@@ -4439,84 +4439,102 @@ Passing the User Name and/or Password in the URL
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@@ -4439,84 +4439,102 @@ Passing the User Name and/or Password in the URL
User-Defined Functions and Stored Procedures
User-Defined Functions and Stored Procedures
@features_1582_p
@features_1582_p
In addition to the built-in functions, this database supports user-defined Java functions. In this database, Java functions can be used as stored procedures as well. A function must be declared (registered) before it can be used. Only static Java methods are supported; both the class and the method must be public. Example Java method:
In addition to the built-in functions, this database supports user-defined Java functions. In this database, Java functions can be used as stored procedures as well. A function must be declared (registered) before it can be used. A functions can be defined using source code, or as a reference to a compiled class that is available in the classpath.
@features_1583_p
@features_1583_h3
The Java function must be registered in the database by calling <code>CREATE ALIAS</code>:
Referencing a Compiled Method
@features_1584_p
@features_1584_p
When referencing a method, the class must already be compiled and included in the classpath where the database is running. Only static Java methods are supported; both the class and the method must be public. Example Java class:
@features_1585_p
The Java function must be registered in the database by calling <code>CREATE ALIAS ... FOR</code>:
@features_1586_p
For a complete sample application, see <code>src/test/org/h2/samples/Function.java</code>.
For a complete sample application, see <code>src/test/org/h2/samples/Function.java</code>.
@features_1585_h3
@features_1587_h3
Declaring Functions as Source Code
@features_1588_p
When defining a function alias with source code, the database tries to compile the source code using the Sun Java compiler (the class <code>com.sun.tools.javac.Main</code>) if the <code>tools.jar</code> is in the classpath. If not, <code>javac</code> is run as a separate process. Only the source code is stored in the database; the class is compiled each time the database is re-opened. Source code is usually passed as dollar quoted text to avoid escaping problems, however single quotes can be used as well. Example:
@features_1589_p
The method name (<code>nextPrime</code> in the example above) is ignored. By default, the three packages <code>java.util, java.math, java.sql</code> are imported. If different import statements are required, they must be declared at the beginning and separated with the tag <code>@CODE</code>:
@features_1590_p
The following template is used to create a complete Java class:
@features_1591_h3
Function Data Type Mapping
Function Data Type Mapping
@features_1586_p
@features_1592_p
Functions that accept non-nullable parameters such as <code>int</code> will not be called if one of those parameters is <code>NULL</code>. Instead, the result of the function is <code>NULL</code>. If the function should be called if a parameter is <code>NULL</code>, you need to use <code>java.lang.Integer</code> instead.
Functions that accept non-nullable parameters such as <code>int</code> will not be called if one of those parameters is <code>NULL</code>. Instead, the result of the function is <code>NULL</code>. If the function should be called if a parameter is <code>NULL</code>, you need to use <code>java.lang.Integer</code> instead.
@features_1587_p
@features_1593_p
SQL types are mapped to Java classes and vice-versa as in the JDBC API. For details, see <a href="datatypes.html">Data Types</a>. There are two special cases: <code>java.lang.Object</code> is mapped to <code>OTHER</code> (a serialized object). Therefore, <code>java.lang.Object</code> can not be used to match all SQL types (matching all SQL types is not supported). The second special case is <code>Object[]</code>: arrays of any class are mapped to <code>ARRAY</code>.
SQL types are mapped to Java classes and vice-versa as in the JDBC API. For details, see <a href="datatypes.html">Data Types</a>. There are two special cases: <code>java.lang.Object</code> is mapped to <code>OTHER</code> (a serialized object). Therefore, <code>java.lang.Object</code> can not be used to match all SQL types (matching all SQL types is not supported). The second special case is <code>Object[]</code>: arrays of any class are mapped to <code>ARRAY</code>.
@features_1588_h3
@features_1594_h3
Functions that require a Connection
Functions that require a Connection
@features_1589_p
@features_1595_p
If the first parameter of a Java function is a <code>java.sql.Connection</code>, then the connection to database is provided. This connection does not need to be closed before returning. When calling the method from within the SQL statement, this connection parameter does not need to be (can not be) specified.
If the first parameter of a Java function is a <code>java.sql.Connection</code>, then the connection to database is provided. This connection does not need to be closed before returning. When calling the method from within the SQL statement, this connection parameter does not need to be (can not be) specified.
@features_1590_h3
@features_1596_h3
Functions throwing an Exception
Functions Throwing an Exception
@features_1591_p
@features_1597_p
If a function throws an exception, then the current statement is rolled back and the exception is thrown to the application.
If a function throws an exception, then the current statement is rolled back and the exception is thrown to the application.
@features_1592_h3
@features_1598_h3
Functions returning a Result Set
Functions Returning a Result Set
@features_1593_p
@features_1599_p
Functions may returns a result set. Such a function can be called with the <code>CALL</code> statement:
Functions may returns a result set. Such a function can be called with the <code>CALL</code> statement:
@features_1594_h3
@features_1600_h3
Using SimpleResultSet
Using SimpleResultSet
@features_1595_p
@features_1601_p
A function can create a result set using the <code>SimpleResultSet</code> tool:
A function can create a result set using the <code>SimpleResultSet</code> tool:
@features_1596_h3
@features_1602_h3
Using a Function as a Table
Using a Function as a Table
@features_1597_p
@features_1603_p
A function that returns a result set can be used like a table. However, in this case the function is called at least twice: first while parsing the statement to collect the column names (with parameters set to <code>null</code> where not known at compile time). And then, while executing the statement to get the data (maybe multiple times if this is a join). If the function is called just to get the column list, the URL of the connection passed to the function is <code>jdbc:columnlist:connection</code>. Otherwise, the URL of the connection is <code>jdbc:default:connection</code>.
A function that returns a result set can be used like a table. However, in this case the function is called at least twice: first while parsing the statement to collect the column names (with parameters set to <code>null</code> where not known at compile time). And then, while executing the statement to get the data (maybe multiple times if this is a join). If the function is called just to get the column list, the URL of the connection passed to the function is <code>jdbc:columnlist:connection</code>. Otherwise, the URL of the connection is <code>jdbc:default:connection</code>.
@features_1598_h2
@features_1604_h2
Triggers
Triggers
@features_1599_p
@features_1605_p
This database supports Java triggers that are called before or after a row is updated, inserted or deleted. Triggers can be used for complex consistency checks, or to update related data in the database. It is also possible to use triggers to simulate materialized views. For a complete sample application, see <code>src/test/org/h2/samples/TriggerSample.java</code>. A Java trigger must implement the interface <code>org.h2.api.Trigger</code>. The trigger class must be available in the classpath of the database engine (when using the server mode, it must be in the classpath of the server).
This database supports Java triggers that are called before or after a row is updated, inserted or deleted. Triggers can be used for complex consistency checks, or to update related data in the database. It is also possible to use triggers to simulate materialized views. For a complete sample application, see <code>src/test/org/h2/samples/TriggerSample.java</code>. A Java trigger must implement the interface <code>org.h2.api.Trigger</code>. The trigger class must be available in the classpath of the database engine (when using the server mode, it must be in the classpath of the server).
@features_1600_p
@features_1606_p
The connection can be used to query or update data in other tables. The trigger then needs to be defined in the database:
The connection can be used to query or update data in other tables. The trigger then needs to be defined in the database:
@features_1601_p
@features_1607_p
The trigger can be used to veto a change by throwing a <code>SQLException</code>.
The trigger can be used to veto a change by throwing a <code>SQLException</code>.
@features_1602_h2
@features_1608_h2
Compacting a Database
Compacting a Database
@features_1603_p
@features_1609_p
Empty space in the database file is re-used automatically. To re-build the indexes, the simplest way is to delete the <code>.index.db</code> file while the database is closed. However in some situations (for example after deleting a lot of data in a database), one sometimes wants to shrink the size of the database (compact a database). Here is a sample function to do this:
Empty space in the database file is re-used automatically. To re-build the indexes, the simplest way is to delete the <code>.index.db</code> file while the database is closed. However in some situations (for example after deleting a lot of data in a database), one sometimes wants to shrink the size of the database (compact a database). Here is a sample function to do this:
@features_1604_p
@features_1610_p
See also the sample application <code>org.h2.samples.Compact</code>. The commands <code>SCRIPT / RUNSCRIPT</code> can be used as well to create a backup of a database and re-build the database from the script.
See also the sample application <code>org.h2.samples.Compact</code>. The commands <code>SCRIPT / RUNSCRIPT</code> can be used as well to create a backup of a database and re-build the database from the script.
@features_1605_h2
@features_1611_h2
Cache Settings
Cache Settings
@features_1606_p
@features_1612_p
The database keeps most frequently used data and index pages in the main memory. The amount of memory used for caching can be changed using the setting <code>CACHE_SIZE</code>. This setting can be set in the database connection URL (<code>jdbc:h2:~/test;CACHE_SIZE=131072</code>), or it can be changed at runtime using <code>SET CACHE_SIZE size</code>.
The database keeps most frequently used data and index pages in the main memory. The amount of memory used for caching can be changed using the setting <code>CACHE_SIZE</code>. This setting can be set in the database connection URL (<code>jdbc:h2:~/test;CACHE_SIZE=131072</code>), or it can be changed at runtime using <code>SET CACHE_SIZE size</code>.
@features_1607_p
@features_1613_p
Also supported is a second level soft reference cache. Rows in this cache are only garbage collected on low memory. By default the second level cache is disabled. To enable it, use the prefix <code>SOFT_</code>. Example: <code>jdbc:h2:~/test;CACHE_TYPE=SOFT_LRU</code>.
Also supported is a second level soft reference cache. Rows in this cache are only garbage collected on low memory. By default the second level cache is disabled. To enable it, use the prefix <code>SOFT_</code>. Example: <code>jdbc:h2:~/test;CACHE_TYPE=SOFT_LRU</code>.
@features_1608_p
@features_1614_p
To get information about page reads and writes, and the current caching algorithm in use, call <code>SELECT * FROM INFORMATION_SCHEMA.SETTINGS</code>. The number of pages read / written is listed for the data and index file.
To get information about page reads and writes, and the current caching algorithm in use, call <code>SELECT * FROM INFORMATION_SCHEMA.SETTINGS</code>. The number of pages read / written is listed for the data and index file.