<!--$Id: join.so,v 10.31 2004/01/21 20:39:56 bostic Exp $--> <!--Copyright (c) 1997,2007 Oracle. All rights reserved.--> <!--See the file LICENSE for redistribution information.--> <html> <head> <title>Berkeley DB Reference Guide: Equality Join</title> <meta name="description" content="Berkeley DB: An embedded database programmatic toolkit."> <meta name="keywords" content="embedded,database,programmatic,toolkit,btree,hash,hashing,transaction,transactions,locking,logging,access method,access methods,Java,C,C++"> </head> <body bgcolor=white> <a name="2"><!--meow--></a><a name="3"><!--meow--></a><a name="4"><!--meow--></a> <table width="100%"><tr valign=top> <td><h3><dl><dt>Berkeley DB Reference Guide:<dd>Access Methods</dl></h3></td> <td align=right><a href="../am/curdup.html"><img src="../../images/prev.gif" alt="Prev"></a><a href="../toc.html"><img src="../../images/ref.gif" alt="Ref"></a><a href="../am/count.html"><img src="../../images/next.gif" alt="Next"></a> </td></tr></table> <p> <h3 align=center>Equality Join</h3> <p>Berkeley DB supports "equality" (also known as "natural"), joins on secondary indices. An equality join is a method of retrieving data from a primary database using criteria stored in a set of secondary indices. It requires the data be organized as a primary database which contains the primary key and primary data field, and a set of secondary indices. Each of the secondary indices is indexed by a different secondary key, and, for each key in a secondary index, there is a set of duplicate data items that match the primary keys in the primary database.</p> <p>For example, let's assume the need for an application that will return the names of stores in which one can buy fruit of a given color. We would first construct a primary database that lists types of fruit as the key item, and the store where you can buy them as the data item:</p> <blockquote><table border=1> <tr><th>Primary key:</th><th>Primary data:</th></tr> <tr> <td align=left>apple</td> <td align=left>Convenience Store</td> </tr> <tr> <td align=left>blueberry</td> <td align=left>Farmer's Market</td> </tr> <tr> <td align=left>peach</td> <td align=left>Shopway</td> </tr> <tr> <td align=left>pear</td> <td align=left>Farmer's Market</td> </tr> <tr> <td align=left>raspberry</td> <td align=left>Shopway</td> </tr> <tr> <td align=left>strawberry</td> <td align=left>Farmer's Market</td> </tr> </table></blockquote> <p>We would then create a secondary index with the key <b>color</b>, and, as the data items, the names of fruits of different colors.</p> <blockquote><table border=1> <tr><th>Secondary key:</th><th>Secondary data:</th></tr> <tr> <td align=left>blue</td> <td align=left>blueberry</td> </tr> <tr> <td align=left>red</td> <td align=left>apple</td> </tr> <tr> <td align=left>red</td> <td align=left>raspberry</td> </tr> <tr> <td align=left>red</td> <td align=left>strawberry</td> </tr> <tr> <td align=left>yellow</td> <td align=left>peach</td> </tr> <tr> <td align=left>yellow</td> <td align=left>pear</td> </tr> </table></blockquote> <p>This secondary index would allow an application to look up a color, and then use the data items to look up the stores where the colored fruit could be purchased. For example, by first looking up <b>blue</b>, the data item <b>blueberry</b> could be used as the lookup key in the primary database, returning <b>Farmer's Market</b>.</p> <p>Your data must be organized in the following manner in order to use the <a href="../../api_c/db_join.html">DB->join</a> method:</p> <ol> <p><li>The actual data should be stored in the database represented by the <a href="../../api_c/db_class.html">DB</a> object used to invoke this method. Generally, this <a href="../../api_c/db_class.html">DB</a> object is called the <i>primary</i>. <p><li>Secondary indices should be stored in separate databases, whose keys are the values of the secondary indices and whose data items are the primary keys corresponding to the records having the designated secondary key value. It is acceptable (and expected) that there may be duplicate entries in the secondary indices. <p>These duplicate entries should be sorted for performance reasons, although it is not required. For more information see the <a href="../../api_c/db_set_flags.html#DB_DUPSORT">DB_DUPSORT</a> flag to the <a href="../../api_c/db_set_flags.html">DB->set_flags</a> method.</p> </ol> <p>What the <a href="../../api_c/db_join.html">DB->join</a> method does is review a list of secondary keys, and, when it finds a data item that appears as a data item for all of the secondary keys, it uses that data item as a lookup into the primary database, and returns the associated data item.</p> <p>If there were another secondary index that had as its key the <b>cost</b> of the fruit, a similar lookup could be done on stores where inexpensive fruit could be purchased:</p> <blockquote><table border=1> <tr><th>Secondary key:</th><th>Secondary data:</th></tr> <tr> <td align=left>expensive</td> <td align=left>blueberry</td> </tr> <tr> <td align=left>expensive</td> <td align=left>peach</td> </tr> <tr> <td align=left>expensive</td> <td align=left>pear</td> </tr> <tr> <td align=left>expensive</td> <td align=left>strawberry</td> </tr> <tr> <td align=left>inexpensive</td> <td align=left>apple</td> </tr> <tr> <td align=left>inexpensive</td> <td align=left>pear</td> </tr> <tr> <td align=left>inexpensive</td> <td align=left>raspberry</td> </tr> </table></blockquote> <p>The <a href="../../api_c/db_join.html">DB->join</a> method provides equality join functionality. While not strictly cursor functionality, in that it is not a method off a cursor handle, it is more closely related to the cursor operations than to the standard <a href="../../api_c/db_class.html">DB</a> operations.</p> <p>It is also possible to do lookups based on multiple criteria in a single operation. For example, it is possible to look up fruits that are both red and expensive in a single operation. If the same fruit appeared as a data item in both the color and expense indices, then that fruit name would be used as the key for retrieval from the primary index, and would then return the store where expensive, red fruit could be purchased.</p> <h3>Example</h3> <p>Consider the following three databases:</p> <dl compact> <dt>personnel<dd><p><ul type=disc> <li>key = SSN <li>data = record containing name, address, phone number, job title </ul> <dt>lastname<dd><p><ul type=disc> <li>key = lastname <li>data = SSN </ul> <dt>jobs<dd><p><ul type=disc> <li>key = job title <li>data = SSN </ul> </dl> <p>Consider the following query:</p> <blockquote><pre>Return the personnel records of all people named smith with the job title manager.</pre></blockquote> <p>This query finds are all the records in the primary database (personnel) for whom the criteria <b>lastname=smith and job title=manager</b> is true.</p> <p>Assume that all databases have been properly opened and have the handles: pers_db, name_db, job_db. We also assume that we have an active transaction to which the handle txn refers.</p> <blockquote><pre>DBC *name_curs, *job_curs, *join_curs; DBC *carray[3]; DBT key, data; int ret, tret; <p> name_curs = NULL; job_curs = NULL; memset(&key, 0, sizeof(key)); memset(&data, 0, sizeof(data)); <p> if ((ret = name_db->cursor(name_db, txn, &name_curs, 0)) != 0) goto err; key.data = "smith"; key.size = sizeof("smith"); if ((ret = name_curs->c_get(name_curs, &key, &data, DB_SET)) != 0) goto err; <p> if ((ret = job_db->cursor(job_db, txn, &job_curs, 0)) != 0) goto err; key.data = "manager"; key.size = sizeof("manager"); if ((ret = job_curs->c_get(job_curs, &key, &data, DB_SET)) != 0) goto err; <p> carray[0] = name_curs; carray[1] = job_curs; carray[2] = NULL; <p> if ((ret = pers_db->join(pers_db, carray, &join_curs, 0)) != 0) goto err; while ((ret = join_curs->c_get(join_curs, &key, &data, 0)) == 0) { /* Process record returned in key/data. */ } <p> /* * If we exited the loop because we ran out of records, * then it has completed successfully. */ if (ret == DB_NOTFOUND) ret = 0; <p> err: if (join_curs != NULL && (tret = join_curs->c_close(join_curs)) != 0 && ret == 0) ret = tret; if (name_curs != NULL && (tret = name_curs->c_close(name_curs)) != 0 && ret == 0) ret = tret; if (job_curs != NULL && (tret = job_curs->c_close(job_curs)) != 0 && ret == 0) ret = tret; <p> return (ret); </pre></blockquote> <p>The name cursor is positioned at the beginning of the duplicate list for <b>smith</b> and the job cursor is placed at the beginning of the duplicate list for <b>manager</b>. The join cursor is returned from the join method. This code then loops over the join cursor getting the personnel records of each one until there are no more.</p> <table width="100%"><tr><td><br></td><td align=right><a href="../am/curdup.html"><img src="../../images/prev.gif" alt="Prev"></a><a href="../toc.html"><img src="../../images/ref.gif" alt="Ref"></a><a href="../am/count.html"><img src="../../images/next.gif" alt="Next"></a> </td></tr></table> <p><font size=1>Copyright (c) 1996,2007 Oracle. All rights reserved.</font> </body> </html>