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I've been parsing XML like this for years, and I have to admit when the number of different element becomes larger I find it a bit boring and exhausting to do, here is what I mean, sample dummy XML:

<?xml version="1.0"?>
<Order>
    <Date>2003/07/04</Date>
    <CustomerId>123</CustomerId>
    <CustomerName>Acme Alpha</CustomerName>
    <Item>
        <ItemId> 987</ItemId>
        <ItemName>Coupler</ItemName>
        <Quantity>5</Quantity>
    </Item>
    <Item>
        <ItemId>654</ItemId>
        <ItemName>Connector</ItemName>
        <Quantity unit="12">3</Quantity>
    </Item>
    <Item>
        <ItemId>579</ItemId>
        <ItemName>Clasp</ItemName>
        <Quantity>1</Quantity>
    </Item>
</Order>

This is relevant part (using sax) :

public class SaxParser extends DefaultHandler {

    boolean isItem = false;
    boolean isOrder = false;
    boolean isDate = false;
    boolean isCustomerId = false;
    private Order order;
    private Item item;

        @Override
    public void startElement(String namespaceURI, String localName, String qName, Attributes atts) {
        if (localName.equalsIgnoreCase("ORDER")) {
            order = new Order();
        }

        if (localName.equalsIgnoreCase("DATE")) {
            isDate = true;
        }

        if (localName.equalsIgnoreCase("CUSTOMERID")) {
            isCustomerId = true;
        }

        if (localName.equalsIgnoreCase("ITEM")) {
            isItem = true;
        }
    }

    public void characters(char ch[], int start, int length) throws SAXException {

        if (isDate){
            SimpleDateFormat formatter = new SimpleDateFormat("yyyy/MM/dd");
            String value = new String(ch, start, length);
            try {
                order.setDate(formatter.parse(value));
            } catch (ParseException e) {
                e.printStackTrace();
            }
        }

        if(isCustomerId){
            order.setCustomerId(Integer.valueOf(new String(ch, start, length)));
        }

        if (isItem) {
            item = new Item();
            isItem = false;
        }



    }

}

I'm wondering is there a way to get rid of these hideous booleans which keep growing with number of elements. There must be a better way to parse this relatively simple xml. Just by looking the lines of code necessary to do this task looks ugly.

Currently I'm using SAX parser, but I'm open to any other suggestions (other than DOM, I can't afford in memory parsers I have huge XML files).

share|improve this question
4  
You could try StAX –  Sami Korhonen Mar 25 '13 at 23:33
    
If you have a concert data model that is generating the XML I would take a look at XStream (xstream.codehaus.org). It does a really nice job of serializing data into xml and back. –  James Jones Mar 25 '13 at 23:43
1  
On topic, I like starting with XSDs and using XmlBeans. Slightly OT, XML tags are supposed to be case-sensitive and this code breaks that. –  Charles Forsythe Mar 26 '13 at 0:17

8 Answers 8

up vote 3 down vote accepted

Here's an example of using JAXB with StAX.

Input document:

<?xml version="1.0" encoding="UTF-8"?>
<Personlist xmlns="http://example.org">
    <Person>
        <Name>Name 1</Name>
        <Address>
            <StreetAddress>Somestreet</StreetAddress>
            <PostalCode>00001</PostalCode>
            <CountryName>Finland</CountryName>
        </Address>
    </Person>
    <Person>
        <Name>Name 2</Name>
        <Address>
            <StreetAddress>Someotherstreet</StreetAddress>
            <PostalCode>43400</PostalCode>
            <CountryName>Sweden</CountryName>
        </Address>
    </Person>
</Personlist>

Person.java:

@XmlRootElement(name = "Person", namespace = "http://example.org")
public class Person {
    @XmlElement(name = "Name", namespace = "http://example.org")
    private String name;
    @XmlElement(name = "Address", namespace = "http://example.org")
    private Address address;

    public String getName() {
        return name;
    }

    public Address getAddress() {
        return address;
    }
}

Address.java:

public class Address {
    @XmlElement(name = "StreetAddress", namespace = "http://example.org")
    private String streetAddress;
    @XmlElement(name = "PostalCode", namespace = "http://example.org")
    private String postalCode;
    @XmlElement(name = "CountryName", namespace = "http://example.org")
    private String countryName;

    public String getStreetAddress() {
        return streetAddress;
    }

    public String getPostalCode() {
        return postalCode;
    }

    public String getCountryName() {
        return countryName;
    }
}

PersonlistProcessor.java:

public class PersonlistProcessor {
    public static void main(String[] args) throws Exception {
        new PersonlistProcessor().processPersonlist(PersonlistProcessor.class
                .getResourceAsStream("personlist.xml"));
    }

    // TODO: Instead of throws Exception, all exceptions should be wrapped
    // inside runtime exception
    public void processPersonlist(InputStream inputStream) throws Exception {
        JAXBContext jaxbContext = JAXBContext.newInstance(Person.class);
        XMLStreamReader xss = XMLInputFactory.newFactory().createXMLStreamReader(inputStream);
        // Create unmarshaller
        Unmarshaller unmarshaller = jaxbContext.createUnmarshaller();
        // Go to next tag
        xss.nextTag();
        // Require Personlist
        xss.require(XMLStreamReader.START_ELEMENT, "http://example.org", "Personlist");
        // Go to next tag
        while (xss.nextTag() == XMLStreamReader.START_ELEMENT) {
            // Require Person
            xss.require(XMLStreamReader.START_ELEMENT, "http://example.org", "Person");
            // Unmarshall person
            Person person = (Person)unmarshaller.unmarshal(xss);
            // Process person
            processPerson(person);
        }
        // Require Personlist
        xss.require(XMLStreamReader.END_ELEMENT, "http://example.org", "Personlist");
    }

    private void processPerson(Person person) {
        System.out.println(person.getName());
        System.out.println(person.getAddress().getCountryName());
    }
}
share|improve this answer

If you control the definition of the XML, you could use an XML binding tool, for example JAXB (Java Architecture for XML Binding.) In JAXB you can define a schema for the XML structure (XSD and others are supported) or annotate your Java classes in order to define the serialization rules. Once you have a clear declarative mapping between XML and Java, marshalling and unmarshalling to/from XML becomes trivial.

Using JAXB does require more memory than SAX handlers, but there exist methods to process the XML documents by parts: Dealing with large documents.

JAXB page from Oracle

share|improve this answer

I've been using xsteam to serialize my own objects to xml and then load them back as Java objects. If you can represent everythign as POJOs and you properly annotate the POJOs to match the types in your xml file you might find it much easier to use.

When a String represents an object in XML, you can just write:

Order theOrder = (Order)xstream.fromXML(xmlString);

I have always used it to load an object into memory in a single line, but if you need to stream it and process as you go you should be able to use a HierarchicalStreamReader to iterate through the document. This might be very similar to Simple, suggested by @Dave.

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In SAX the parser "pushes" events at your handler, so you have to do all the housekeeping as you are used to here. An alternative would be StAX (the javax.xml.stream package), which is still streaming but your code is responsible for "pulling" events from the parser. This way the logic of what elements are expected in what order is encoded in the control flow of your program rather than having to be explicitly represented in booleans.

Depending on the precise structure of the XML there may be a "middle way" using a toolkit like XOM, which has a mode of operation where you parse a subtree of the document into a DOM-like object model, process that twig, then throw it away and parse the next one. This is good for repetitive documents with many similar elements that can each be processed in isolation - you get the ease of programming to a tree-based API within each twig but still have the streaming behaviour that lets you parse huge documents efficiently.

public class ItemProcessor extends NodeFactory {
  private Nodes emptyNodes = new Nodes();

  public Nodes finishMakingElement(Element elt) {
    if("Item".equals(elt.getLocalName())) {
      // process the Item element here
      System.out.println(elt.getFirstChildElement("ItemId").getValue()
         + ": " + elt.getFirstChildElement("ItemName").getValue());

      // then throw it away
      return emptyNodes;
    } else {
      return super.finishMakingElement(elt);
    }
  }
}

You can achieve a similar thing with a combination of StAX and JAXB - define JAXB annotated classes that represent your repeating element (Item in this example) and then create a StAX parser, navigate to the first Item start tag, and then you can unmarshal one complete Item at a time from the XMLStreamReader.

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As others suggested, a Stax model would be a better approach to minimize the memory foot print since it is a push based model. I have personally used Axio (Which is used in Apache Axis) and parse elements using XPath expressions which is less verbose than going through node elements as you have done in the code snippet provided.

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I've recently written an easy-to-use XML parser: https://github.com/nanotears/solna-xml

It combines SAX and DOM approaches.

You add a handler for each element you would like to parse.

List<Item> items = new ArrayList<>();

parser.addHandler("/Order/Item", new SolnaHandler<Element>() {
    @Override
    public void handle(Element elem) throws Exception {
        Item item = new Item();

        // parse <Item> element ...

        items.add(item);
    }
});

And then start parsing:

parser.parse(inputStream);

Memory consumption is low, because DOM-trees are thrown away after each handler invokation.

It's also good with nested elements. The handler for outer element will be invoked on closing tag, so you can collect inner items in a list and then add them to order.

parser.addHandler("/Order", new SolnaHandler<Element>() {
    @Override
    public void handle(Element elem) throws Exception {
        Order order = new Order();

        // parse <Order> element
        order.setDate( ... );
        order.setCustomerId( ... );

        order.addItems(items);
        items.clear();
    }
});

Element can be any of org.w3c.dom.Element, org.jdom.Element, org.jdom2.Element, org.dom4j.Element and nu.xom.Element.

share|improve this answer

I've been using this library. It sits on top of the standard Java library and makes things easier for me. In particular, you can ask for a specific element or attribute by name, rather than using the big "if" statement you've described.

http://marketmovers.blogspot.com/2014/02/the-easy-way-to-read-xml-in-java.html

share|improve this answer
    import java.io.File;
import java.io.FileOutputStream;
import java.io.InputStream;
import java.io.OutputStream;
import java.util.ArrayList;
import javax.xml.parsers.DocumentBuilder;
import javax.xml.parsers.DocumentBuilderFactory;
import javax.xml.transform.Transformer;
import javax.xml.transform.TransformerFactory;
import javax.xml.transform.dom.DOMSource;
import javax.xml.transform.stream.StreamResult;
import javax.xml.xpath.XPath;
import javax.xml.xpath.XPathConstants;
import javax.xml.xpath.XPathExpression;
import javax.xml.xpath.XPathFactory;
import org.w3c.dom.Document;
import org.w3c.dom.NodeList;

public class JXML {
private DocumentBuilder builder;
private Document doc = null;
private DocumentBuilderFactory factory ;
private XPathExpression expr = null;
private XPathFactory xFactory;
private XPath xpath;
private String xmlFile;
public static ArrayList<String> XMLVALUE ;  


public JXML(String xmlFile){
    this.xmlFile = xmlFile;
}


private void xmlFileSettings(){     
    try {
        factory = DocumentBuilderFactory.newInstance();
        factory.setNamespaceAware(true);
        xFactory = XPathFactory.newInstance();
        xpath = xFactory.newXPath();
        builder = factory.newDocumentBuilder();
        doc = builder.parse(xmlFile);
    }
    catch (Exception e){
        System.out.println(e);
    }       
}



public String[] selectQuery(String query){
    xmlFileSettings();
    ArrayList<String> records = new ArrayList<String>();
    try {
        expr = xpath.compile(query);
        Object result = expr.evaluate(doc, XPathConstants.NODESET);
        NodeList nodes = (NodeList) result;
        for (int i=0; i<nodes.getLength();i++){             
            records.add(nodes.item(i).getNodeValue());
        }
        return records.toArray(new String[records.size()]);
    } 
    catch (Exception e) {
        System.out.println("There is error in query string");
        return records.toArray(new String[records.size()]);
    }       
}

public boolean updateQuery(String query,String value){
    xmlFileSettings();
    try{
        NodeList nodes = (NodeList) xpath.evaluate(query, doc, XPathConstants.NODESET);
        for (int idx = 0; idx < nodes.getLength(); idx++) {
          nodes.item(idx).setTextContent(value);
        }
        Transformer xformer = TransformerFactory.newInstance().newTransformer();
        xformer.transform(new DOMSource(doc), new StreamResult(new File(this.xmlFile)));
        return true;
    }catch(Exception e){
        System.out.println(e);
        return false;
    }
}




public static void main(String args[]){
    JXML jxml = new JXML("c://user.xml");
    jxml.updateQuery("//Order/CustomerId/text()","222");
    String result[]=jxml.selectQuery("//Order/Item/*/text()");
    for(int i=0;i<result.length;i++){
        System.out.println(result[i]);
    }
}

}

share|improve this answer
    
The OP specifically said they didn't want to use DOM (or any other model that involves parsing the entire document into a tree structure in memory) –  Ian Roberts Mar 25 '13 at 23:58

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