name="weight"/>
<searchAttribute name="bodyMassIndex" />
</searchable>
</cache>
<cache name="sort">
<searchable>
<searchAttribute name="height"/>
<searchAttribute name="weight"/>
</searchable>
</cache>
<cache name="group">
<searchable>
<searchAttribute name="height"/>
<searchAttribute name="gender"/>
<searchAttribute name="bmi" expression="value.getBodyMassIndex()"/>
</searchable>
</cache>
</ehcache>
Create Group.java
Create and compile a Java class called Group:
import java.util.List;
import net.sf.ehcache.Cache;
import net.sf.ehcache.CacheManager;
import net.sf.ehcache.Element;
import net.sf.ehcache.search.Attribute;
import net.sf.ehcache.search.Direction;
import net.sf.ehcache.search.Query;
import net.sf.ehcache.search.Result;
import net.sf.ehcache.search.Results;
import net.sf.ehcache.search.aggregator.Aggregators;

public class Group {
public static void main(final String[] args) {

// Create a cache manager using the factory method...
final CacheManager cacheManager = CacheManager.newInstance(Group.class
.getResource("/ehcache-group.xml"));

// Retrieve the "sort" data set...
final Cache dataSet = cacheManager.getCache("group");

// Create some objects...
final Person janeAusten = new Person(1, "Jane", "Austen", "Female",
5 * 12 + 7, 130);
final Person charlesDickens = new Person(2, "Charles", "Dickens", "Male",
5 * 12 + 9, 160);
final Person janeDoe = new Person(3, "Jane", "Doe", "Female", 5 * 12 + 5,
145);
final Person alexSmith = new Person(4, "Alex", "Smith", "Other",
5 * 12 + 5, 160);

// Put the objects into the data set...
dataSet.put(new Element(janeAusten.getId(), janeAusten));
dataSet.put(new Element(charlesDickens.getId(), charlesDickens));
dataSet.put(new Element(janeDoe.getId(), janeDoe));
dataSet.put(new Element(alexSmith.getId(), alexSmith));

// Fetch the search attributes that we'll use in our query and when fetching
// our results...
Attribute<Integer> height = dataSet.getSearchAttribute("height");
Attribute<String> gender = dataSet.getSearchAttribute("gender");
Attribute<Float> bmi = dataSet.getSearchAttribute("bmi");

// Create a query object. (This query is designed to select the entire data
// set.)
final Query query = dataSet.createQuery().addCriteria(height.gt(5 * 12));

// Group by the gender attribute so we can perform aggregations on each
// gender...
query.addGroupBy(gender);
query.includeAttribute(gender);

// Include an aggregation of the average height and bmi of each gender in
// the results...
query.includeAggregator(Aggregators.average(height));
query.includeAggregator(Aggregators.average(bmi));

// Include the count of the members of each gender
query.includeAggregator(Aggregators.count());

// Make the results come back sorted by gender in alphabetical order
query.addOrderBy(gender, Direction.ASCENDING);

// Execute the query...
final Results results = query.execute();

// Print the results...
for (Result result : results.all()) {
String theGender = result.getAttribute(gender);
List<Object> aggregatorResults = result.getAggregatorResults();
Float avgHeight = (Float) aggregatorResults.get(0);
Float avgBMI = (Float) aggregatorResults.get(1);
Integer count = (Integer) aggregatorResults.get(2);
System.out.println("Gender: " + theGender + "; count: " + count
+ "; average height: " + avgHeight + "; average BMI: " + avgBMI);
}
}

public static class Person {
private final String firstName;
private final String lastName;
private final long id;
private final int height;
private final int weight;
private String gender;

public Person(final long id, final String firstName, final String lastName,
final String gender, final int height, final int weight) {
this.id = id;
this.firstName = firstName;
this.lastName = lastName;
this.gender = gender;
this.height = height;
this.weight = weight;
}

public String getFirstName() {
return firstName;
}

public String getLastName() {
return lastName;
}

public String getGender() {
return gender;
}

public int getHeight() {
return height;
}

public int getWeight() {
return weight;
}

public float getBodyMassIndex() {
return ((float) weight / ((float) height * (float) height)) * 703;
}

public long getId() {
return id;
}

public String toString() {
return "[id=" + id + ", firstName=" + firstName + ", lastName="
+ lastName + ", height=" + height + " in" + ", weight=" + weight
+ " lbs" + ", bmi=" + getBodyMassIndex() + "]";
}
}
}
Execute
When you run the Group program in a terminal, you should see output like this:
Gender: Female; count: 2; average height: 66.0; average BMI: 22.242641
Gender: Male; count: 1; average height: 69.0; average BMI: 23.625288
Gender: Other; count: 1; average height: 65.0; average BMI: 26.622484
Next Step
Next Step: Adding the Server Array ›

Copyright © 2010 - 2019 | Software AG, Darmstadt, Germany and/or Software AG USA, Inc., Reston, VA, USA, and/or its subsidiaries and/or its affiliates and/or their licensors.
Innovation Release