How to stream XML fragments with access to header information (LINQ to XML)
Sometimes you have to read arbitrarily large XML files, and write your application so that the memory footprint of the application is predictable. If you attempt to populate an XML tree with a large XML file, your memory usage will be proportional to the size of the file—that is, excessive. Therefore, you should use a streaming technique instead.
One option is to write your application using XmlReader. However, you might want to use LINQ to query the XML tree. If so, you can write your own custom axis method. For more information, see How to write a LINQ to XML axis method.
To write your own axis method, you write a small method that uses the XmlReader to read nodes until it reaches one of the nodes in which you're interested. The method then calls ReadFrom, which reads from the XmlReader and instantiates an XML fragment. It then yields each fragment through yield return
to the method that's enumerating your custom axis method. You can then write LINQ queries on your custom axis method.
Streaming techniques are best applied in situations where you need to process the source document only once, and you can process the elements in document order. 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 won't retain a small memory footprint.
Example: Implement and use a custom axis method that streams XML fragments from the file specified by a URI
Sometimes the problem gets just a little more interesting. In the following XML document, the consumer of your custom axis method also has to know the name of the customer that each item belongs to.
<?xml version="1.0" encoding="utf-8" ?>
<Root>
<Customer>
<Name>A. Datum Corporation</Name>
<Item>
<Key>0001</Key>
</Item>
<Item>
<Key>0002</Key>
</Item>
<Item>
<Key>0003</Key>
</Item>
<Item>
<Key>0004</Key>
</Item>
</Customer>
<Customer>
<Name>Fabrikam, Inc.</Name>
<Item>
<Key>0005</Key>
</Item>
<Item>
<Key>0006</Key>
</Item>
<Item>
<Key>0007</Key>
</Item>
<Item>
<Key>0008</Key>
</Item>
</Customer>
<Customer>
<Name>Southridge Video</Name>
<Item>
<Key>0009</Key>
</Item>
<Item>
<Key>0010</Key>
</Item>
</Customer>
</Root>
The approach that this example takes is to also watch for this header information, save the header information, and then build a small XML tree that contains both the header information and the detail that you're enumerating. The axis method then yields this new, small XML tree. The query then has access to the header information as well as the detail information.
This approach has a small memory footprint. As each detail XML fragment is yielded, no references are kept to the previous fragment, and it's available for garbage collection. This technique creates many short lived objects on the heap.
The following example shows how to implement and use a custom axis method that streams XML fragments from the file specified by the URI. This custom axis is written such that it expects a document that has Customer
, Name
, and Item
elements, and that those elements will be arranged as in the above Source.xml
document. It's a simplistic implementation. A more robust implementation would be prepared to parse an invalid document.
static IEnumerable<XElement> StreamCustomerItem(string uri)
{
using (XmlReader reader = XmlReader.Create(uri))
{
XElement name = null;
XElement item = null;
reader.MoveToContent();
// Parse the file, save header information when encountered, and yield the
// Item XElement objects as they're created.
// loop through Customer elements
while (reader.Read())
{
if (reader.NodeType == XmlNodeType.Element
&& reader.Name == "Customer")
{
// move to Name element
while (reader.Read())
{
if (reader.NodeType == XmlNodeType.Element &&
reader.Name == "Name")
{
name = XElement.ReadFrom(reader) as XElement;
break;
}
}
// Loop through Item elements
while (reader.Read())
{
if (reader.NodeType == XmlNodeType.EndElement)
break;
if (reader.NodeType == XmlNodeType.Element
&& reader.Name == "Item")
{
item = XElement.ReadFrom(reader) as XElement;
if (item != null) {
XElement tempRoot = new XElement("Root",
new XElement(name)
);
tempRoot.Add(item);
yield return item;
}
}
}
}
}
}
}
static void Main(string[] args)
{
XElement xmlTree = new XElement("Root",
from el in StreamCustomerItem("Source.xml")
where (int)el.Element("Key") >= 3 && (int)el.Element("Key") <= 7
select new XElement("Item",
new XElement("Customer", (string)el.Parent.Element("Name")),
new XElement(el.Element("Key"))
)
);
Console.WriteLine(xmlTree);
}
Module Module1
Sub Main()
Dim xmlTree = <Root>
<%=
From el In New StreamCustomerItem("Source.xml")
Let itemKey = CInt(el.<Key>.Value)
Where itemKey >= 3 AndAlso itemKey <= 7
Select <Item>
<Customer><%= el.Parent.<Name>.Value %></Customer>
<%= el.<Key> %>
</Item>
%>
</Root>
Console.WriteLine(xmlTree)
End Sub
End Module
Public Class StreamCustomerItem
Implements IEnumerable(Of XElement)
Private _uri As String
Public Sub New(ByVal uri As String)
_uri = uri
End Sub
Public Function GetEnumerator() As IEnumerator(Of XElement) Implements IEnumerable(Of XElement).GetEnumerator
Return New StreamCustomerItemEnumerator(_uri)
End Function
Public Function GetEnumerator1() As IEnumerator Implements IEnumerable.GetEnumerator
Return Me.GetEnumerator()
End Function
End Class
Public Class StreamCustomerItemEnumerator
Implements IEnumerator(Of XElement)
Private _current As XElement
Private _customerName As String
Private _reader As Xml.XmlReader
Private _uri As String
Public Sub New(ByVal uri As String)
_uri = uri
_reader = Xml.XmlReader.Create(_uri)
_reader.MoveToContent()
End Sub
Public ReadOnly Property Current As XElement Implements IEnumerator(Of XElement).Current
Get
Return _current
End Get
End Property
Public ReadOnly Property Current1 As Object Implements IEnumerator.Current
Get
Return Me.Current
End Get
End Property
Public Function MoveNext() As Boolean Implements IEnumerator.MoveNext
Dim item As XElement
Dim name As XElement
' Parse the file, save header information when encountered, and return the
' current Item XElement.
' loop through Customer elements
While _reader.Read()
If _reader.NodeType = Xml.XmlNodeType.Element Then
Select Case _reader.Name
Case "Customer"
' move to Name element
While _reader.Read()
If _reader.NodeType = Xml.XmlNodeType.Element AndAlso
_reader.Name = "Name" Then
name = TryCast(XElement.ReadFrom(_reader), XElement)
_customerName = If(name IsNot Nothing, name.Value, "")
Exit While
End If
End While
Case "Item"
item = TryCast(XElement.ReadFrom(_reader), XElement)
Dim tempRoot = <Root>
<Name><%= _customerName %></Name>
<%= item %>
</Root>
_current = item
Return True
End Select
End If
End While
Return False
End Function
Public Sub Reset() Implements IEnumerator.Reset
_reader = Xml.XmlReader.Create(_uri)
_reader.MoveToContent()
End Sub
#Region "IDisposable Support"
Private disposedValue As Boolean ' To detect redundant calls
' IDisposable
Protected Overridable Sub Dispose(ByVal disposing As Boolean)
If Not Me.disposedValue Then
If disposing Then
_reader.Close()
End If
End If
Me.disposedValue = True
End Sub
Public Sub Dispose() Implements IDisposable.Dispose
Dispose(True)
GC.SuppressFinalize(Me)
End Sub
#End Region
End Class
This code produces the following output:
<Root>
<Item>
<Customer>A. Datum Corporation</Customer>
<Key>0003</Key>
</Item>
<Item>
<Customer>A. Datum Corporation</Customer>
<Key>0004</Key>
</Item>
<Item>
<Customer>Fabrikam, Inc.</Customer>
<Key>0005</Key>
</Item>
<Item>
<Customer>Fabrikam, Inc.</Customer>
<Key>0006</Key>
</Item>
<Item>
<Customer>Fabrikam, Inc.</Customer>
<Key>0007</Key>
</Item>
</Root>