Xml querying in java

Using SQLXML Objects

The Connection interface provides support for the creation of SQLXML objects using the method createSQLXML . The object that is created does not contain any data. Data may be added to the object by calling the setString , setBinaryStream , setCharacterStream or setResult method on the SQLXML interface.

The following topics are covered:

Creating SQLXML Objects

In the following excerpt, the method Connection.createSQLXML is used to create an empty SQLXML object. The SQLXML.setString method is used to write data to the SQLXML object that was created.

Connection con = DriverManager.getConnection(url, props); SQLXML xmlVal = con.createSQLXML(); xmlVal.setString(val);

Retrieving SQLXML Values in ResultSet

The SQLXML data type is treated similarly to the more primitive built-in types. A SQLXML value can be retrieved by calling the getSQLXML method in the ResultSet or CallableStatement interface.

For example, the following excerpt retrieves a SQLXML value from the first column of the ResultSet rs:

SQLXML xmlVar = rs.getSQLXML(1);

SQLXML objects remain valid for at least the duration of the transaction in which they are created, unless their free method is invoked.

Accessing SQLXML Object Data

The SQLXML interface provides the getString , getBinaryStream , getCharacterStream , and getSource methods to access its internal content. The following excerpt retrieves the contents of an SQLXML object using the getString method:

SQLXML xmlVal= rs.getSQLXML(1); String val = xmlVal.getString();

The getBinaryStream or getCharacterStream methods can be used to obtain an InputStream or a Reader object that can be passed directly to an XML parser. The following excerpt obtains an InputStream object from an SQLXML Object and then processes the stream using a DOM (Document Object Model) parser:

SQLXML sqlxml = rs.getSQLXML(column); InputStream binaryStream = sqlxml.getBinaryStream(); DocumentBuilder parser = DocumentBuilderFactory.newInstance().newDocumentBuilder(); Document result = parser.parse(binaryStream);

The getSource method returns a javax.xml.transform.Source object. Sources are used as input to XML parsers and XSLT transformers.

The following excerpt retrieves and parses the data from a SQLXML object using the SAXSource object returned by invoking the getSource method:

SQLXML xmlVal= rs.getSQLXML(1); SAXSource saxSource = sqlxml.getSource(SAXSource.class); XMLReader xmlReader = saxSource.getXMLReader(); xmlReader.setContentHandler(myHandler); xmlReader.parse(saxSource.getInputSource());

Storing SQLXML Objects

A SQLXML object can be passed as an input parameter to a PreparedStatement object just like other data types. The method setSQLXML sets the designated PreparedStatement parameter with a SQLXML object.

In the following excerpt, authorData is an instance of the java.sql.SQLXML interface whose data was initialized previously.

PreparedStatement pstmt = conn.prepareStatement("INSERT INTO bio " + "(xmlData, authId) VALUES (?, ?)"); pstmt.setSQLXML(1, authorData); pstmt.setInt(2, authorId);

The updateSQLXML method can be used to update a column value in an updatable result set.

If the java.xml.transform.Result , Writer , or OutputStream object for the SQLXML object has not been closed prior to calling setSQLXML or updateSQLXML , a SQLException will be thrown.

Initializing SQLXML Objects

The SQLXML interface provides the methods setString , setBinaryStream , setCharacterStream , or setResult to initialize the content for a SQLXML object that has been created by calling the Connection.createSQLXML method.

The following excerpt uses the method setResult to return a SAXResult object to populate a newly created SQLXML object:

SQLXML sqlxml = con.createSQLXML(); SAXResult saxResult = sqlxml.setResult(SAXResult.class); ContentHandler contentHandler = saxResult.getXMLReader().getContentHandler(); contentHandler.startDocument(); // set the XML elements and // attributes into the result contentHandler.endDocument();

The following excerpt uses the setCharacterStream method to obtain a java.io.Writer object in order to initialize a SQLXML object:

SQLXML sqlxml = con.createSQLXML(); Writer out= sqlxml.setCharacterStream(); BufferedReader in = new BufferedReader(new FileReader(«xml/foo.xml»)); String line = null; while((line = in.readLine() != null)

Similarly, the SQLXML setString method can be used to initialize a SQLXML object.

If an attempt is made to call the setString , setBinaryStream , setCharacterStream , and setResult methods on a SQLXML object that has previously been initialized, a SQLException will be thrown. If more than one call to the methods setBinaryStream , setCharacterStream , and setResult occurs for the same SQLXML object, a SQLException is thrown and the previously returned javax.xml.transform.Result , Writer , or OutputStream object is not affected.

Releasing SQLXML Resources

SQLXML objects remain valid for at least the duration of the transaction in which they are created. This could potentially result in an application running out of resources during a long running transaction. Applications may release SQLXML resources by invoking their free method.

In the following excerpt, the method SQLXML.free is called to release the resources held for a previously created SQLXML object.

SQLXML xmlVar = con.createSQLXML(); xmlVar.setString(val); xmlVar.free();

Sample Code

MySQL and Java DB and their respective JDBC drivers do not fully support the SQLXML JDBC data type as described on in this section. However, the sample RSSFeedsTable.java demonstrates how to handle XML data with MySQL and Java DB.

The owner of The Coffee Break follows several RSS feeds from various web sites that cover restaurant and beverage industry news. An RSS (Really Simple Syndication or Rich Site Summary) feed is an XML document that contains a series of articles and associated metadata, such as the date of publication and author for each article. The owner would like to store these RSS feeds into a database table, including the RSS feed from The Coffee Break’s blog.

The file rss-the-coffee-break-blog.xml is an example RSS feed from The Coffee Break’s blog. The file rss-coffee-industry-news.xml is an example RSS feed from (the ficticious) Coffee Industry News.

Working with XML Data in MySQL

The sample RSSFeedsTable stores RSS feeds in the table RSS_FEEDS , which is created with the following command:

create table RSS_FEEDS (RSS_NAME varchar(32) NOT NULL, RSS_FEED_XML longtext NOT NULL, PRIMARY KEY (RSS_NAME));

MySQL does not support the XML data type. Instead, this sample stores XML data in a column of type LONGTEXT , which is a CLOB SQL data type. MySQL has four CLOB data types; the LONGTEXT data type holds the greatest amount of characters among the four.

The method RSSFeedsTable.addRSSFeed adds an RSS feed to the RSS_FEEDS table. The first statements of this method converts the RSS feed (which is represented by an XML file in this sample) into an object of type org.w3c.dom.Document , which represents a DOM (Document Object Model) document. This class, along with classes and interfaces contained in the package javax.xml , contain methods that enable you to manipulate XML data content. For example, the following statement uses an XPath expression to retrieve the title of the RSS feed from the Document object:

Node titleElement = (Node)xPath.evaluate("/rss/channel/title[1]", doc, XPathConstants.NODE);

The XPath expression /rss/channel/title[1] retrieves the contents of the first element. For the file rss-the-coffee-break-blog.xml , this is the string The Coffee Break Blog .

The following statements add the RSS feed to the table RSS_FEEDS :

// For databases that support the SQLXML // data type, this creates a // SQLXML object from // org.w3c.dom.Document. System.out.println("Adding XML file " + fileName); String insertRowQuery = "insert into RSS_FEEDS " + "(RSS_NAME, RSS_FEED_XML) values " + "(?, ?)"; insertRow = con.prepareStatement(insertRowQuery); insertRow.setString(1, titleString); System.out.println("Creating SQLXML object with MySQL"); rssData = con.createSQLXML(); System.out.println("Creating DOMResult object"); DOMResult dom = (DOMResult)rssData.setResult(DOMResult.class); dom.setNode(doc); insertRow.setSQLXML(2, rssData); System.out.println("Running executeUpdate()"); insertRow.executeUpdate();

The RSSFeedsTable.viewTable method retrieves the contents of RSS_FEEDS . For each row, the method creates an object of type org.w3c.dom.Document named doc in which to store the XML content in the column RSS_FEED_XML . The method retrieves the XML content and stores it in an object of type SQLXML named rssFeedXML . The contents of rssFeedXML are parsed and stored in the doc object.

Working with XML Data in Java DB

Note: See the section «XML data types and operators» in Java DB Developer’s Guide for more information about working with XML data in Java DB.

The sample RSSFeedsTable stores RSS feeds in the table RSS_FEEDS , which is created with the following command:

create table RSS_FEEDS (RSS_NAME varchar(32) NOT NULL, RSS_FEED_XML xml NOT NULL, PRIMARY KEY (RSS_NAME));

Java DB supports the XML data type, but it does not support the SQLXML JDBC data type. Consequently, you must convert any XML data to a character format, and then use the Java DB operator XMLPARSE to convert it to the XML data type.

The RSSFeedsTable.addRSSFeed method adds an RSS feed to the RSS_FEEDS table. The first statements of this method convert the RSS feed (which is represented by an XML file in this sample) into an object of type org.w3c.dom.Document . This is described in the section Working with XML Data in MySQL.

The RSSFeedsTable.addRSSFeed method converts the RSS feed to a String object with the method JDBCTutorialUtilities.convertDocumentToString .

Java DB has an operator named XMLPARSE that parses a character string representation into a Java DB XML value, which is demonstrated by the following excerpt:

String insertRowQuery = "insert into RSS_FEEDS " + "(RSS_NAME, RSS_FEED_XML) values " + "(?, xmlparse(document cast " + "(? as clob) preserve whitespace))";

The XMLPARSE operator requires that you convert the character representation of the XML document into a string data type that Java DB recognizes. In this example, it converts it into a CLOB data type. See Getting Started and the Java DB documentation for more information about Apache Xalan and Java DB requirements.

The method RSSFeedsTable.viewTable retrieves the contents of RSS_FEEDS . Because Java DB does not support the JDBC data type SQLXML you must retrieve the XML content as a string. Java DB has an operator named XMLSERIALIZE that converts an XML type to a character type:

String query = "select RSS_NAME, " + "xmlserialize " + "(RSS_FEED_XML as clob) " + "from RSS_FEEDS";

As with the XMLPARSE operator, the XMLSERIALIZE operator requires that Apache Xalan be listed in your Java class path.

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Пример работы с XPath в Java. Поиск в XML и выборка данных

Пример работы с XPath в Java. Поиск в XML и выборка данных

В этой статье мы рассмотрим пример работы с XPath в Java, а именно научимся находить нужную нам информацию с помощью XPath выражений и делать выборку из XML документа по различным условиям.

Кратко сведения про XPath

XPath предоставляет специальный синтаксис для поиска и выборки данных в XML документе. Используя XPath выражения, мы можем произвести выборку по условию, найти узлы или точное значение из любой части XML-документа.

XPath является частью платформы Java SE и находится в пакете javax.xml.xpath , поэтому никаких дополнительных зависимостей подключать не нужно — все работает прямо из коробки.

Для создания выражения для выборки по условию используется класс XPathExpression , который создается с помощью фабричных методов XPathFactory.newInstance() и вызова xpathFactory.newXPath() . Результат выборки должен быть представлен одним из 5 возможных типов:

  • XPathConstants.STRING
  • XPathConstants.NUMBER
  • XPathConstants.BOOLEAN
  • XPathConstants.NODE
  • XPathConstants.NODESET

Пример работы с XPath в Java

Перед нами стоит задача получить информацию из XML файла разработчиков по следующим критериям:

  1. Узнать имена разработчиков, возраст которых меньше заданного в условии.
  2. Получить имена всех мидлов.
  3. Получить имя по известному id.

У нас есть XML документ с таким содержимым:

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