Eager fetching is the ability to efficiently load subclass data and related objects along with the base instances being queried. Typically, Kodo has to make a trip to the database whenever a relation is loaded, or when you first access data that is mapped to a table other than the least-derived superclass table. If you perform a query that returns 100 Person objects, and then you have to retrieve the Address for each person, Kodo may make as many as 101 queries (the initial query, plus one for the address of each person returned). Or if some of the Person instances turn out to be Employees, where Employee has additional data in its own joined table, Kodo once again might need to make extra database trips to access the additional employee data. With eager fetching, Kodo can reduce these cases to a single query.
![[Important]](img/important.gif) | Important |
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This feature requires Kodo Enterprise Edition or Kodo Standard Edition with the Performance Pack. | |
Eager fetching only affects relations in the fetch groups being loaded (see Section 5.6, “Fetch Groups”). In other words, relations that would not normally be loaded immediately when retrieving an object or accessing a field are not affected by eager fetching. In our example above, the address of each person would only be eagerly fetched if the query were configured to include the address field or its fetch group, or if the address were in the default fetch group. This allows you to control exactly which fields are eagerly fetched in different situations. Similarly, queries that exclude subclasses aren't affected by eager subclass fetching, described below.
Eager fetching has three modes:
none: No eager fetching is performed. Related objects are always loaded in an independent select statement. No joined subclass data is loaded unless it is in the table(s) for the base type being queried. Unjoined subclass data is loaded using separate select statements rather than a SQL UNION operation.
join: In this mode, Kodo joins to to-one relations in the configured fetch groups. If Kodo is loading data for a single instance, then Kodo will also join to any collection field in the configured fetch groups. When loading data for multiple instances, though, (such as when executing a Query) Kodo will not join to collections by default. Instead, Kodo defaults to parallel mode for collections, as described below. You can force Kodo use a join rather than parallel mode for a collection field using the metadata extension described in Section 7.9.2.1, “Eager Fetch Mode”.
Under join mode, Kodo uses a left outer join (or inner join, if the relations' field metadata declares the relation non-nullable) to select the related data along with the data for the target objects. This process works recursively for to-one joins, so that if Person has an Address, and Address has a TelephoneNumber, and the fetch groups are configured correctly, Kodo might issue a single select that joins across the tables for all three classes. To-many joins can not recursively spawn other to-many joins, but they can spawn recursive to-one joins.
Under the join subclass fetch mode, subclass data in joined tables is selected by outer joining to all possible subclass tables of the type being queried. Unjoined subclass data is selected with a SQL UNION where possible. As you'll see below, subclass data fetching is configured separately from relation fetching, and can be disabled for specific classes.
![[Note]](img/note.gif)
Note Some databases may not support UNIONs or outer joins. Also, Kodo can not use outer joins if you have set the DBDictionary's JoinSyntax to traditional. See Section 4.6, “Setting the SQL Join Syntax”.
parallel: Under this mode, Kodo selects to-one relations and joined collections as outlined in the join mode description above. Unjoined collection fields, however, are eagerly fetched using a separate select statement for each collection, executed in parallel with the select statement for the target objects. The parallel selects use the WHERE conditions from the primary select, but add their own joins to reach the related data. Thus, if you perform a query that returns 100 Company objects, where each company has a list of Employee objects and Department objects, Kodo will make 3 queries. The first will select the company objects, the second will select the employees for those companies, and the third will select the departments for the same companies. Just as for joins, this process can be recursively applied to the objects in the relations being eagerly fetched. Continuing our example, if the Employee class had a list of Projects in one of the fetch groups being loaded, Kodo would execute a single additional select in parallel to load the projects of all employees of the matching companies.
Using an additional select to load each collection avoids transferring more data than necessary from the database to the application. If eager joins were used instead of parallel select statements, each collection added to the configured fetch groups would cause the amount of data being transferred to rise dangerously, to the point that you could easily overwhelm the network.
Polymorphic to-one relations to table-per-class mappings use parallel eager fetching because proper joins are impossible. You can force other to-one relations to use parallel rather than join mode eager fetching using the metadata extension described in Section 7.9.2.1, “Eager Fetch Mode”.
Setting your subclass fetch mode to parallel affects table-per-class and vertical inheritance hierarchies. Under parallel mode, Kodo issues separate selects for each subclass in a table-per-class inheritance hierarchy, rather than UNIONing all subclass tables together as in join mode. This applies to any operation on a table-per-class base class: query, by-id lookup, or relation traversal.
When dealing with a vertically-mapped hierarchy, on the other hand, parallel subclass fetch mode only applies to queries. Rather than outer-joining to subclass tables, Kodo will issue the query separately for each subclass. In all other situations, parallel subclass fetch mode acts just like join mode in regards to vertically-mapped subclasses.
When Kodo knows that it is selecting for a single object only, it never uses parallel mode, because the additional selects can be made lazily just as efficiently. This mode only increases efficiency over join mode when multiple objects with eager relations are being loaded, or when multiple selects might be faster than joining to all possible subclasses.
You can control Kodo's default eager fetch mode through the kodo.jdbc.EagerFetchMode and kodo.jdbc.SubclassFetchMode configuration properties. Set each of these properties to one of the mode names described in the previous section: none, join, parallel. If left unset, the eager fetch mode defaults to parallel and the subclass fetch mode defaults to join (assuming your license supports eager fetching at all). These are generally the most robust and performant strategies.
You can easily override the default fetch modes at runtime for any lookup or query through Kodo's fetch configuration APIs. See Chapter 9, Runtime Extensions for details.
Example 5.20. Setting the Default Eager Fetch Mode
EJB XML format:
<property name="kodo.jdbc.EagerFetchMode" value="parallel"/> <property name="kodo.jdbc.SubclassFetchMode" value="join"/>
JDO properties format:
kodo.jdbc.EagerFetchMode: parallel kodo.jdbc.SubclassFetchMode: join
Example 5.21. Setting the Eager Fetch Mode at Runtime
EJB persistence:
import kodo.persistence.*;
import kodo.persistence.jdbc.*;
...
Query q = em.createQuery ("select p from Person p where p.address.state = 'TX'");
KodoQuery kq = KodoPersistence.cast (q);
JDBCFetchPlan fetch = (JDBCFetchPlan) kq.getFetchPlan ();
fetch.setEagerFetchMode (JDBCFetchPlan.EAGER_PARALLEL);
fetch.setSubclassFetchMode (JDBCFetchPlan.EAGER_JOIN);
List results = q.getResultList ();
JDO:
import kodo.jdo.jdbc.*; ... Query q = pm.newQuery (Person.class, "address.state == 'TX'"); JDBCFetchPlan fetch = (JDBCFetchPlan) q.getFetchPlan (); fetch.setEagerFetchMode (JDBCFetchPlan.EAGER_PARALLEL); fetch.setSubclassFetchMode (JDBCFetchPlan.EAGER_JOIN); List results = (List) q.execute ();
You can specify a default subclass fetch mode for an individual class with the metadata extension described in Section 7.9.1.1, “Subclass Fetch Mode”. Note, however, that you cannot "upgrade" the runtime fetch mode with your class setting. If the runtime fetch mode is none, no eager subclass data fetching will take place, regardless of your metadata setting.
This applies to the eager fetch mode metadata extension as well (see Section 7.9.2.1, “Eager Fetch Mode”). You can use this extension to disable eager fetching on a field or to declare that a collection would rather use joins than parallel selects or vice versa. But an extension value of join won't cause any eager joining if the fetch configuration's setting is none.
There are several important points that you should consider when using eager fetching:
When you are using parallel eager fetch mode and you have large result sets enabled (see Section 4.10, “Large Result Sets”) or you place a range on a query, Kodo performs the needed parallel selects on one page of results at a time. For example, suppose your FetchBatchSize is set to 20, and you perform a large result set query on a class that has collection fields in the configured fetch groups. Kodo will immediately cache the first 20 results of the query using join mode eager fetching only. Then, it will issue the extra selects needed to eager fetch your collection fields according to parallel mode. Each select will use a SQL IN clause (or multiple OR clauses if your class has a compound primary key) to limit the selected collection elements to those owned by the 20 cached results.
Once you iterate past the first 20 results, Kodo will cache the next 20 and again issue any needed extra selects for collection fields, and so on. This pattern ensures that you get the benefits of eager fetching without bringing more data into memory than anticipated.
Eager fetching can sometimes be less efficient than standard fetching when circular relations are included in the configured fetch groups.
Once Kodo eager-joins into a class, it cannot issue any further eager to-many joins or parallel selects from that class in the same query. To-one joins, however, can recurse to any level.
Using a to-many join makes it impossible to determine the number of instances the result set contains without traversing the entire set. This is because each result object might be represented by multiple rows. Thus, queries with a range specification or queries configured for lazy result set traversal automatically turn off eager to-many joining.
Kodo cannot eagerly join to polymorphic relations to non-leaf classes in a table-per-class inheritance hierarchy. You can work around this restriction using the mapping extensions described in Section 7.9.2.2, “Nonpolymorphic”.