XmlWriter.cs source code in C# .NET

Source code for the .NET framework in C#

                        

Code:

/ 4.0 / 4.0 / untmp / DEVDIV_TFS / Dev10 / Releases / RTMRel / ndp / fx / src / Xml / System / Xml / Core / XmlWriter.cs / 1305376 / XmlWriter.cs

                            //------------------------------------------------------------------------------ 
// 
//     Copyright (c) Microsoft Corporation.  All rights reserved.
// 
// [....] 
//-----------------------------------------------------------------------------
using System; 
using System.IO; 
using System.Text;
#if !SILVERLIGHT 
using System.Xml.XPath;
#endif
using System.Xml.Schema;
using System.Diagnostics; 
using System.Collections.Generic;
using System.Globalization; 
using System.Runtime.Versioning; 

namespace System.Xml { 

    // Specifies the state of the XmlWriter.
    public enum WriteState {
        // Nothing has been written yet. 
        Start,
 
        // Writing the prolog. 
        Prolog,
 
        // Writing a the start tag for an element.
        Element,

        // Writing an attribute value. 
        Attribute,
 
        // Writing element content. 
        Content,
 
        // XmlWriter is closed; Close has been called.
        Closed,

        // Writer is in error state. 
        Error,
    }; 
 
    // Represents a writer that provides fast non-cached forward-only way of generating XML streams containing XML documents
    // that conform to the W3C Extensible Markup Language (XML) 1.0 specification and the Namespaces in XML specification. 
    public abstract class XmlWriter : IDisposable {

        // Helper buffer for WriteNode(XmlReader, bool)
        char[] writeNodeBuffer; 

        // Constants 
        const int WriteNodeBufferSize = 1024; 

        // Returns the settings describing the features of the the writer. Returns null for V1 XmlWriters (XmlTextWriter). 
        public virtual XmlWriterSettings Settings {
            get {
                return null;
            } 
        }
 
        // Write methods 
        // Writes out the XML declaration with the version "1.0".
        public abstract void WriteStartDocument(); 

        //Writes out the XML declaration with the version "1.0" and the speficied standalone attribute.
        public abstract void WriteStartDocument(bool standalone);
 
        //Closes any open elements or attributes and puts the writer back in the Start state.
        public abstract void WriteEndDocument(); 
 
        // Writes out the DOCTYPE declaration with the specified name and optional attributes.
        public abstract void WriteDocType(string name, string pubid, string sysid, string subset); 

        // Writes out the specified start tag and associates it with the given namespace.
        public void WriteStartElement(string localName, string ns) {
            WriteStartElement(null, localName, ns); 
        }
 
        // Writes out the specified start tag and associates it with the given namespace and prefix. 
        public abstract void WriteStartElement(string prefix, string localName, string ns);
 
        // Writes out a start tag with the specified local name with no namespace.
        public void WriteStartElement(string localName) {
            WriteStartElement(null, localName, (string)null);
        } 

        // Closes one element and pops the corresponding namespace scope. 
        public abstract void WriteEndElement(); 

        // Closes one element and pops the corresponding namespace scope. Writes out a full end element tag, e.g. . 
        public abstract void WriteFullEndElement();

        // Writes out the attribute with the specified LocalName, value, and NamespaceURI.
        [System.Runtime.TargetedPatchingOptOutAttribute("Performance critical to inline across NGen image boundaries")] 
        public void WriteAttributeString(string localName, string ns, string value) {
            WriteStartAttribute(null, localName, ns); 
            WriteString(value); 
            WriteEndAttribute();
        } 

        // Writes out the attribute with the specified LocalName and value.
        public void WriteAttributeString(string localName, string value) {
            WriteStartAttribute(null, localName, (string)null); 
            WriteString(value);
            WriteEndAttribute(); 
        } 

        // Writes out the attribute with the specified prefix, LocalName, NamespaceURI and value. 
        public void WriteAttributeString(string prefix, string localName, string ns, string value) {
            WriteStartAttribute(prefix, localName, ns);
            WriteString(value);
            WriteEndAttribute(); 
        }
 
        // Writes the start of an attribute. 
        public void WriteStartAttribute(string localName, string ns) {
            WriteStartAttribute(null, localName, ns); 
        }

        // Writes the start of an attribute.
        public abstract void WriteStartAttribute(string prefix, string localName, string ns); 

        // Writes the start of an attribute. 
        public void WriteStartAttribute(string localName) { 
            WriteStartAttribute(null, localName, (string)null);
        } 

        // Closes the attribute opened by WriteStartAttribute call.
        public abstract void WriteEndAttribute();
 
        // Writes out a ; block containing the specified text.
        public abstract void WriteCData(string text); 
 
        // Writes out a comment ; containing the specified text.
        public abstract void WriteComment(string text); 

        // Writes out a processing instruction with a space between the name and text as follows: 
        public abstract void WriteProcessingInstruction(string name, string text);
 
        // Writes out an entity reference as follows: "&"+name+";".
        public abstract void WriteEntityRef(string name); 
 
        // Forces the generation of a character entity for the specified Unicode character value.
        public abstract void WriteCharEntity(char ch); 

        // Writes out the given whitespace.
        public abstract void WriteWhitespace(string ws);
 
        // Writes out the specified text content.
        public abstract void WriteString(string text); 
 
        // Write out the given surrogate pair as an entity reference.
        public abstract void WriteSurrogateCharEntity(char lowChar, char highChar); 

        // Writes out the specified text content.
        public abstract void WriteChars(char[] buffer, int index, int count);
 
        // Writes raw markup from the given character buffer.
        public abstract void WriteRaw(char[] buffer, int index, int count); 
 
        // Writes raw markup from the given string.
        public abstract void WriteRaw(string data); 

        // Encodes the specified binary bytes as base64 and writes out the resulting text.
        public abstract void WriteBase64(byte[] buffer, int index, int count);
 
        // Encodes the specified binary bytes as binhex and writes out the resulting text.
        public virtual void WriteBinHex(byte[] buffer, int index, int count) { 
            BinHexEncoder.Encode(buffer, index, count, this); 
        }
 
        // Returns the state of the XmlWriter.
        public abstract WriteState WriteState { get; }

        // Closes the XmlWriter and the underlying stream/TextReader (if Settings.CloseOutput is true). 
        public abstract void Close();
 
        // Flushes data that is in the internal buffers into the underlying streams/TextReader and flushes the stream/TextReader. 
        public abstract void Flush();
 
        // Returns the closest prefix defined in the current namespace scope for the specified namespace URI.
        public abstract string LookupPrefix(string ns);

        // Gets an XmlSpace representing the current xml:space scope. 
        public virtual XmlSpace XmlSpace {
            get { 
                return XmlSpace.Default; 
            }
        } 

        // Gets the current xml:lang scope.
        public virtual string XmlLang {
            get { 
                return string.Empty;
            } 
        } 

        // Scalar Value Methods 

        // Writes out the specified name, ensuring it is a valid NmToken according to the XML specification
        // (http://www.w3.org/TR/1998/REC-xml-19980210#NT-Name).
        public virtual void WriteNmToken(string name) { 
            if (name == null || name.Length == 0) {
                throw new ArgumentException(Res.GetString(Res.Xml_EmptyName)); 
            } 
            WriteString(XmlConvert.VerifyNMTOKEN(name, ExceptionType.ArgumentException));
        } 

        // Writes out the specified name, ensuring it is a valid Name according to the XML specification
        // (http://www.w3.org/TR/1998/REC-xml-19980210#NT-Name).
        public virtual void WriteName(string name) { 
            WriteString(XmlConvert.VerifyQName(name, ExceptionType.ArgumentException));
        } 
 
        // Writes out the specified namespace-qualified name by looking up the prefix that is in scope for the given namespace.
        public virtual void WriteQualifiedName(string localName, string ns) { 
            if (ns != null && ns.Length > 0) {
                string prefix = LookupPrefix(ns);
                if (prefix == null) {
                    throw new ArgumentException(Res.GetString(Res.Xml_UndefNamespace, ns)); 
                }
                WriteString(prefix); 
                WriteString(":"); 
            }
            WriteString(localName); 
        }

        // Writes out the specified value.
        public virtual void WriteValue(object value) { 
            if (value == null) {
                throw new ArgumentNullException("value"); 
            } 
#if SILVERLIGHT
            WriteString(XmlUntypedStringConverter.Instance.ToString(value, null)); 
#else
            WriteString(XmlUntypedConverter.Untyped.ToString(value, null));
#endif
        } 

        // Writes out the specified value. 
        public virtual void WriteValue(string value) { 
            if (value == null) {
                return; 
            }
            WriteString(value);
        }
 
        // Writes out the specified value.
        public virtual void WriteValue(bool value) { 
            WriteString(XmlConvert.ToString(value)); 
        }
 
        // Writes out the specified value.
        public virtual void WriteValue(DateTime value) {
            WriteString(XmlConvert.ToString(value, XmlDateTimeSerializationMode.RoundtripKind));
        } 

        // Writes out the specified value. 
        public virtual void WriteValue(double value) { 
            WriteString(XmlConvert.ToString(value));
        } 

        // Writes out the specified value.
        public virtual void WriteValue(float value) {
            WriteString(XmlConvert.ToString(value)); 
        }
 
        // Writes out the specified value. 
        public virtual void WriteValue(decimal value) {
            WriteString(XmlConvert.ToString(value)); 
        }

        // Writes out the specified value.
        public virtual void WriteValue(int value) { 
            WriteString(XmlConvert.ToString(value));
        } 
 
        // Writes out the specified value.
        public virtual void WriteValue(long value) { 
            WriteString(XmlConvert.ToString(value));
        }

        // XmlReader Helper Methods 

        // Writes out all the attributes found at the current position in the specified XmlReader. 
        public virtual void WriteAttributes(XmlReader reader, bool defattr) { 

            if (null == reader) { 
                throw new ArgumentNullException("reader");
            }

            if (reader.NodeType == XmlNodeType.Element || reader.NodeType == XmlNodeType.XmlDeclaration) { 
                if (reader.MoveToFirstAttribute()) {
                    WriteAttributes(reader, defattr); 
                    reader.MoveToElement(); 
                }
            } 
            else if (reader.NodeType != XmlNodeType.Attribute) {
                throw new XmlException(Res.Xml_InvalidPosition, string.Empty);
            }
            else { 
                do {
                    // we need to check both XmlReader.IsDefault and XmlReader.SchemaInfo.IsDefault. 
                    // If either of these is true and defattr=false, we should not write the attribute out 
                    if (defattr || !reader.IsDefaultInternal) {
                        WriteStartAttribute(reader.Prefix, reader.LocalName, reader.NamespaceURI); 
                        while (reader.ReadAttributeValue()) {
                            if (reader.NodeType == XmlNodeType.EntityReference) {
                                WriteEntityRef(reader.Name);
                            } 
                            else {
                                WriteString(reader.Value); 
                            } 
                        }
                        WriteEndAttribute(); 
                    }
                }
                while (reader.MoveToNextAttribute());
            } 
        }
 
        // Copies the current node from the given reader to the writer (including child nodes), and if called on an element moves the XmlReader 
        // to the corresponding end element.
        public virtual void WriteNode(XmlReader reader, bool defattr) { 
            if (null == reader) {
                throw new ArgumentNullException("reader");
            }
 
            bool canReadChunk = reader.CanReadValueChunk;
            int d = reader.NodeType == XmlNodeType.None ? -1 : reader.Depth; 
            do { 
                switch (reader.NodeType) {
                    case XmlNodeType.Element: 
                        WriteStartElement(reader.Prefix, reader.LocalName, reader.NamespaceURI);
                        WriteAttributes(reader, defattr);
                        if (reader.IsEmptyElement) {
                            WriteEndElement(); 
                            break;
                        } 
                        break; 
                    case XmlNodeType.Text:
                        if (canReadChunk) { 
                            if (writeNodeBuffer == null) {
                                writeNodeBuffer = new char[WriteNodeBufferSize];
                            }
                            int read; 
                            while ((read = reader.ReadValueChunk(writeNodeBuffer, 0, WriteNodeBufferSize)) > 0) {
                                this.WriteChars(writeNodeBuffer, 0, read); 
                            } 
                        }
                        else { 
                            WriteString(reader.Value);
                        }
                        break;
                    case XmlNodeType.Whitespace: 
                    case XmlNodeType.SignificantWhitespace:
                        WriteWhitespace(reader.Value); 
                        break; 
                    case XmlNodeType.CDATA:
                        WriteCData(reader.Value); 
                        break;
                    case XmlNodeType.EntityReference:
                        WriteEntityRef(reader.Name);
                        break; 
                    case XmlNodeType.XmlDeclaration:
                    case XmlNodeType.ProcessingInstruction: 
                        WriteProcessingInstruction(reader.Name, reader.Value); 
                        break;
                    case XmlNodeType.DocumentType: 
                        WriteDocType(reader.Name, reader.GetAttribute("PUBLIC"), reader.GetAttribute("SYSTEM"), reader.Value);
                        break;

                    case XmlNodeType.Comment: 
                        WriteComment(reader.Value);
                        break; 
                    case XmlNodeType.EndElement: 
                        WriteFullEndElement();
                        break; 
                }
            } while (reader.Read() && (d < reader.Depth || (d == reader.Depth && reader.NodeType == XmlNodeType.EndElement)));
        }
 
#if !SILVERLIGHT // Removing dependency on XPathNavigator
        // Copies the current node from the given XPathNavigator to the writer (including child nodes). 
        public virtual void WriteNode(XPathNavigator navigator, bool defattr) { 
            if (navigator == null) {
                throw new ArgumentNullException("navigator"); 
            }
            int iLevel = 0;

            navigator = navigator.Clone(); 

            while (true) { 
                bool mayHaveChildren = false; 
                XPathNodeType nodeType = navigator.NodeType;
 
                switch (nodeType) {
                    case XPathNodeType.Element:
                        WriteStartElement(navigator.Prefix, navigator.LocalName, navigator.NamespaceURI);
 
                        // Copy attributes
                        if (navigator.MoveToFirstAttribute()) { 
                            do { 
                                IXmlSchemaInfo schemaInfo = navigator.SchemaInfo;
                                if (defattr || (schemaInfo == null || !schemaInfo.IsDefault)) { 
                                    WriteStartAttribute(navigator.Prefix, navigator.LocalName, navigator.NamespaceURI);
                                    // copy string value to writer
                                    WriteString(navigator.Value);
                                    WriteEndAttribute(); 
                                }
                            } while (navigator.MoveToNextAttribute()); 
                            navigator.MoveToParent(); 
                        }
 
                        // Copy namespaces
                        if (navigator.MoveToFirstNamespace(XPathNamespaceScope.Local)) {
                            WriteLocalNamespaces(navigator);
                            navigator.MoveToParent(); 
                        }
                        mayHaveChildren = true; 
                        break; 
                    case XPathNodeType.Attribute:
                        // do nothing on root level attribute 
                        break;
                    case XPathNodeType.Text:
                        WriteString(navigator.Value);
                        break; 
                    case XPathNodeType.SignificantWhitespace:
                    case XPathNodeType.Whitespace: 
                        WriteWhitespace(navigator.Value); 
                        break;
                    case XPathNodeType.Root: 
                        mayHaveChildren = true;
                        break;
                    case XPathNodeType.Comment:
                        WriteComment(navigator.Value); 
                        break;
                    case XPathNodeType.ProcessingInstruction: 
                        WriteProcessingInstruction(navigator.LocalName, navigator.Value); 
                        break;
                    case XPathNodeType.Namespace: 
                        // do nothing on root level namespace
                        break;
                    default:
                        Debug.Assert(false); 
                        break;
                } 
 
                if (mayHaveChildren) {
                    // If children exist, move down to next level 
                    if (navigator.MoveToFirstChild()) {
                        iLevel++;
                        continue;
                    } 
                    else {
                        // EndElement 
                        if (navigator.NodeType == XPathNodeType.Element) { 
                            if (navigator.IsEmptyElement) {
                                WriteEndElement(); 
                            }
                            else {
                                WriteFullEndElement();
                            } 
                        }
                    } 
                } 

                // No children 
                while (true) {
                    if (iLevel == 0) {
                        // The entire subtree has been copied
                        return; 
                    }
 
                    if (navigator.MoveToNext()) { 
                        // Found a sibling, so break to outer loop
                        break; 
                    }

                    // No siblings, so move up to previous level
                    iLevel--; 
                    navigator.MoveToParent();
 
                    // EndElement 
                    if (navigator.NodeType == XPathNodeType.Element)
                        WriteFullEndElement(); 
                }
            }
        }
#endif 

        // Element Helper Methods 
 
        // Writes out an element with the specified name containing the specified string value.
        public void WriteElementString(string localName, String value) { 
            WriteElementString(localName, null, value);
        }

        // Writes out an attribute with the specified name, namespace URI and string value. 
        public void WriteElementString(string localName, String ns, String value) {
            WriteStartElement(localName, ns); 
            if (null != value && 0 != value.Length) { 
                WriteString(value);
            } 
            WriteEndElement();
        }

        // Writes out an attribute with the specified name, namespace URI, and string value. 
        public void WriteElementString(string prefix, String localName, String ns, String value) {
            WriteStartElement(prefix, localName, ns); 
            if (null != value && 0 != value.Length) { 
                WriteString(value);
            } 
            WriteEndElement();
        }

        void IDisposable.Dispose() { 
            Dispose(true);
        } 
 
        // Dispose the underline stream objects (calls Close on the XmlWriter)
        protected virtual void Dispose(bool disposing) { 
            if (disposing && WriteState != WriteState.Closed) {
                Close();
            }
        } 

#if !SILVERLIGHT // Removing dependency on XPathNavigator 
        // Copy local namespaces on the navigator's current node to the raw writer. The namespaces are returned by the navigator in reversed order. 
        // The recursive call reverses them back.
        private void WriteLocalNamespaces(XPathNavigator nsNav) { 
            string prefix = nsNav.LocalName;
            string ns = nsNav.Value;

            if (nsNav.MoveToNextNamespace(XPathNamespaceScope.Local)) { 
                WriteLocalNamespaces(nsNav);
            } 
 
            if (prefix.Length == 0) {
                WriteAttributeString(string.Empty, "xmlns", XmlReservedNs.NsXmlNs, ns); 
            }
            else {
                WriteAttributeString("xmlns", prefix, XmlReservedNs.NsXmlNs, ns);
            } 
        }
#endif 
 
        //
        // Static methods for creating writers 
        //
#if !SILVERLIGHT
        // Creates an XmlWriter for writing into the provided file.
        [ResourceConsumption(ResourceScope.Machine)] 
        [ResourceExposure(ResourceScope.Machine)]
        public static XmlWriter Create(string outputFileName) { 
            return Create(outputFileName, null); 
        }
 
        // Creates an XmlWriter for writing into the provided file with the specified settings.
        [ResourceConsumption(ResourceScope.Machine)]
        [ResourceExposure(ResourceScope.Machine)]
        public static XmlWriter Create(string outputFileName, XmlWriterSettings settings) { 
            if (settings == null) {
                settings = new XmlWriterSettings(); 
            } 
            return settings.CreateWriter(outputFileName);
        } 
#endif

        // Creates an XmlWriter for writing into the provided stream.
        public static XmlWriter Create(Stream output) { 
            return Create(output, null);
        } 
 
        // Creates an XmlWriter for writing into the provided stream with the specified settings.
        public static XmlWriter Create(Stream output, XmlWriterSettings settings) { 
            if (settings == null) {
                settings = new XmlWriterSettings();
            }
            return settings.CreateWriter(output); 
        }
 
        // Creates an XmlWriter for writing into the provided TextWriter. 
        public static XmlWriter Create(TextWriter output) {
            return Create(output, null); 
        }

        // Creates an XmlWriter for writing into the provided TextWriter with the specified settings.
        public static XmlWriter Create(TextWriter output, XmlWriterSettings settings) { 
            if (settings == null) {
                settings = new XmlWriterSettings(); 
            } 
            return settings.CreateWriter(output);
        } 

        // Creates an XmlWriter for writing into the provided StringBuilder.
        public static XmlWriter Create(StringBuilder output) {
            return Create(output, null); 
        }
 
        // Creates an XmlWriter for writing into the provided StringBuilder with the specified settings. 
        public static XmlWriter Create(StringBuilder output, XmlWriterSettings settings) {
            if (settings == null) { 
                settings = new XmlWriterSettings();
            }
            if (output == null) {
                throw new ArgumentNullException("output"); 
            }
            return settings.CreateWriter(new StringWriter(output, CultureInfo.InvariantCulture)); 
        } 

        // Creates an XmlWriter wrapped around the provided XmlWriter with the default settings. 
        public static XmlWriter Create(XmlWriter output) {
            return Create(output, null);
        }
 
        // Creates an XmlWriter wrapped around the provided XmlWriter with the specified settings.
        public static XmlWriter Create(XmlWriter output, XmlWriterSettings settings) { 
            if (settings == null) { 
                settings = new XmlWriterSettings();
            } 
            return settings.CreateWriter(output);
        }
    }
} 


// File provided for Reference Use Only by Microsoft Corporation (c) 2007.
                        

Link Menu

Network programming in C#, Network Programming in VB.NET, Network Programming in .NET
This book is available now!
Buy at Amazon US or
Buy at Amazon UK