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JavaTM 2 Platform Std. Ed. v1.3 |
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See:
Description
| Interface Summary | |
| Array |
The mapping in the Java programming language for the SQL type
ARRAY. |
| Blob | The representation (mapping) in
the JavaTM programming
language of an SQL
BLOB value. |
| CallableStatement | The interface used to execute SQL stored procedures. |
| Clob | The mapping in the JavaTM programming language
for the SQL CLOB type. |
| Connection | A connection (session) with a specific database. |
| DatabaseMetaData | Comprehensive information about the database as a whole. |
| Driver | The interface that every driver class must implement. |
| PreparedStatement | An object that represents a precompiled SQL statement. |
| Ref | The mapping in the Java programming language of an SQL REF
value, which is a reference to an
SQL structured type value in the database. |
| ResultSet | A table of data representing a database result set, which is usually generated by executing a statement that queries the database. |
| ResultSetMetaData | An object that can be used to get information about the types
and properties of the columns in a ResultSet object. |
| SQLData | The interface used for the custom mapping of SQL user-defined types. |
| SQLInput | An input stream that contains a stream of values representing an instance of an SQL structured or distinct type. |
| SQLOutput | The output stream for writing the attributes of a user-defined type back to the database. |
| Statement | The object used for executing a static SQL statement and obtaining the results produced by it. |
| Struct | The standard mapping in the Java programming language for an SQL structured type. |
| Class Summary | |
| Date | A thin wrapper around a millisecond value that allows JDBC to identify this as a SQL DATE. |
| DriverManager | The basic service for managing a set of JDBC drivers. NOTE: The DataSource interface, new in the
JDBC 2.0 API, provides another way to connect to a data source. |
| DriverPropertyInfo | Driver properties for making a connection. |
| SQLPermission | The permission for which the SecurityManager will check
when code that is running in an applet calls one of the
setLogWriter methods. |
| Time | A thin wrapper around java.util.Date that allows
JDBC to identify this as a SQL TIME value. |
| Timestamp | A thin wrapper around java.util.Date that allows
the JDBC API to identify this as an SQL TIMESTAMP value. |
| Types | The class that defines the constants that are used to identify generic SQL types, called JDBC types. |
| Exception Summary | |
| BatchUpdateException | An exception thrown when an error occurs during a batch update operation. |
| DataTruncation | An exception that reports a DataTruncation warning (on reads) or throws a DataTruncation exception (on writes) when JDBC unexpectedly truncates a data value. |
| SQLException | An exception that provides information on a database access error or other errors. |
| SQLWarning | An exception that provides information on database access warnings. |
Provides the API for accessing and processing data in a data source using the JavaTM programming language. This API includes a framework whereby different drivers can be installed dynamically to access different data sources.
The java.sql package, referred to as the JDBC 2.0 core API,
had many new features added in the
JavaTM 2 SDK, Standard Edition,
version 1.2 release. New methods, fields, constructors, and exceptions
in the JDBC 2.0 API are marked "Since 1.2" in the javadoc comments.
The class SQLPermission was added in the
JavaTM 2 SDK, Standard Edition,
version 1.3 release. This class is used to prevent unauthorized
access to the logging stream associated with the DriverManager,
which may contain information such as
table names, column data, and so on.
NOTE: Code that uses API marked "Since 1.2" must be run using a JDBC technology driver that implements the JDBC 2.0 core API. Check your driver documentation to be sure that it implements the particular features you want to use.
The JDBCTM 2.0 API includes the complete JDBC API, which includes both core and Optional Package API, and provides industrial-strength database computing capabilities. It is not, however, limited to SQL databases; the JDBC2.0 API makes it possible to access data from virtually any data source with a tabular format.
The JDBC 2.0 API includes two packages:
java.sql package--the JDBC 2.0 core API
javax.sql package--the JDBC 2.0 Optional Package API.
This package extends the functionality of the JDBC API from
a client-side API to a server-side API, and it is an essential part
of JavaTM 2 SDK, Enterprise Edition
technology.
Being an Optional Package, it is not included in the Java 2 Platform SDK, Standard Edition, version 1.2, but it is readily available from various sources.
javax.sql package may also be downloaded from
this web site.
javax.sql package with their products.
java.sql Package Containsjava.sql package contains API for the following:
DriverManager class
Driver interface
DriverPropertyInfo class
Connection interface
Statement interface for sending basic SQL
statements
PreparedStatement interface for sending prepared
statements or basic SQL statements (derived from
Statement)
CallableStatement interface for calling database
stored procedures (derived from PreparedStatement)
ResultSet interface
Array interface
Blob interface
Clob interface
Date class
Ref interface
Struct interface
Time class
Timestamp class
Types class
SQLData interface
SQLInput interface
SQLOutput interface
ResultSet object
DatabaseMetaData interface
ResultSetMetaData interface
SQLException thrown by most methods when there
is a problem accessing data and by some methods for other reasons
SQLWarning thrown to indicate a warning
DataTruncation thrown to indicate that data may have
been truncated
BatchUpdateException thrown to indicate that not all
commands in a batch update executed successfully
SQLPermission interface
ResultSet
interface that allow the cursor to be moved to a particular row or to a
position relative to its current position
ResultSet.updateXXX methods
java.math.BigDecimal values,
additional security, and
support for time zones in date, time, and timestamp values.
DISTINCT
type are the UDTs that may be custom mapped. The following three
steps set up a custom mapping:
DISTINCT type in SQL
SQLData interface.
Connection object's type map
that contains two things:
Class object for the class to which the UDT is to
be mapped
When these are in place for a UDT, calling the methods
ResultSet.getObject or CallableStatement.getObject
on that UDT will automatically retrieve the custom mapping for it.
Connection object has an
initially-empty type map associated with it. A user may enter a
custom mapping for a UDT in this type map.
When a UDT is retrieved from a data source with the
method ResultSet.getObject, the getObject method
will check the connection's type map to see if there is an entry for that
UDT. If so, the getObject method will map the UDT to the
class indicated. If there is no entry, the UDT will be mapped using the
standard mapping.
A user may create a new type map, which is a Map
object, make an entry in it, and pass it to the java.sql
methods that can perform custom mapping. In this case, the method
will use the given type map instead of the one associated with
the connection.
For example, the following code fragment specifies that the SQL
type ATHLETES will be mapped to the class
Athletes in the Java programming language.
The code fragment retrieves the type map for the Connection
object con, inserts the entry into it, and then sets
the type map with the new entry as the connection's type map.
java.util.Map map = con.getTypeMap();
map.put("mySchemaName.ATHLETES", Class.forName("Athletes"));
con.setTypeMap(map);
SQLData interface. Typically, this class
will define a field for each attribute of an SQL structured type or a
single field for an SQL DISTINCT type. When the UDT is
retrieved from a data source with the ResultSet.getObject
method, it will be mapped as an instance of this class. A programmer
can operate on this class instance just as on any other object in the
Java programming language and then store any changes made to it by
calling the PreparedStatement.setObject method,
which will map it back to the SQL type.
It is expected that the implementation of the class for a custom
mapping will be done by a tool. In a typical implementation, the
programmer would simply supply the name of the SQL UDT, the name of
the class to which it is being mapped, and the names of the fields to
which each of the attributes of the UDT is to be mapped. The tool will use
this information to implement the SQLData.readSQL and
SQLData.writeSQL methods. The readSQL method
calls the appropriate SQLInput.readXXX methods to read
each attribute from an SQLInput object, and the
writeSQL method calls SQLOutput.writeXXX methods
to write each attribute back to the data source via an
SQLOutput object.
An application programmer will not normally call SQLData methods
directly, and the SQLInput and SQLOutput methods
are called internally by SQLData methods, not by application code.
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JavaTM 2 Platform Std. Ed. v1.3 |
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