Edit

Share via


XNode.ReadFrom(XmlReader) Method

Definition

Creates an XNode from an XmlReader.

public:
 static System::Xml::Linq::XNode ^ ReadFrom(System::Xml::XmlReader ^ reader);
public static System.Xml.Linq.XNode ReadFrom (System.Xml.XmlReader reader);
static member ReadFrom : System.Xml.XmlReader -> System.Xml.Linq.XNode
Public Shared Function ReadFrom (reader As XmlReader) As XNode

Parameters

reader
XmlReader

An XmlReader positioned at the node to read into this XNode.

Returns

An XNode that contains the node and its descendant nodes that were read from the reader. The runtime type of the node is determined by the node type (NodeType) of the first node encountered in the reader.

Exceptions

The XmlReader is not positioned on a recognized node type.

The underlying XmlReader throws an exception.

Examples

This example uses the following XML file, named Source.xml:

<?xml version="1.0" encoding="utf-8" ?>
<Root>
  <Child Key="01">
    <GrandChild>aaa</GrandChild>
  </Child>
  <Child Key="02">
    <GrandChild>bbb</GrandChild>
  </Child>
  <Child Key="03">
    <GrandChild>ccc</GrandChild>
  </Child>
</Root>

The following example creates a custom axis method that uses ReadFrom and then queries the custom axis by using a LINQ query:

using System;
using System.Collections.Generic;
using System.Linq;
using System.Xml;
using System.Xml.Linq;

class Program
{
    static IEnumerable<XElement> StreamRootChildDoc(string uri)
    {
        using (XmlReader reader = XmlReader.Create(uri))
        {
            reader.MoveToContent();
            
            // Parse the file and return each of the nodes.
            while (!reader.EOF)
            {
                if (reader.NodeType == XmlNodeType.Element && reader.Name == "Child")
                {
                    XElement el = XElement.ReadFrom(reader) as XElement;
                    if (el != null)
                        yield return el;
                }
                else
                {
                    reader.Read();
                }
            }
        }
    }

    static void Main(string[] args)
    {
        IEnumerable<string> grandChildData =
            from el in StreamRootChildDoc("Source.xml")
            where (int)el.Attribute("Key") > 1
            select (string)el.Element("GrandChild");

        foreach (string str in grandChildData)
            Console.WriteLine(str);
    }
}
Imports System.Collections.Generic
Imports System.Linq
Imports System.Xml
Imports System.Xml.Linq

Module Program
    Iterator Function StreamRootChildDoc(ByVal uri As String) As IEnumerable(Of XElement)

        Using reader As XmlReader = XmlReader.Create(uri)
            reader.MoveToContent()

            ' Parse the file and return each of the nodes.
            While Not reader.EOF

                If reader.NodeType = XmlNodeType.Element AndAlso reader.Name = "Child" Then
                    Dim el As XElement = TryCast(XElement.ReadFrom(reader), XElement)
                    If el IsNot Nothing Then Yield el
                Else
                    reader.Read()
                End If
            End While
        End Using
    End Function

    Sub Main(args As String())

        Dim grandChildData As IEnumerable(Of String) =
            From el In StreamRootChildDoc("Source.xml")
            Where CInt(el.Attribute("Key")) > 1
            Select CStr(el.Element("GrandChild"))

        For Each str As String In grandChildData
            Console.WriteLine(str)
        Next

    End Sub

End Module

This example produces the following output:

bbb  
ccc  

Remarks

You can use this method to write a method that returns a collection of nodes, yielding each node as the node is read from the reader. This method enables you to process arbitrarily large XML files with a very small memory footprint.

The reader that you pass to this method might throw exceptions. ReadFrom does not catch all exceptions thrown by the reader; the unhandled exceptions bubble up to the code that called ReadFrom. In particular, your code should be prepared to handle XmlException.

For an example of how to stream a more complex document, see How to stream XML fragments with access to header information.

Certain standard query operators, such as OrderBy, iterate their source, collect all of the data, sort it, and then finally yield the first item in the sequence. If you use a query operator that materializes its source before yielding the first item, you will not retain a small memory footprint.

For an example of using LINQ to XML to transform extremely large XML documents while maintaining a small memory footprint, see How to perform streaming transform of large XML documents.

Applies to

See also