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I'm currently searching for an easy way to serialize objects (in C# 3).

I googled some examples and came up with something like:

MemoryStream memoryStream = new MemoryStream ( );
XmlSerializer xs = new XmlSerializer ( typeof ( MyObject) );
XmlTextWriter xmlTextWriter = new XmlTextWriter ( memoryStream, Encoding.UTF8 );
xs.Serialize ( xmlTextWriter, myObject);
string result = Encoding.UTF8.GetString(memoryStream .ToArray());

After reading this question I asked myself, why not using StringWriter? It seems much easier.

XmlSerializer ser = new XmlSerializer(typeof(MyObject));
StringWriter writer = new StringWriter();
ser.Serialize(writer, myObject);
serializedValue = writer.ToString();

Another Problem was, that the first example generated XML I could not just write into an XML column of SQL Server 2005 DB.

The first question is: Is there a reason why I shouldn't use StringWriter to serialize an Object when I need it as a string afterwards? I never found a result using StringWriter when googling.

The second is, of course: If you should not do it with StringWriter (for whatever reasons), which would be a good and correct way?


Addition:

As it was already mentioned by both answers, I'll further go into the XML to DB problem.

When writing to the Database I got the following exception:

System.Data.SqlClient.SqlException: XML parsing: line 1, character 38, unable to switch the encoding

For string

<?xml version="1.0" encoding="utf-8"?><test/>

I took the string created from the XmlTextWriter and just put as xml there. This one did not work (neither with manual insertion into the DB).

Afterwards I tried manual insertion (just writing INSERT INTO ... ) with encoding="utf-16" which also failed. Removing the encoding totally worked then. After that result I switched back to the StringWriter code and viola - it worked.

Problem: I don't really understand why.

at Christian Hayter: With those tests I'm not sure that I have to use utf-16 to write to the DB. Wouldn't setting the encoding to UTF-16 (in the xml tag) work then?

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1  
I'm going on personal experience. SQL Server only accepts UTF-16, and if you pass it anything else, you are at the mercy of the SQL Server XML parser and its attempts to convert the data. Rather than attempting to find a way of fooling it, I just pass it UTF-16 directly, which will always work. –  Christian Hayter Oct 14 '09 at 8:23
    
How are you writing this to the database? Are you passing it a string, or an array of bytes, or writing to a stream? If it's either of the latter two forms, you need to make sure that your declared encoding matches the actual encoding of your binary data. –  Jon Skeet Oct 14 '09 at 8:27
    
phew. The manual try I made as Query in the MS SQL Management Studio. The "coded" tries were written to a string which was then passed to an O/R Mapper which writes as a string (as far as I could follow). In fact I'm passing it the string that was created in the two examples given in my question. –  StampedeXV Oct 14 '09 at 8:33
    
FYI to readers - near duplicates: stackoverflow.com/questions/384974/… and stackoverflow.com/questions/3760788/… –  ziesemer Jan 25 '12 at 4:58

5 Answers 5

up vote 76 down vote accepted

When serialising an XML document to a .NET string, the encoding must be set to UTF-16. Strings are stored as UTF-16 internally, so this is the only encoding that makes sense. If you want to store data in a different encoding, you use a byte array instead.

SQL Server works on a similar principle; any string passed into an xml column must be encoded as UTF-16. SQL Server will reject any string where the XML declaration does not specify UTF-16. If the XML declaration is not present, then the XML standard requires that it default to UTF-8, so SQL Server will reject that as well.

Bearing this in mind, here are some utility methods for doing the conversion.

public static string Serialize<T>(T value) {

    if(value == null) {
        return null;
    }

    XmlSerializer serializer = new XmlSerializer(typeof(T));

    XmlWriterSettings settings = new XmlWriterSettings();
    settings.Encoding = new UnicodeEncoding(false, false); // no BOM in a .NET string
    settings.Indent = false;
    settings.OmitXmlDeclaration = false;

    using(StringWriter textWriter = new StringWriter()) {
        using(XmlWriter xmlWriter = XmlWriter.Create(textWriter, settings)) {
            serializer.Serialize(xmlWriter, value);
        }
        return textWriter.ToString();
    }
}

public static T Deserialize<T>(string xml) {

    if(string.IsNullOrEmpty(xml)) {
        return default(T);
    }

    XmlSerializer serializer = new XmlSerializer(typeof(T));

    XmlReaderSettings settings = new XmlReaderSettings();
    // No settings need modifying here

    using(StringReader textReader = new StringReader(xml)) {
        using(XmlReader xmlReader = XmlReader.Create(textReader, settings)) {
            return (T) serializer.Deserialize(xmlReader);
        }
    }
}
share|improve this answer
    
See question addition. I don't understand my test results, it seems to contradict your statement that the DB always wants/takes/needs UTF-16. –  StampedeXV Oct 14 '09 at 8:21
6  
You don't have to encode as UTF-16 - but you have to make sure that the encoding you use matches what the StringWriter expects. See my answer. The internal storage format is irrelevant here. –  Jon Skeet Oct 14 '09 at 8:26
    
ok that I understand. In my new example: leaving the encoding completely out made the DB decide for itself which encoding was used - thats why it worked. Do I understand it correct now? –  StampedeXV Oct 14 '09 at 8:30
    
or as Christian sais: it decides which is used and then converts it to UTF-16 –  StampedeXV Oct 14 '09 at 8:41
1  
@SteveC: Sorry, my mistake. I hand-converted the code from VB, in which Nothing is implicitly convertible to any type. I have corrected the Deserialize code. The Serialize warning must be a Resharper-only thing, the compiler on its own doesn't object and it is legal to do. –  Christian Hayter Feb 9 '11 at 15:43

One problem with StringWriter is that by default it doesn't let you set the encoding which it advertises - so you can end up with an XML document advertising its encoding as UTF-16, which means you need to encode it as UTF-16 if you write it to a file. I have a small class to help with that though:

public sealed class StringWriterWithEncoding : StringWriter
{
    private readonly Encoding encoding;

    public StringWriterWithEncoding (Encoding encoding)
    {
        this.encoding = encoding;
    }

    public override Encoding Encoding
    {
        get { return encoding; }
    }
}

Or if you only need UTF-8 (which is all I often need):

public sealed class Utf8StringWriter : StringWriter
{
    public override Encoding Encoding { get { return Encoding.UTF8; } }
}

As for why you couldn't save your XML to the database - you'll have to give us more details about what happened when you tried, if you want us to be able to diagnose/fix it.

share|improve this answer
    
I went into more detail for the database problem now. See question. –  StampedeXV Oct 14 '09 at 8:21
2  
Sad the StringWriter doesn't take into account the encoding, but never the less, thanks for a nifty little method :) –  Chau Apr 12 '11 at 12:40
    
Thanks for the Utf8StringWriter exactly what I was after. –  Nick Josevski Sep 6 '12 at 13:55
    
Just what I was looking for ! Thanks a lot :D –  Ethenyl Nov 9 '12 at 9:09
    
And "XML parsing: line 1, character 38, unable to switch the encoding" can be solved by "settings.Indent = false; settings.OmitXmlDeclaration = false; " –  Be Humble Dec 16 at 3:02

First of all, beware of finding old examples. You've found one that uses XmlTextWriter, which is deprecated as of .NET 2.0. XmlWriter.Create should be used instead.

Here's an example of serializing an object into an XML column:

public void SerializeToXmlColumn(object obj)
{
    using (var outputStream = new MemoryStream())
    {
        using (var writer = XmlWriter.Create(outputStream))
        {
            var serializer = new XmlSerializer(obj.GetType());
            serializer.Serialize(writer, obj);
        }

        outputStream.Position = 0;
        using (var conn = new SqlConnection(Settings.Default.ConnectionString))
        {
            conn.Open();

            const string INSERT_COMMAND = @"INSERT INTO XmlStore (Data) VALUES (@Data)";
            using (var cmd = new SqlCommand(INSERT_COMMAND, conn))
            {
                using (var reader = XmlReader.Create(outputStream))
                {
                    var xml = new SqlXml(reader);

                    cmd.Parameters.Clear();
                    cmd.Parameters.AddWithValue("@Data", xml);
                    cmd.ExecuteNonQuery();
                }
            }
        }
    }
}
share|improve this answer
    
I can only vote this up once, but this deserves to be the top answer here. In the end, it doesn't matter what encoding is declared or used, as long as the XmlReader can parse it. It will be sent pre-parsed to the database, and then the DB doesn't need to know anything about character encodings - UTF-16 or otherwise. In particular, note that the XML declarations aren't even persisted with the data in the database, regardless of which method is used to insert it. Please don't make waste by running XML through extra conversions, as shown in other answers here and elsewhere. –  ziesemer Jan 25 '12 at 4:57
    
See also: stackoverflow.com/a/8998183/751158 –  ziesemer Jan 25 '12 at 5:19
public static T DeserializeFromXml<T>(string xml)
{
    T result;
    XmlSerializerFactory serializerFactory = new XmlSerializerFactory();
    XmlSerializer serializer =serializerFactory.CreateSerializer(typeof(T));

    using (StringReader sr3 = new StringReader(xml))
    {
        XmlReaderSettings settings = new XmlReaderSettings()
        {
            CheckCharacters = false // default value is true;
        };

        using (XmlReader xr3 = XmlTextReader.Create(sr3, settings))
        {
            result = (T)serializer.Deserialize(xr3);
        }
    }

    return result;
}
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It may have been covered elsewhere but simply changing the encoding line of the XML source to 'utf-16' allows the XML to be inserted into a SQL Server 'xml'data type.

using (DataSetTableAdapters.SQSTableAdapter tbl_SQS = new DataSetTableAdapters.SQSTableAdapter())
{
    try
    {
        bodyXML = @"<?xml version="1.0" encoding="UTF-8" standalone="yes"?><test></test>";
        bodyXMLutf16 = bodyXML.Replace("UTF-8", "UTF-16");
        tbl_SQS.Insert(messageID, receiptHandle, md5OfBody, bodyXMLutf16, sourceType);
    }
    catch (System.Data.SqlClient.SqlException ex)
    {
        Console.WriteLine(ex.Message);
        Console.ReadLine();
    }
}

The result is all of the XML text is inserted into the 'xml' data type field but the 'header' line is removed. What you see in the resulting record is just

<test></test>

Using the serialization method described in the "Answered" entry is a way of including the original header in the target field but the result is that the remaining XML text is enclosed in an XML <string></string> tag.

The table adapter in the code is a class automatically built using the Visual Studio 2013 "Add New Data Source: wizard. The five parameters to the Insert method map to fields in a SQL Server table.

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