NodeList

Inheritance: java.lang.Object

All Implemented Interfaces: java.lang.Iterable

public class NodeList implements Iterable

Represents a collection of nodes matching an XPath query executed using the CompositeNode.selectNodes(java.lang.String) method.

To learn more, visit the Aspose.Words Document Object Model (DOM) documentation article.

Remarks:

NodeList is returned by CompositeNode.selectNodes(java.lang.String) and contains a collection of nodes matching the XPath query.

NodeList supports indexed access and iteration.

Treat the NodeList collection as a “snapshot” collection. NodeList starts as a “live” collection because the nodes are not actually retrieved when the XPath query is run. The nodes are only retrieved upon access and at this time the node and all nodes that precede it are cached forming a “snapshot” collection.

Examples:

Shows how to find all hyperlinks in a Word document, and then change their URLs and display names.


 import com.aspose.words.*;
 import org.testng.annotations.Test;

 import java.util.regex.Matcher;
 import java.util.regex.Pattern;

 public class ExReplaceHyperlinks extends ApiExampleBase {
     public void fields() throws Exception {
         Document doc = new Document(getMyDir() + "Hyperlinks.docx");

         // Hyperlinks in a Word documents are fields. To begin looking for hyperlinks, we must first find all the fields.
         // Use the "SelectNodes" method to find all the fields in the document via an XPath.
         NodeList fieldStarts = doc.selectNodes("//FieldStart");
         for (FieldStart fieldStart : (Iterable) fieldStarts) {
             if (fieldStart.getFieldType() == FieldType.FIELD_HYPERLINK) {
                 Hyperlink hyperlink = new Hyperlink(fieldStart);

                 // Hyperlinks that link to bookmarks do not have URLs.
                 if (hyperlink.isLocal()) continue;

                 // Give each URL hyperlink a new URL and name.
                 hyperlink.setTarget(NEW_URL);
                 hyperlink.setName(NEW_NAME);
             }
         }

         doc.save(getArtifactsDir() + "ReplaceHyperlinks.Fields.docx");
     }

     private static final String NEW_URL = "http://www.aspose.com";
     private static final String NEW_NAME = "Aspose - The .NET & Java Component Publisher";
 }

 // This "facade" class makes it easier to work with a hyperlink field in a Word document.
 // 
 // HYPERLINK fields contain and display hyperlinks in the document body. A field in Aspose.Words
 // consists of several nodes, and it might be difficult to work with all those nodes directly.
 // This implementation will work only if the hyperlink code and name each consist of only one Run node.
 // 
 // The node structure for fields is as follows:
 // 
 // [FieldStart][Run - field code][FieldSeparator][Run - field result][FieldEnd]
 // 
 // Below are two example field codes of HYPERLINK fields:
 // HYPERLINK "url"
 // HYPERLINK \l "bookmark name"
 // 
 // A field's "Result" property contains text that the field displays in the document body to the user.
 class Hyperlink {
     Hyperlink(final FieldStart fieldStart) throws Exception {
         if (fieldStart == null) {
             throw new IllegalArgumentException("fieldStart");
         }

         if (fieldStart.getFieldType() != FieldType.FIELD_HYPERLINK) {
             throw new IllegalArgumentException("Field start type must be FieldHyperlink.");
         }

         mFieldStart = fieldStart;

         // Find the field separator node.
         mFieldSeparator = findNextSibling(mFieldStart, NodeType.FIELD_SEPARATOR);
         if (mFieldSeparator == null) {
             throw new IllegalStateException("Cannot find field separator.");
         }

         // Normally, we can always find the field's end node, but the example document
         // contains a paragraph break inside a hyperlink, which puts the field end
         // in the next paragraph. It will be much more complicated to handle fields which span several
         // paragraphs correctly. In this case allowing field end to be null is enough.
         mFieldEnd = findNextSibling(mFieldSeparator, NodeType.FIELD_END);

         // Field code looks something like "HYPERLINK "http:\\www.myurl.com"", but it can consist of several runs.
         String fieldCode = getTextSameParent(mFieldStart.getNextSibling(), mFieldSeparator);
         Matcher matcher = G_REGEX.matcher(fieldCode.trim());
         matcher.find();

         // The hyperlink is local if \l is present in the field code.
         mIsLocal = (matcher.group(1) != null) && (matcher.group(1).length() > 0);
         mTarget = matcher.group(2);
     }

     // Gets or sets the display name of the hyperlink.
     String getName() throws Exception {
         return getTextSameParent(mFieldSeparator, mFieldEnd);
     }

     void setName(final String value) throws Exception {
         // Hyperlink display name is stored in the field result, which is a Run
         // node between field separator and field end.
         Run fieldResult = (Run) mFieldSeparator.getNextSibling();
         fieldResult.setText(value);

         // If the field result consists of more than one run, delete these runs.
         removeSameParent(fieldResult.getNextSibling(), mFieldEnd);
     }

     // Gets or sets the target URL or bookmark name of the hyperlink.
     String getTarget() {
         return mTarget;
     }

     void setTarget(final String value) throws Exception {
         mTarget = value;
         updateFieldCode();
     }

     // True if the hyperlinks target is a bookmark inside the document. False if the hyperlink is a URL.
     boolean isLocal() {
         return mIsLocal;
     }

     void isLocal(final boolean value) throws Exception {
         mIsLocal = value;
         updateFieldCode();
     }

     private void updateFieldCode() throws Exception {
         // A field's field code is in a Run node between the field's start node and field separator.
         Run fieldCode = (Run) mFieldStart.getNextSibling();
         fieldCode.setText(java.text.MessageFormat.format("HYPERLINK {0}\"{1}\"", ((mIsLocal) ? "\\l " : ""), mTarget));

         // If the field code consists of more than one run, delete these runs.
         removeSameParent(fieldCode.getNextSibling(), mFieldSeparator);
     }

     // Goes through siblings starting from the start node until it finds a node of the specified type or null.
     private static Node findNextSibling(final Node startNode, final int nodeType) {
         for (Node node = startNode; node != null; node = node.getNextSibling()) {
             if (node.getNodeType() == nodeType) return node;
         }
         return null;
     }

     // Retrieves text from start up to but not including the end node.
     private static String getTextSameParent(final Node startNode, final Node endNode) {
         if ((endNode != null) && (startNode.getParentNode() != endNode.getParentNode())) {
             throw new IllegalArgumentException("Start and end nodes are expected to have the same parent.");
         }

         StringBuilder builder = new StringBuilder();
         for (Node child = startNode; !child.equals(endNode); child = child.getNextSibling()) {
             builder.append(child.getText());
         }

         return builder.toString();
     }

     // Removes nodes from start up to but not including the end node.
     // Assumes that the start and end nodes have the same parent.
     private static void removeSameParent(final Node startNode, final Node endNode) {
         if ((endNode != null) && (startNode.getParentNode() != endNode.getParentNode())) {
             throw new IllegalArgumentException("Start and end nodes are expected to have the same parent.");
         }

         Node curChild = startNode;
         while ((curChild != null) && (curChild != endNode)) {
             Node nextChild = curChild.getNextSibling();
             curChild.remove();
             curChild = nextChild;
         }
     }

     private final Node mFieldStart;
     private final Node mFieldSeparator;
     private final Node mFieldEnd;
     private boolean mIsLocal;
     private String mTarget;

     private static final Pattern G_REGEX = Pattern.compile(
             "\\S+" +             // One or more non spaces HYPERLINK or other word in other languages.
                     "\\s+" +             // One or more spaces.
                     "(?:\"\"\\s+)?" +    // Non-capturing optional "" and one or more spaces.
                     "(\\\\l\\s+)?" +     // Optional \l flag followed by one or more spaces.
                     "\"" +               // One apostrophe.
                     "([^\"]+)" +         // One or more characters, excluding the apostrophe (hyperlink target).
                     "\""                 // One closing apostrophe.
     );
 }
 

Methods

MethodDescription
get(int index)Retrieves a node at the given index.
getCount()Gets the number of nodes in the list.
iterator()Provides a simple “foreach” style iteration over the collection of nodes.
toArray()Copies all nodes from the collection to a new array of nodes.

get(int index)

public Node get(int index)

Retrieves a node at the given index.

Remarks:

The index is zero-based.

Negative indexes are allowed and indicate access from the back of the collection. For example -1 means the last item, -2 means the second before last and so on.

If index is greater than or equal to the number of items in the list, this returns a null reference.

If index is negative and its absolute value is greater than the number of items in the list, this returns a null reference.

Examples:

Shows how to use XPaths to navigate a NodeList.


 Document doc = new Document();
 DocumentBuilder builder = new DocumentBuilder(doc);

 // Insert some nodes with a DocumentBuilder.
 builder.writeln("Hello world!");

 builder.startTable();
 builder.insertCell();
 builder.write("Cell 1");
 builder.insertCell();
 builder.write("Cell 2");
 builder.endTable();

 builder.insertImage(getImageDir() + "Logo.jpg");

 // Our document contains three Run nodes.
 NodeList runs = doc.selectNodes("//Run");

 Assert.assertEquals(3, runs.getCount());

 // Use a double forward slash to select all Run nodes
 // that are indirect descendants of a Table node, which would be the runs inside the two cells we inserted.
 runs = doc.selectNodes("//Table//Run");

 Assert.assertEquals(2, runs.getCount());

 // Single forward slashes specify direct descendant relationships,
 // which we skipped when we used double slashes.
 Assert.assertEquals(doc.selectNodes("//Table//Run"),
         doc.selectNodes("//Table/Row/Cell/Paragraph/Run"));

 // Access the shape that contains the image we inserted.
 NodeList shapes = doc.selectNodes("//Shape");

 Assert.assertEquals(1, shapes.getCount());

 Shape shape = (Shape) shapes.get(0);
 Assert.assertTrue(shape.hasImage());
 

Parameters:

ParameterTypeDescription
indexintAn index into the list of nodes.

Returns: Node - The corresponding Node value.

getCount()

public int getCount()

Gets the number of nodes in the list.

Examples:

Shows how to use XPaths to navigate a NodeList.


 Document doc = new Document();
 DocumentBuilder builder = new DocumentBuilder(doc);

 // Insert some nodes with a DocumentBuilder.
 builder.writeln("Hello world!");

 builder.startTable();
 builder.insertCell();
 builder.write("Cell 1");
 builder.insertCell();
 builder.write("Cell 2");
 builder.endTable();

 builder.insertImage(getImageDir() + "Logo.jpg");

 // Our document contains three Run nodes.
 NodeList runs = doc.selectNodes("//Run");

 Assert.assertEquals(3, runs.getCount());

 // Use a double forward slash to select all Run nodes
 // that are indirect descendants of a Table node, which would be the runs inside the two cells we inserted.
 runs = doc.selectNodes("//Table//Run");

 Assert.assertEquals(2, runs.getCount());

 // Single forward slashes specify direct descendant relationships,
 // which we skipped when we used double slashes.
 Assert.assertEquals(doc.selectNodes("//Table//Run"),
         doc.selectNodes("//Table/Row/Cell/Paragraph/Run"));

 // Access the shape that contains the image we inserted.
 NodeList shapes = doc.selectNodes("//Shape");

 Assert.assertEquals(1, shapes.getCount());

 Shape shape = (Shape) shapes.get(0);
 Assert.assertTrue(shape.hasImage());
 

Returns: int - The number of nodes in the list.

iterator()

public Iterator iterator()

Provides a simple “foreach” style iteration over the collection of nodes.

Examples:

Shows how to select certain nodes by using an XPath expression.


 Document doc = new Document(getMyDir() + "Tables.docx");

 // This expression will extract all paragraph nodes,
 // which are descendants of any table node in the document.
 NodeList nodeList = doc.selectNodes("//Table//Paragraph");

 // Iterate through the list with an enumerator and print the contents of every paragraph in each cell of the table.
 int index = 0;

 Iterator e = nodeList.iterator();
 while (e.hasNext()) {
     Node currentNode = e.next();
     System.out.println(MessageFormat.format("Table paragraph index {0}, contents: \"{1}\"", index++, currentNode.getText().trim()));
 }

 // This expression will select any paragraphs that are direct children of any Body node in the document.
 nodeList = doc.selectNodes("//Body/Paragraph");

 // We can treat the list as an array.
 Assert.assertEquals(nodeList.toArray().length, 4);

 // Use SelectSingleNode to select the first result of the same expression as above.
 Node node = doc.selectSingleNode("//Body/Paragraph");

 Assert.assertEquals(Paragraph.class, node.getClass());
 

Returns: java.util.Iterator - An Iterator.

toArray()

public Node[] toArray()

Copies all nodes from the collection to a new array of nodes.

Remarks:

You should not be adding/removing nodes while iterating over a collection of nodes because it invalidates the iterator and requires refreshes for live collections.

To be able to add/remove nodes during iteration, use this method to copy nodes into a fixed-size array and then iterate over the array.

Examples:

Shows how to select certain nodes by using an XPath expression.


 Document doc = new Document(getMyDir() + "Tables.docx");

 // This expression will extract all paragraph nodes,
 // which are descendants of any table node in the document.
 NodeList nodeList = doc.selectNodes("//Table//Paragraph");

 // Iterate through the list with an enumerator and print the contents of every paragraph in each cell of the table.
 int index = 0;

 Iterator e = nodeList.iterator();
 while (e.hasNext()) {
     Node currentNode = e.next();
     System.out.println(MessageFormat.format("Table paragraph index {0}, contents: \"{1}\"", index++, currentNode.getText().trim()));
 }

 // This expression will select any paragraphs that are direct children of any Body node in the document.
 nodeList = doc.selectNodes("//Body/Paragraph");

 // We can treat the list as an array.
 Assert.assertEquals(nodeList.toArray().length, 4);

 // Use SelectSingleNode to select the first result of the same expression as above.
 Node node = doc.selectSingleNode("//Body/Paragraph");

 Assert.assertEquals(Paragraph.class, node.getClass());
 

Returns: com.aspose.words.Node[] - An array of nodes.