You must provide every secondary database with a
class
that creates keys from primary records. You identify this
class
using the SecondaryConfig.setKeyCreator()
method.
You can create keys using whatever data you want. Typically you will base your key on some information found in a record's data, but you can also use information found in the primary record's key. How you build your keys is entirely dependent upon the nature of the index that you want to maintain.
You implement a key creator by writing a class that implements the
SecondaryKeyCreator
interface. This interface
requires you to implement the SecondaryKeyCreator.createSecondaryKey()
method.
One thing to remember when implementing this method is that you will
need a way to extract the necessary information from the data's
DatabaseEntry
and/or the key's
DatabaseEntry
that are provided on calls to this
method. If you are using complex objects, then you are probably using the
Bind APIs to perform this conversion. The easiest thing to do is to
instantiate the EntryBinding
or
TupleBinding
that you need to perform the
conversion, and then provide this to your key creator's constructor.
The Bind APIs are introduced in Using the BIND APIs.
SecondaryKeyCreator.createSecondaryKey()
returns a
boolean. A return value of false
indicates that
no secondary key exists, and therefore no record should be added to the secondary database for that primary record.
If a record already exists in the secondary database, it is deleted.
For example, suppose your primary database uses the following class for its record data:
package db.GettingStarted; public class PersonData { private String userID; private String surname; private String familiarName; public PersonData(String userID, String surname, String familiarName) { this.userID = userID; this.surname = surname; this.familiarName = familiarName; } public String getUserID() { return userID; } public String getSurname() { return surname; } public String getFamiliarName() { return familiarName; } }
Also, suppose that you have created a custom tuple binding,
PersonDataBinding
, that you use to convert
PersonData
objects to and from
DatabaseEntry
objects. (Custom tuple bindings are
described in Custom Tuple Bindings.)
Finally, suppose you want a secondary database that is keyed based on the person's full name.
Then in this case you might create a key creator as follows:
package db.GettingStarted; import com.sleepycat.bind.tuple.TupleBinding; import com.sleepycat.db.SecondaryKeyCreator; import com.sleepycat.db.DatabaseEntry; import com.sleepycat.db.DatabaseException; import com.sleepycat.db.SecondaryDatabase; import java.io.IOException; public class FullNameKeyCreator implements SecondaryKeyCreator { private TupleBinding theBinding; public FullNameKeyCreator(TupleBinding theBinding1) { theBinding = theBinding1; } public boolean createSecondaryKey(SecondaryDatabase secDb, DatabaseEntry keyEntry, DatabaseEntry dataEntry, DatabaseEntry resultEntry) { try { PersonData pd = (PersonData) theBinding.entryToObject(dataEntry); String fullName = pd.getFamiliarName() + " " + pd.getSurname(); resultEntry.setData(fullName.getBytes("UTF-8")); } catch (IOException willNeverOccur) {} return true; } }
Finally, you use this key creator as follows:
package db.GettingStarted; import com.sleepycat.bind.tuple.TupleBinding; import com.sleepycat.db.Database; import com.sleepycat.db.DatabaseException; import com.sleepycat.db.DatabaseType; import com.sleepycat.db.SecondaryDatabase; import com.sleepycat.db.SecondaryConfig; import java.io.FileNotFoundException; ... Database myDb = null; SecondaryDatabase mySecDb = null; try { // Primary database open omitted for brevity ... TupleBinding myDataBinding = new MyTupleBinding(); FullNameKeyCreator fnkc = new FullNameKeyCreator(myDataBinding); SecondaryConfig mySecConfig = new SecondaryConfig(); mySecConfig.setKeyCreator(fnkc); mySecConfig.setType(DatabaseType.BTREE); //Perform the actual open String secDbName = "mySecondaryDatabase"; mySecDb = new SecondaryDatabase(secDbName, null, myDb, mySecConfig); } catch (DatabaseException de) { // Exception handling goes here } catch (FileNotFoundException fnfe) { // Exception handling goes here } finally { try { if (mySecDb != null) { mySecDb.close(); } if (myDb != null) { myDb.close(); } } catch (DatabaseException dbe) { // Exception handling goes here } }
Until now we have only discussed indexes as if there is a one-to-one relationship between the secondary key and the primary database record. In fact, it is possible to generate multiple keys for any given record, provided that you take appropriate steps in your key creator to do so.
For example, suppose you had a database that contained information about books. Suppose further that you sometimes want to look up books by author. Because sometimes books have multiple authors, you may want to return multiple secondary keys for every book that you index.
To do this, you write a key creator that implements
SecondaryMultiKeyCreator
instead of
SecondaryKeyCreator
. The key
difference between the two is that
SecondaryKeyCreator
uses a single DatabaseEntry
object as the result, while
SecondaryMultiKeyCreator
returns a set of DatabaseEntry
objects (using java.util.Set
).
Also, you assign the
SecondaryMultiKeyCreator
implementation using
SecondaryConfig.setMultiKeyCreator()
instead of
SecondaryConfig.setKeyCreator()
.
For example:
package db.GettingStarted; import com.sleepycat.db.DatabaseEntry; import com.sleepycat.db.DatabaseException; import com.sleepycat.db.SecondaryDatabase; import com.sleepycat.db.SecondaryMultiKeyCreator; import java.util.HashSet; import java.util.Set; public class MyMultiKeyCreator implements SecondaryMultiKeyCreator { // Constructor not implemented. How this is implemented depends on // how you want to extract the data for your keys. MyMultiKeyCreator() { ... } // Abstract method that we must implement public void createSecondaryKeys(SecondaryDatabase secDb, DatabaseEntry keyEntry, // From the primary DatabaseEntry dataEntry, // From the primary Set results) // Results set throws DatabaseException { try { // Create your keys, adding each to the set // Creation of key 'a' not shown results.add(a) // Creation of key 'b' not shown results.add(b) } catch (IOException willNeverOccur) {} } }