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/*
 * Copyright (c) 1998, 2006, Oracle and/or its affiliates. All rights reserved.
 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
 *
 * This code is free software; you can redistribute it and/or modify it
 * under the terms of the GNU General Public License version 2 only, as
 * published by the Free Software Foundation.  Oracle designates this
 * particular file as subject to the "Classpath" exception as provided
 * by Oracle in the LICENSE file that accompanied this code.
 *
 * This code is distributed in the hope that it will be useful, but WITHOUT
 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
 * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
 * version 2 for more details (a copy is included in the LICENSE file that
 * accompanied this code).
 *
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 * 2 along with this work; if not, write to the Free Software Foundation,
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package java.sql;

/**
 * The interface used for the custom mapping of an SQL user-defined type (UDT) to
 * a class in the Java programming language. The class object for a class
 * implementing the SQLData interface will be entered in the
 * appropriate Connection object's type map along with the SQL
 * name of the UDT for which it is a custom mapping.
 * 

* Typically, a SQLData implementation * 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 methods to read * each attribute from an SQLInput object, and the * writeSQL method calls SQLOutput 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. * * @since 1.2 */ public interface SQLData { /** * Returns the fully-qualified * name of the SQL user-defined type that this object represents. * This method is called by the JDBC driver to get the name of the * UDT instance that is being mapped to this instance of * SQLData. * * @return the type name that was passed to the method readSQL * when this object was constructed and populated * @exception SQLException if there is a database access error * @exception SQLFeatureNotSupportedException if the JDBC driver does not support * this method * @since 1.2 */ String getSQLTypeName() throws SQLException; /** * Populates this object with data read from the database. * The implementation of the method must follow this protocol: *

    *
  • It must read each of the attributes or elements of the SQL * type from the given input stream. This is done * by calling a method of the input stream to read each * item, in the order that they appear in the SQL definition * of the type. *
  • The method readSQL then * assigns the data to appropriate fields or * elements (of this or other objects). * Specifically, it must call the appropriate reader method * (SQLInput.readString, SQLInput.readBigDecimal, * and so on) method(s) to do the following: * for a distinct type, read its single data element; * for a structured type, read a value for each attribute of the SQL type. *
* The JDBC driver initializes the input stream with a type map * before calling this method, which is used by the appropriate * SQLInput reader method on the stream. * * @param stream the SQLInput object from which to read the data for * the value that is being custom mapped * @param typeName the SQL type name of the value on the data stream * @exception SQLException if there is a database access error * @exception SQLFeatureNotSupportedException if the JDBC driver does not support * this method * @see SQLInput * @since 1.2 */ void readSQL (SQLInput stream, String typeName) throws SQLException; /** * Writes this object to the given SQL data stream, converting it back to * its SQL value in the data source. * The implementation of the method must follow this protocol:
* It must write each of the attributes of the SQL type * to the given output stream. This is done by calling a * method of the output stream to write each item, in the order that * they appear in the SQL definition of the type. * Specifically, it must call the appropriate SQLOutput writer * method(s) (writeInt, writeString, and so on) * to do the following: for a Distinct Type, write its single data element; * for a Structured Type, write a value for each attribute of the SQL type. * * @param stream the SQLOutput object to which to write the data for * the value that was custom mapped * @exception SQLException if there is a database access error * @exception SQLFeatureNotSupportedException if the JDBC driver does not support * this method * @see SQLOutput * @since 1.2 */ void writeSQL (SQLOutput stream) throws SQLException; }




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