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I am looking for the clean, elegant and smart solution to remove namespacees from all XML elements? How would function to do that look like?

Defined interface:

public interface IXMLUtils
{
        string RemoveAllNamespaces(string xmlDocument);
}

Sample XML to remove NS from:

<?xml version="1.0" encoding="utf-16"?>
<ArrayOfInserts xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xmlns:xsd="http://www.w3.org/2001/XMLSchema">
  <insert>
    <offer xmlns="http://schema.peters.com/doc_353/1/Types">0174587</offer>
    <type2 xmlns="http://schema.peters.com/doc_353/1/Types">014717</type2>
    <supplier xmlns="http://schema.peters.com/doc_353/1/Types">019172</supplier>
    <id_frame xmlns="http://schema.peters.com/doc_353/1/Types" />
    <type3 xmlns="http://schema.peters.com/doc_353/1/Types">
      <type2 />
      <main>false</main>
    </type3>
    <status xmlns="http://schema.peters.com/doc_353/1/Types">Some state</status>
  </insert>
</ArrayOfInserts>

After we call RemoveAllNamespaces(xmlWithLotOfNs), we should get:

  <?xml version="1.0" encoding="utf-16"?>
    <ArrayOfInserts>
      <insert>
        <offer >0174587</offer>
        <type2 >014717</type2>
        <supplier >019172</supplier>
        <id_frame  />
        <type3 >
          <type2 />
          <main>false</main>
        </type3>
        <status >Some state</status>
      </insert>
    </ArrayOfInserts>

Preffered language of solution is C# on .NET 3.5 SP1.

share|improve this question
    
@JohnSaunders: You are right. But it this particular case I have to do some system integration. And this was the only option back then. –  Peter Stegnar May 17 '13 at 21:32
    
@PeterStegnar the error is usually the hacker who created the legacy formats. Often, developers misuse xml chronically. Namespaces the first crazy important feature to be tossed aside. –  Gusdor Jan 1 at 13:21

21 Answers 21

up vote 47 down vote accepted

Well, here is the final answer. I have used great Jimmy idea (which unfortunately is not complete itself) and complete recursion function to work properly.

Based on interface:

string RemoveAllNamespaces(string xmlDocument);

I represent here final clean and universal C# solution for removing XML namespaces:

//Implemented based on interface, not part of algorithm
public static string RemoveAllNamespaces(string xmlDocument)
{
    XElement xmlDocumentWithoutNs = RemoveAllNamespaces(XElement.Parse(xmlDocument));

    return xmlDocumentWithoutNs.ToString();
}

//Core recursion function
 private static XElement RemoveAllNamespaces(XElement xmlDocument)
    {
        if (!xmlDocument.HasElements)
        {
            XElement xElement = new XElement(xmlDocument.Name.LocalName);
            xElement.Value = xmlDocument.Value;

            foreach (XAttribute attribute in xmlDocument.Attributes())
                xElement.Add(attribute);

            return xElement;
        }
        return new XElement(xmlDocument.Name.LocalName, xmlDocument.Elements().Select(el => RemoveAllNamespaces(el)));
    }

It's working 100%, but I have not tested it much so it may not cover some special cases ... But it is good base to start.

share|improve this answer
5  
How well does that work with attributes that have namespaces? In fact, your code just ignores attributes entirely. –  John Saunders Jun 15 '09 at 13:46
4  
I realize namespaces may be useful in some applications, but not at all in mine; they were causing a huge annoyance. This solution worked for me. –  JYelton Mar 10 '10 at 19:49
    
+1 brilliant! Thanks. –  Konrad Morawski Sep 28 '11 at 12:48
    
@John Saunders - Yeah I used that solution and I realized you were right. I'm posting an updated solution as an answer –  Konrad Morawski Sep 28 '11 at 14:47
2  
This solution did NOT work for me, as the code removes all attributes as well as the namespaces. Of course, a few changes might work to see if the attribute being removed is a namespace or attribute –  bigfoot Feb 24 '12 at 13:58

the obligatory answer using LINQ:

static XElement stripNS(XElement root) {
    return new XElement(
        root.Name.LocalName,
        root.HasElements ? 
            root.Elements().Select(el => stripNS(el)) :
            (object)root.Value
    );
}
static void Main() {
    var xml = XElement.Parse(@"<?xml version=""1.0"" encoding=""utf-16""?>
    <ArrayOfInserts xmlns:xsi=""http://www.w3.org/2001/XMLSchema-instance"" xmlns:xsd=""http://www.w3.org/2001/XMLSchema"">
      <insert>
        <offer xmlns=""http://schema.peters.com/doc_353/1/Types"">0174587</offer>
        <type2 xmlns=""http://schema.peters.com/doc_353/1/Types"">014717</type2>
        <supplier xmlns=""http://schema.peters.com/doc_353/1/Types"">019172</supplier>
        <id_frame xmlns=""http://schema.peters.com/doc_353/1/Types"" />
        <type3 xmlns=""http://schema.peters.com/doc_353/1/Types"">
          <type2 />
          <main>false</main>
        </type3>
        <status xmlns=""http://schema.peters.com/doc_353/1/Types"">Some state</status>
      </insert>
    </ArrayOfInserts>");
    Console.WriteLine(stripNS(xml));
}
share|improve this answer
    
Does that really work? How cool. Recursive? –  Robert Harvey Jun 12 '09 at 15:47
2  
I guess you can show the VB folks you can have an XML literal in C# after all. –  Robert Harvey Jun 12 '09 at 15:48
1  
@Robert, that's not an XML literal. It's a string. There's a big difference! –  CoderDennis Jun 12 '09 at 17:16
    
Jimmy, you are close but not there yet. :) I am writing final solution based on your idea. I will post it there. –  Peter Stegnar Jun 12 '09 at 18:23
1  
This strips out all attributes, not just namespaces. See florian's answer for fix. –  Brian Feb 14 '12 at 16:31

The tagged most useful answer has two flaws:

  • It ignores attributes
  • It doesn't work with "mixed mode" elements

Here is my take on this:

 public static XElement RemoveAllNamespaces(XElement e)
 {
    return new XElement(e.Name.LocalName,
      (from n in e.Nodes()
        select ((n is XElement) ? RemoveAllNamespaces(n as XElement) : n)),
          (e.HasAttributes) ? 
            (from a in e.Attributes() 
               where (!a.IsNamespaceDeclaration)  
               select new XAttribute(a.Name.LocalName, a.Value)) : null);
  }          

Sample code here.

share|improve this answer
4  
+1 for Linq without use of "obligatory" :-) –  lorddev Oct 6 '12 at 3:33
    
Unfortunately, this did not work for me, the same xml entered was returned. :( –  Rami A. Jan 31 '13 at 19:16
    
@RamiA. can you post a snippet of the code so we can see what the problem is? –  Dexter Legaspi Feb 4 '13 at 15:00
    
Didn't work for me either. I guess since you're copying the attributes you're simply copying over the xmlns as well. –  MDeSchaepmeester Jun 19 at 12:05
    
This works. I have used it...however i realized it's not thorough cleaning in the sense that it doesn't remove the actual xmlns attributes that defines the namespace...so I updated it to do just that...and added a gist example. –  Dexter Legaspi Jun 20 at 4:39

Pick it up again, in C# - added line for copying the attributes:

    static XElement stripNS(XElement root)
    {
        XElement res = new XElement(
            root.Name.LocalName,
            root.HasElements ?
                root.Elements().Select(el => stripNS(el)) :
                (object)root.Value
        );

        res.ReplaceAttributes(
            root.Attributes().Where(attr => (!attr.IsNamespaceDeclaration)));

        return res;
    }
share|improve this answer
    
Same as answer from Peter Stegnar, but works. –  cosmo0 Jul 9 '12 at 14:11
    
Works for the root element, but not for nested elements; the namespaces seems to just get renamed, maybe automatically by XElement.ToString(). –  Rami A. Jan 31 '13 at 19:23

The obligatory answer using XSLT:

<xsl:stylesheet version="1.0" xmlns:xsl="http://www.w3.org/1999/XSL/Transform">
  <xsl:output method="xml" indent="no" encoding="UTF-8"/>

  <xsl:template match="/|comment()|processing-instruction()">
    <xsl:copy>
      <xsl:apply-templates/>
    </xsl:copy>
  </xsl:template>

  <xsl:template match="*">
    <xsl:element name="{local-name()}">
      <xsl:apply-templates select="@*|node()"/>
    </xsl:element>
  </xsl:template>

  <xsl:template match="@*">
    <xsl:attribute name="{local-name()}">
      <xsl:value-of select="."/>
    </xsl:attribute>
  </xsl:template>

</xsl:stylesheet>
share|improve this answer
    
+1 for the "obligatory". :-) I still wonder why removing namespaces would be a smart decision. This probably crashes and burns on <element ns:attr="a" attr="b"/>. –  Tomalak Jun 12 '09 at 16:53
    
Oh sure, but every NS removing technique will to a greater or lesser extent. As or validity, I can tell you where I have needed it: importing third party XML where they can't sort out a valid XSD but insist on namespacing. Practicality rules ultimately. –  annakata Jun 12 '09 at 18:51
    
@annakata: Namespaces are perfectly usable without XSD, and very useful where nodes come from multiple sources. You just have to remember that nodes are named by namespace+localname always (and the namespace tag (or prefix) is just a local document detail). –  Richard Jun 13 '09 at 8:05
1  
@annakata: The solution is simpler than you think. Stop enabling. Refuse to use any technique which does not understand XML. The only reason we're still forced to use such garbage is because people keep saying, "yes", when they need to say "no" a bit more often. The standards are over 10 years old! Why else do we still have software that doesn't understand XML Namespaces, except that we continue to enable it to exist? –  John Saunders Jun 15 '09 at 13:44
2  
@John - ha, there are those things which should be done, and there are those things which the management deems will be done. All is for the best in the best of all possible worlds. –  annakata Jun 15 '09 at 14:04

That will do the trick :-)

foreach (XElement XE in Xml.DescendantsAndSelf())
{
    // Stripping the namespace by setting the name of the element to it's localname only
    XE.Name = XE.Name.LocalName;
    // replacing all attributes with attributes that are not namespaces and their names are set to only the localname
    XE.ReplaceAttributes((from xattrib in XE.Attributes().Where(xa => !xa.IsNamespaceDeclaration) select new XAttribute(xattrib.Name.LocalName, xattrib.Value)));
}
share|improve this answer
    
Yo this works great, not only does it work, it doesn't even affect the file it's writing the data too the Xelement using the DescendantAndself method. thanks man! –  shawn Dec 22 at 2:54

I know this question is supposedly solved, but I wasn't totally happy with the way it was implemented. I found another source over here on the MSDN blogs that has an overridden XmlTextWriter class that strips out the namespaces. I tweaked it a bit to get some other things I wanted in such as pretty formatting and preserving the root element. Here is what I have in my project at the moment.

http://blogs.msdn.com/b/kaevans/archive/2004/08/02/206432.aspx

Class

/// <summary>
/// Modified XML writer that writes (almost) no namespaces out with pretty formatting
/// </summary>
/// <seealso cref="http://blogs.msdn.com/b/kaevans/archive/2004/08/02/206432.aspx"/>
public class XmlNoNamespaceWriter : XmlTextWriter
{
    private bool _SkipAttribute = false;
    private int _EncounteredNamespaceCount = 0;

    public XmlNoNamespaceWriter(TextWriter writer)
        : base(writer)
    {
        this.Formatting = System.Xml.Formatting.Indented;
    }

    public override void WriteStartElement(string prefix, string localName, string ns)
    {
        base.WriteStartElement(null, localName, null);
    }

    public override void WriteStartAttribute(string prefix, string localName, string ns)
    {
        //If the prefix or localname are "xmlns", don't write it.
        //HOWEVER... if the 1st element (root?) has a namespace we will write it.
        if ((prefix.CompareTo("xmlns") == 0
                || localName.CompareTo("xmlns") == 0)
            && _EncounteredNamespaceCount++ > 0)
        {
            _SkipAttribute = true;
        }
        else
        {
            base.WriteStartAttribute(null, localName, null);
        }
    }

    public override void WriteString(string text)
    {
        //If we are writing an attribute, the text for the xmlns
        //or xmlns:prefix declaration would occur here.  Skip
        //it if this is the case.
        if (!_SkipAttribute)
        {
            base.WriteString(text);
        }
    }

    public override void WriteEndAttribute()
    {
        //If we skipped the WriteStartAttribute call, we have to
        //skip the WriteEndAttribute call as well or else the XmlWriter
        //will have an invalid state.
        if (!_SkipAttribute)
        {
            base.WriteEndAttribute();
        }
        //reset the boolean for the next attribute.
        _SkipAttribute = false;
    }

    public override void WriteQualifiedName(string localName, string ns)
    {
        //Always write the qualified name using only the
        //localname.
        base.WriteQualifiedName(localName, null);
    }
}

Usage

//Save the updated document using our modified (almost) no-namespace XML writer
using(StreamWriter sw = new StreamWriter(this.XmlDocumentPath))
using(XmlNoNamespaceWriter xw = new XmlNoNamespaceWriter(sw))
{
    //This variable is of type `XmlDocument`
    this.XmlDocumentRoot.Save(xw);
}
share|improve this answer
1  
Your answer is the only one that doesn't feel like a hack, however, the original sample in the referenced blog post is more correct because if you don't remove the namespace in the root node, then all child nodes and attributes without a namespace will inherit the root namespace. –  tenor Jan 4 '13 at 22:05

Slightly modified Peter's answer, this would works fine for the attribute as well, including remove the namespace and prefix. A bit sorry for the code looks a bit ugly.

 private static XElement RemoveAllNamespaces(XElement xmlDocument)
        {
            if (!xmlDocument.HasElements)
            {
                XElement xElement = new XElement(xmlDocument.Name.LocalName);
                xElement.Value = xmlDocument.Value;

                foreach (XAttribute attribute in xmlDocument.Attributes())
                {
                    xElement.Add(new XAttribute(attribute.Name.LocalName, attribute.Value));
                }

                return xElement;
            }

            else
            {
                XElement xElement = new XElement(xmlDocument.Name.LocalName,  xmlDocument.Elements().Select(el => RemoveAllNamespaces(el)));

                foreach (XAttribute attribute in xmlDocument.Attributes())
                {
                    xElement.Add(new XAttribute(attribute.Name.LocalName, attribute.Value));
                }

                return xElement;
            }

    }
share|improve this answer
    
+1 This worked for me. However, it leaves attributes that were part of the namespace definition (just the xmlns prefix removed) but they don't currently affect serialization. –  Rami A. Jan 31 '13 at 19:21

You can do that using Linq:

public static string RemoveAllNamespaces(string xmlDocument)
{
    var xml = XElement.Parse(xmlDocument);
    xml.Descendants().Select(o => o.Name = o.Name.LocalName).ToArray();
    return xml.ToString();
}
share|improve this answer

What are you trying to accomplish? I've never seen a case where removing namespaces was "smart".

The namespace+local name is the identify of the element or attribute. Removing the namespace would remove half the identity. You may have the first example I've seen where this is a good idea, but if so, please tell me why it makes sense.

share|improve this answer
    
Yes, I understand your concern. Namespaces are meant to be, but I have special case. I am working on integration service which connect some BPM tool with 3th party WebService. I have to do deserialization from BPM tool's type xml to WebService type. Both have the same schema (with different namespace of course), but as you can see BPM tool messes with namespaces, which makes deserialization to WS type impossible. –  Peter Stegnar Jun 12 '09 at 17:48
    
That's what XSLT has been developed for. I recommend an XSL transformation that changes unsuitable input (wrong namespaces or structure) into useful input (right namespaces or structure), instead of simply ripping out namespaces. –  Tomalak Jun 12 '09 at 18:15
    
Generally I agree with you, I could also done this with XSLT and this may be more right. But I wanted to find some clean solution in code. This question is not what is the right way to make XML transformations with (obviously with XSL). –  Peter Stegnar Jun 12 '09 at 19:03
    
Why do they have the "same schema" but with different namespaces? Why isn't one of them using the schema from the other? Besides, in this case, rather than removing namespaces, I'd consider defining a third namespace and mapping from each into this third schema. The third schema would be the one you depend on. –  John Saunders Jun 12 '09 at 20:29
1  
@Peter Stegnar: XSLT is not some dirty hack. It is the cleanest method of handling XML transformation, I would say that everything else is inferior. –  Tomalak Jun 15 '09 at 9:02

The reply's by Jimmy and Peter were a great help, but they actually removed all attributes, so I made a slight modification:

Imports System.Runtime.CompilerServices

Friend Module XElementExtensions

    <Extension()> _
    Public Function RemoveAllNamespaces(ByVal element As XElement) As XElement
        If element.HasElements Then
            Dim cleanElement = RemoveAllNamespaces(New XElement(element.Name.LocalName, element.Attributes))
            cleanElement.Add(element.Elements.Select(Function(el) RemoveAllNamespaces(el)))
            Return cleanElement
        Else
            Dim allAttributesExceptNamespaces = element.Attributes.Where(Function(attr) Not attr.IsNamespaceDeclaration)
            element.ReplaceAttributes(allAttributesExceptNamespaces)
            Return element
        End If

    End Function

End Module
share|improve this answer

And this is the perfect solution that will also remove XSI elements. (If you remove the xmlns and don't remove XSI, .Net shouts at you...)

string xml = node.OuterXml;
//Regex below finds strings that start with xmlns, may or may not have :and some text, then continue with =
//and ", have a streach of text that does not contain quotes and end with ". similar, will happen to an attribute
// that starts with xsi.
string strXMLPattern = @"xmlns(:\w+)?=""([^""]+)""|xsi(:\w+)?=""([^""]+)""";
xml = Regex.Replace(xml, strXMLPattern, "");
share|improve this answer

This is a solution based on Peter Stegnar's accepted answer.

I used it, but (as andygjp and John Saunders remarked) his code ignores attributes.

I needed to take care of attributes too, so I adapted his code. Andy's version was Visual Basic, this is still c#.

I know it's been a while, but perhaps it'll save somebody some time one day.

    private static XElement RemoveAllNamespaces(XElement xmlDocument)
    {
        XElement xmlDocumentWithoutNs = removeAllNamespaces(xmlDocument);
        return xmlDocumentWithoutNs;
    }

    private static XElement removeAllNamespaces(XElement xmlDocument)
    {
        var stripped = new XElement(xmlDocument.Name.LocalName);            
        foreach (var attribute in
                xmlDocument.Attributes().Where(
                attribute =>
                    !attribute.IsNamespaceDeclaration &&
                    String.IsNullOrEmpty(attribute.Name.NamespaceName)))
        {
            stripped.Add(new XAttribute(attribute.Name.LocalName, attribute.Value));
        }
        if (!xmlDocument.HasElements)
        {
            stripped.Value = xmlDocument.Value;
            return stripped;
        }
        stripped.Add(xmlDocument.Elements().Select(
            el =>
                RemoveAllNamespaces(el)));            
        return stripped;
    }
share|improve this answer

For attributes to work the for loop for adding attribute should go after recursion, also need to check if IsNamespaceDeclaration:

private static XElement RemoveAllNamespaces(XElement xmlDocument)
{
    XElement xElement;

    if (!xmlDocument.HasElements)
    {
        xElement = new XElement(xmlDocument.Name.LocalName) { Value = xmlDocument.Value };
    }
    else
    {
        xElement = new XElement(xmlDocument.Name.LocalName, xmlDocument.Elements().Select(RemoveAllNamespaces));
    }

    foreach (var attribute in xmlDocument.Attributes())
    {
        if (!attribute.IsNamespaceDeclaration)
        {
            xElement.Add(attribute);
        }
    }

    return xElement;
}
share|improve this answer
    
-1. Doesn't compile. –  Rami A. Jan 31 '13 at 18:51

Here is a regex based solution to this problem...

    private XmlDocument RemoveNS(XmlDocument doc)
    {
        var xml = doc.OuterXml;
        var newxml = Regex.Replace(xml, @"xmlns[:xsi|:xsd]*="".*?""","");
        var newdoc = new XmlDocument();
        newdoc.LoadXml(newxml);
        return newdoc;
    }
share|improve this answer

Here is my VB.NET version of Dexter Legaspi C# Version

Shared Function RemoveAllNamespaces(ByVal e As XElement) As XElement
        Return New XElement(e.Name.LocalName, New Object() {(From n In e.Nodes Select If(TypeOf n Is XElement, RemoveAllNamespaces(TryCast(n, XElement)), n)), If(e.HasAttributes, (From a In e.Attributes Select a), Nothing)})
End Function
share|improve this answer

Another solution that takes into account possibly interleaving TEXT and ELEMENT nodes, e.g.:

<parent>
    text1
    <child1/>
    text2
    <child2/>
</parent>

Code:

using System.Linq;

namespace System.Xml.Linq
{
    public static class XElementTransformExtensions
    {
        public static XElement WithoutNamespaces(this XElement source)
        {
            return new XElement(source.Name.LocalName,
                source.Attributes().Select(WithoutNamespaces),
                source.Nodes().Select(WithoutNamespaces)
            );
        }

        public static XAttribute WithoutNamespaces(this XAttribute source)
        {
            return !source.IsNamespaceDeclaration
                ? new XAttribute(source.Name.LocalName, source.Value)
                : default(XAttribute);
        }

        public static XNode WithoutNamespaces(this XNode source)
        {
            return
                source is XElement
                    ? WithoutNamespaces((XElement)source)
                    : source;
        }
    }
}
share|improve this answer

user892217's answer is almost correct. It won't compile as is, so needs a slight correction to the recursive call:

private static XElement RemoveAllNamespaces(XElement xmlDocument)
{
    XElement xElement;

    if (!xmlDocument.HasElements)
    {
        xElement = new XElement(xmlDocument.Name.LocalName) { Value = xmlDocument.Value };
    }
    else
    {
        xElement = new XElement(xmlDocument.Name.LocalName, xmlDocument.Elements().Select(x => RemoveAllNamespaces(x)));
    }

    foreach (var attribute in xmlDocument.Attributes())
    {
        if (!attribute.IsNamespaceDeclaration)
        {
            xElement.Add(attribute);
        }
    }

    return xElement;
}
share|improve this answer

Without resorting to an XSLT-based solution, if you want clean, elegant and smart, you'd need some support from the framework, in particular, the visitor pattern could make this a breeze. Unfortunately, it's not available here.

I've implemented it inspired by LINQ's ExpressionVisitor to have a similar structure to it. With this, you can apply the visitor pattern to (LINQ-to-) XML objects. (I've done limited testing on this but it works well as far as I can tell)

public abstract class XObjectVisitor
{
    public virtual XObject Visit(XObject node)
    {
        if (node != null)
            return node.Accept(this);
        return node;
    }

    public ReadOnlyCollection<XObject> Visit(IEnumerable<XObject> nodes)
    {
        return nodes.Select(node => Visit(node))
            .Where(node => node != null)
            .ToList()
            .AsReadOnly();
    }

    public T VisitAndConvert<T>(T node) where T : XObject
    {
        if (node != null)
            return Visit(node) as T;
        return node;
    }

    public ReadOnlyCollection<T> VisitAndConvert<T>(IEnumerable<T> nodes) where T : XObject
    {
        return nodes.Select(node => VisitAndConvert(node))
            .Where(node => node != null)
            .ToList()
            .AsReadOnly();
    }

    protected virtual XObject VisitAttribute(XAttribute node)
    {
        return node.Update(node.Name, node.Value);
    }

    protected virtual XObject VisitComment(XComment node)
    {
        return node.Update(node.Value);
    }

    protected virtual XObject VisitDocument(XDocument node)
    {
        return node.Update(
            node.Declaration,
            VisitAndConvert(node.Nodes())
        );
    }

    protected virtual XObject VisitElement(XElement node)
    {
        return node.Update(
            node.Name,
            VisitAndConvert(node.Attributes()),
            VisitAndConvert(node.Nodes())
        );
    }

    protected virtual XObject VisitDocumentType(XDocumentType node)
    {
        return node.Update(
            node.Name,
            node.PublicId,
            node.SystemId,
            node.InternalSubset
        );
    }

    protected virtual XObject VisitProcessingInstruction(XProcessingInstruction node)
    {
        return node.Update(
            node.Target,
            node.Data
        );
    }

    protected virtual XObject VisitText(XText node)
    {
        return node.Update(node.Value);
    }

    protected virtual XObject VisitCData(XCData node)
    {
        return node.Update(node.Value);
    }

    #region Implementation details
    internal InternalAccessor Accessor
    {
        get { return new InternalAccessor(this); }
    }

    internal class InternalAccessor
    {
        private XObjectVisitor visitor;
        internal InternalAccessor(XObjectVisitor visitor) { this.visitor = visitor; }

        internal XObject VisitAttribute(XAttribute node) { return visitor.VisitAttribute(node); }
        internal XObject VisitComment(XComment node) { return visitor.VisitComment(node); }
        internal XObject VisitDocument(XDocument node) { return visitor.VisitDocument(node); }
        internal XObject VisitElement(XElement node) { return visitor.VisitElement(node); }
        internal XObject VisitDocumentType(XDocumentType node) { return visitor.VisitDocumentType(node); }
        internal XObject VisitProcessingInstruction(XProcessingInstruction node) { return visitor.VisitProcessingInstruction(node); }
        internal XObject VisitText(XText node) { return visitor.VisitText(node); }
        internal XObject VisitCData(XCData node) { return visitor.VisitCData(node); }
    }
    #endregion
}

public static class XObjectVisitorExtensions
{
    #region XObject.Accept "instance" method
    public static XObject Accept(this XObject node, XObjectVisitor visitor)
    {
        Validation.CheckNullReference(node);
        Validation.CheckArgumentNull(visitor, "visitor");

        // yay, easy dynamic dispatch
        Acceptor acceptor = new Acceptor(node as dynamic);
        return acceptor.Accept(visitor);
    }
    private class Acceptor
    {
        public Acceptor(XAttribute node) : this(v => v.Accessor.VisitAttribute(node)) { }
        public Acceptor(XComment node) : this(v => v.Accessor.VisitComment(node)) { }
        public Acceptor(XDocument node) : this(v => v.Accessor.VisitDocument(node)) { }
        public Acceptor(XElement node) : this(v => v.Accessor.VisitElement(node)) { }
        public Acceptor(XDocumentType node) : this(v => v.Accessor.VisitDocumentType(node)) { }
        public Acceptor(XProcessingInstruction node) : this(v => v.Accessor.VisitProcessingInstruction(node)) { }
        public Acceptor(XText node) : this(v => v.Accessor.VisitText(node)) { }
        public Acceptor(XCData node) : this(v => v.Accessor.VisitCData(node)) { }

        private Func<XObjectVisitor, XObject> accept;
        private Acceptor(Func<XObjectVisitor, XObject> accept) { this.accept = accept; }

        public XObject Accept(XObjectVisitor visitor) { return accept(visitor); }
    }
    #endregion

    #region XObject.Update "instance" method
    public static XObject Update(this XAttribute node, XName name, string value)
    {
        Validation.CheckNullReference(node);
        Validation.CheckArgumentNull(name, "name");
        Validation.CheckArgumentNull(value, "value");

        return new XAttribute(name, value);
    }
    public static XObject Update(this XComment node, string value = null)
    {
        Validation.CheckNullReference(node);

        return new XComment(value);
    }
    public static XObject Update(this XDocument node, XDeclaration declaration = null, params object[] content)
    {
        Validation.CheckNullReference(node);

        return new XDocument(declaration, content);
    }
    public static XObject Update(this XElement node, XName name, params object[] content)
    {
        Validation.CheckNullReference(node);
        Validation.CheckArgumentNull(name, "name");

        return new XElement(name, content);
    }
    public static XObject Update(this XDocumentType node, string name, string publicId = null, string systemId = null, string internalSubset = null)
    {
        Validation.CheckNullReference(node);
        Validation.CheckArgumentNull(name, "name");

        return new XDocumentType(name, publicId, systemId, internalSubset);
    }
    public static XObject Update(this XProcessingInstruction node, string target, string data)
    {
        Validation.CheckNullReference(node);
        Validation.CheckArgumentNull(target, "target");
        Validation.CheckArgumentNull(data, "data");

        return new XProcessingInstruction(target, data);
    }
    public static XObject Update(this XText node, string value = null)
    {
        Validation.CheckNullReference(node);

        return new XText(value);
    }
    public static XObject Update(this XCData node, string value = null)
    {
        Validation.CheckNullReference(node);

        return new XCData(value);
    }
    #endregion
}

public static class Validation
{
    public static void CheckNullReference<T>(T obj) where T : class
    {
        if (obj == null)
            throw new NullReferenceException();
    }

    public static void CheckArgumentNull<T>(T obj, string paramName) where T : class
    {
        if (obj == null)
            throw new ArgumentNullException(paramName);
    }
}

p.s., this particular implementation uses some .NET 4 features to make implementation a bit easier/cleaner (usage of dynamic and default arguments). It shouldn't be too dificult to make it .NET 3.5 compatible, perhaps even .NET 2.0 compatible.

Then to implement the visitor, here's a generalized one that can change multiple namespaces (and the prefix used).

public class ChangeNamespaceVisitor : XObjectVisitor
{
    private INamespaceMappingManager manager;
    public ChangeNamespaceVisitor(INamespaceMappingManager manager)
    {
        Validation.CheckArgumentNull(manager, "manager");

        this.manager = manager;
    }

    protected INamespaceMappingManager Manager { get { return manager; } }

    private XName ChangeNamespace(XName name)
    {
        var mapping = Manager.GetMapping(name.Namespace);
        return mapping.ChangeNamespace(name);
    }

    private XObject ChangeNamespaceDeclaration(XAttribute node)
    {
        var mapping = Manager.GetMapping(node.Value);
        return mapping.ChangeNamespaceDeclaration(node);
    }

    protected override XObject VisitAttribute(XAttribute node)
    {
        if (node.IsNamespaceDeclaration)
            return ChangeNamespaceDeclaration(node);
        return node.Update(ChangeNamespace(node.Name), node.Value);
    }

    protected override XObject VisitElement(XElement node)
    {
        return node.Update(
            ChangeNamespace(node.Name),
            VisitAndConvert(node.Attributes()),
            VisitAndConvert(node.Nodes())
        );
    }
}

// and all the gory implementation details
public class NamespaceMappingManager : INamespaceMappingManager
{
    private Dictionary<XNamespace, INamespaceMapping> namespaces = new Dictionary<XNamespace, INamespaceMapping>();

    public NamespaceMappingManager Add(XNamespace fromNs, XNamespace toNs, string toPrefix = null)
    {
        var item = new NamespaceMapping(fromNs, toNs, toPrefix);
        namespaces.Add(item.FromNs, item);
        return this;
    }

    public INamespaceMapping GetMapping(XNamespace fromNs)
    {
        INamespaceMapping mapping;
        if (!namespaces.TryGetValue(fromNs, out mapping))
            mapping = new NullMapping();
        return mapping;
    }

    private class NullMapping : INamespaceMapping
    {
        public XName ChangeNamespace(XName name)
        {
            return name;
        }

        public XObject ChangeNamespaceDeclaration(XAttribute node)
        {
            return node.Update(node.Name, node.Value);
        }
    }

    private class NamespaceMapping : INamespaceMapping
    {
        private XNamespace fromNs;
        private XNamespace toNs;
        private string toPrefix;
        public NamespaceMapping(XNamespace fromNs, XNamespace toNs, string toPrefix = null)
        {
            this.fromNs = fromNs ?? "";
            this.toNs = toNs ?? "";
            this.toPrefix = toPrefix;
        }

        public XNamespace FromNs { get { return fromNs; } }
        public XNamespace ToNs { get { return toNs; } }
        public string ToPrefix { get { return toPrefix; } }

        public XName ChangeNamespace(XName name)
        {
            return name.Namespace == fromNs
                ? toNs + name.LocalName
                : name;
        }

        public XObject ChangeNamespaceDeclaration(XAttribute node)
        {
            if (node.Value == fromNs.NamespaceName)
            {
                if (toNs == XNamespace.None)
                    return null;
                var xmlns = !String.IsNullOrWhiteSpace(toPrefix)
                    ? (XNamespace.Xmlns + toPrefix)
                    : node.Name;
                return node.Update(xmlns, toNs.NamespaceName);
            }
            return node.Update(node.Name, node.Value);
        }
    }
}

public interface INamespaceMappingManager
{
    INamespaceMapping GetMapping(XNamespace fromNs);
}

public interface INamespaceMapping
{
    XName ChangeNamespace(XName name);
    XObject ChangeNamespaceDeclaration(XAttribute node);
}

And a little helper method to get the ball rolling:

T ChangeNamespace<T>(T node, XNamespace fromNs, XNamespace toNs, string toPrefix = null) where T : XObject
{
    return node.Accept(
        new ChangeNamespaceVisitor(
            new NamespaceMappingManager()
                .Add(fromNs, toNs, toPrefix)
        )
    ) as T;
}

Then to remove a namespace, you could call it like so:

var doc = ChangeNamespace(XDocument.Load(pathToXml),
    fromNs: "http://schema.peters.com/doc_353/1/Types",
    toNs: null);

Using this visitor, you can write a INamespaceMappingManager to remove all namespaces.

T RemoveAllNamespaces<T>(T node) where T : XObject
{
    return node.Accept(
        new ChangeNamespaceVisitor(new RemoveNamespaceMappingManager())
    ) as T;
}

public class RemoveNamespaceMappingManager : INamespaceMappingManager
{
    public INamespaceMapping GetMapping(XNamespace fromNs)
    {
        return new RemoveNamespaceMapping();
    }

    private class RemoveNamespaceMapping : INamespaceMapping
    {
        public XName ChangeNamespace(XName name)
        {
            return name.LocalName;
        }

        public XObject ChangeNamespaceDeclaration(XAttribute node)
        {
            return null;
        }
    }
}
share|improve this answer

Simple solution that actually renames the elements in-place, not creating a copy, and does a pretty good job of replacing the attributes.

public void RemoveAllNamespaces(ref XElement value)
{
  List<XAttribute> attributesToRemove = new List<XAttribute>();
  foreach (void e_loopVariable in value.DescendantsAndSelf) {
    e = e_loopVariable;
    if (e.Name.Namespace != XNamespace.None) {
      e.Name = e.Name.LocalName;
    }
    foreach (void a_loopVariable in e.Attributes) {
      a = a_loopVariable;
      if (a.IsNamespaceDeclaration) {
        //do not keep it at all
        attributesToRemove.Add(a);
      } else if (a.Name.Namespace != XNamespace.None) {
        e.SetAttributeValue(a.Name.LocalName, a.Value);
        attributesToRemove.Add(a);
      }
    }
  }
  foreach (void a_loopVariable in attributesToRemove) {
    a = a_loopVariable;
    a.Remove();
  }
}

Note: this does not always preserve original attribute order, but I'm sure you could change it to do that pretty easily if it's important to you.

Also note that this also could throw an exception, if you had an XElement attributes that are only unique with the namespace, like:

<root xmlns:ns1="a" xmlns:ns2="b">
    <elem ns1:dupAttrib="" ns2:dupAttrib="" />
</root>

which really seems like an inherent problem. But since the question indicated outputing a String, not an XElement, in this case you could have a solution that would output a valid String that was an invalid XElement.

I also liked jocull's answer using a custom XmlWriter, but when I tried it, it did not work for me. Although it all looks correct, I couldn't tell if the XmlNoNamespaceWriter class had any effect at all; it definitely was not removing the namespaces as I wanted it to.

share|improve this answer

I think this is shortest answer(but for constuctions like , you will have another discussion, I also have regex to convert "<bcm:info></bcm:info>" to "<info></info>" but it wasn't optimized, If someone ask me I will share it. So, my solution is:

    public string RemoveAllNamespaces(string xmlDocument)
    {
        return Regex.Replace(xmlDocument, @"\sxmlns(\u003A\w+)?\u003D\u0022.+\u0022", " ");
    }
share|improve this answer

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