// // System.Xml.Schema.XmlSchema.cs // // Author: // Dwivedi, Ajay kumar Adwiv@Yahoo.com // Atsushi Enomoto ginga@kit.hi-ho.ne.jp // using System; using System.Collections; using System.Xml; using System.IO; using System.Xml.Serialization; using System.ComponentModel; namespace System.Xml.Schema { ///

/// Summary description for XmlSchema. ///

[XmlRoot("schema",Namespace=XmlSchema.Namespace)] public class XmlSchema : XmlSchemaObject { //public constants public const string Namespace = "http://www.w3.org/2001/XMLSchema"; public const string InstanceNamespace = "http://www.w3.org/2001/XMLSchema-instance"; //private fields private XmlSchemaForm attributeFormDefault ; private XmlSchemaObjectTable attributeGroups ; private XmlSchemaObjectTable attributes ; private XmlSchemaDerivationMethod blockDefault ; private XmlSchemaForm elementFormDefault ; private XmlSchemaObjectTable elements ; private XmlSchemaDerivationMethod finalDefault ; private XmlSchemaObjectTable groups ; private string id ; private XmlSchemaObjectCollection includes ; private XmlSchemaObjectCollection items ; private XmlSchemaObjectTable notations ; private XmlSchemaObjectTable schemaTypes ; private string targetNamespace ; private XmlAttribute[] unhandledAttributes ; private string version; private string language; // other post schema compilation infoset private Hashtable idCollection; private XmlSchemaObjectTable namedIdentities; private XmlSchemaCollection schemas; private XmlNameTable nameTable; internal bool missedSubComponents; // Only compilation-time use private XmlSchemaObjectCollection compilationItems; private Hashtable handledUris; // Compiler specific things private static string xmlname = "schema"; public XmlSchema() { attributeFormDefault= XmlSchemaForm.None; blockDefault = XmlSchemaDerivationMethod.None; elementFormDefault = XmlSchemaForm.None; finalDefault = XmlSchemaDerivationMethod.None; includes = new XmlSchemaObjectCollection(); isCompiled = false; items = new XmlSchemaObjectCollection(); attributeGroups = new XmlSchemaObjectTable(); attributes = new XmlSchemaObjectTable(); elements = new XmlSchemaObjectTable(); groups = new XmlSchemaObjectTable(); notations = new XmlSchemaObjectTable(); schemaTypes = new XmlSchemaObjectTable(); idCollection = new Hashtable (); namedIdentities = new XmlSchemaObjectTable(); } #region Properties [DefaultValue(XmlSchemaForm.None)] [System.Xml.Serialization.XmlAttribute("attributeFormDefault")] public XmlSchemaForm AttributeFormDefault { get{ return attributeFormDefault; } set{ this.attributeFormDefault = value;} } [DefaultValue(XmlSchemaDerivationMethod.None)] [System.Xml.Serialization.XmlAttribute("blockDefault")] public XmlSchemaDerivationMethod BlockDefault { get{ return blockDefault;} set{ blockDefault = value;} } [DefaultValue(XmlSchemaDerivationMethod.None)] [System.Xml.Serialization.XmlAttribute("finalDefault")] public XmlSchemaDerivationMethod FinalDefault { get{ return finalDefault;} set{ finalDefault = value;} } [DefaultValue(XmlSchemaForm.None)] [System.Xml.Serialization.XmlAttribute("elementFormDefault")] public XmlSchemaForm ElementFormDefault { get{ return elementFormDefault;} set{ elementFormDefault = value;} } [System.Xml.Serialization.XmlAttribute("targetNamespace")] public string TargetNamespace { get{ return targetNamespace;} set{ targetNamespace = value;} } [System.Xml.Serialization.XmlAttribute("version")] public string Version { get{ return version;} set{ version = value;} } [XmlElement("include",typeof(XmlSchemaInclude),Namespace="http://www.w3.org/2001/XMLSchema")] [XmlElement("import",typeof(XmlSchemaImport),Namespace="http://www.w3.org/2001/XMLSchema")] [XmlElement("redefine",typeof(XmlSchemaRedefine),Namespace="http://www.w3.org/2001/XMLSchema")] public XmlSchemaObjectCollection Includes { get{ return includes;} } [XmlElement("simpleType",typeof(XmlSchemaSimpleType),Namespace="http://www.w3.org/2001/XMLSchema")] [XmlElement("complexType",typeof(XmlSchemaComplexType),Namespace="http://www.w3.org/2001/XMLSchema")] [XmlElement("group",typeof(XmlSchemaGroup),Namespace="http://www.w3.org/2001/XMLSchema")] //Only Schema's attributeGroup has type XmlSchemaAttributeGroup. //Others (complextype, restrictions etc) must have XmlSchemaAttributeGroupRef [XmlElement("attributeGroup",typeof(XmlSchemaAttributeGroup),Namespace="http://www.w3.org/2001/XMLSchema")] [XmlElement("element",typeof(XmlSchemaElement),Namespace="http://www.w3.org/2001/XMLSchema")] [XmlElement("attribute",typeof(XmlSchemaAttribute),Namespace="http://www.w3.org/2001/XMLSchema")] [XmlElement("notation",typeof(XmlSchemaNotation),Namespace="http://www.w3.org/2001/XMLSchema")] [XmlElement("annotation",typeof(XmlSchemaAnnotation),Namespace="http://www.w3.org/2001/XMLSchema")] public XmlSchemaObjectCollection Items { get{ return items;} } [XmlIgnore] public bool IsCompiled { get{ return this.CompilationId != Guid.Empty;} } [XmlIgnore] public XmlSchemaObjectTable Attributes { get{ return attributes;} } [XmlIgnore] public XmlSchemaObjectTable AttributeGroups { get{ return attributeGroups; } } [XmlIgnore] public XmlSchemaObjectTable SchemaTypes { get{ return schemaTypes; } } [XmlIgnore] public XmlSchemaObjectTable Elements { get{ return elements;} } [System.Xml.Serialization.XmlAttribute("id")] public string Id { get{ return id;} set{ id = value;} } [XmlAnyAttribute] public XmlAttribute[] UnhandledAttributes { get { if(unhandledAttributeList != null) { unhandledAttributes = (XmlAttribute[]) unhandledAttributeList.ToArray(typeof(XmlAttribute)); unhandledAttributeList = null; } return unhandledAttributes; } set { unhandledAttributes = value; unhandledAttributeList = null; } } [XmlIgnore] public XmlSchemaObjectTable Groups { get{ return groups;} } [XmlIgnore] public XmlSchemaObjectTable Notations { get{ return notations;} } internal Hashtable IDCollection { get { return idCollection; } } internal XmlSchemaObjectTable NamedIdentities { get { return namedIdentities; } } internal XmlSchemaCollection Schemas { get { return schemas; } } #endregion #region Compile // Methods ///

/// This compile method does two things: /// 1. It compiles and fills the PSVI dataset /// 2. Validates the schema by calling Validate method. /// Every XmlSchemaObject has a Compile Method which gets called. ///

/// /// 1. blockDefault must be one of #all | List of (extension | restriction | substitution) /// 2. finalDefault must be one of (#all | List of (extension | restriction| union| list)) /// 3. id must be of type ID /// 4. targetNamespace should be any uri /// 5. version should be a normalizedString /// 6. xml:lang should be a language /// public void Compile (ValidationEventHandler handler) { Compile (handler, new XmlUrlResolver ()); } #if NET_1_0 internal void Compile (ValidationEventHandler handler, XmlResolver resolver) #else public void Compile (ValidationEventHandler handler, XmlResolver resolver) #endif { Compile (handler, new Stack (), this, null, resolver); isCompiled = true; } internal void Compile (ValidationEventHandler handler, XmlSchemaCollection col, XmlResolver resolver) { Compile (handler, new Stack (), this, col, resolver); } private void Compile (ValidationEventHandler handler, Stack schemaLocationStack, XmlSchema rootSchema, XmlSchemaCollection col, XmlResolver resolver) { if (rootSchema != this) { CompilationId = rootSchema.CompilationId; schemas = rootSchema.schemas; } else { schemas = col; if (schemas == null) { schemas = new XmlSchemaCollection (); schemas.SchemaSet.CompilationId = Guid.NewGuid (); } CompilationId = schemas.SchemaSet.CompilationId; this.idCollection.Clear (); } schemas.Add (this); attributeGroups.Clear (); attributes.Clear (); elements.Clear (); groups.Clear (); notations.Clear (); schemaTypes.Clear (); //1. Union and List are not allowed in block default if(BlockDefault != XmlSchemaDerivationMethod.All) { if((BlockDefault & XmlSchemaDerivationMethod.List)!=0 ) error(handler, "list is not allowed in blockDefault attribute"); if((BlockDefault & XmlSchemaDerivationMethod.Union)!=0 ) error(handler, "union is not allowed in blockDefault attribute"); } //2. Substitution is not allowed in finaldefault. if(FinalDefault != XmlSchemaDerivationMethod.All) { if((FinalDefault & XmlSchemaDerivationMethod.Substitution)!=0 ) error(handler, "substitution is not allowed in finalDefault attribute"); } //3. id must be of type ID XmlSchemaUtil.CompileID(Id, this, this.IDCollection, handler); //4. targetNamespace should be of type anyURI or absent if(TargetNamespace != null) { if(!XmlSchemaUtil.CheckAnyUri(TargetNamespace)) error(handler, TargetNamespace+" is not a valid value for targetNamespace attribute of schema"); } //5. version should be of type normalizedString if(!XmlSchemaUtil.CheckNormalizedString(Version)) error(handler, Version + "is not a valid value for version attribute of schema"); //6. xml:lang must be a language // if(!XmlSchemaUtil.CheckLanguage(Language)) // error(handler, Language + " is not a valid language"); // Compile the content of this schema compilationItems = new XmlSchemaObjectCollection (); for (int i = 0; i < Items.Count; i++) compilationItems.Add (Items [i]); if (this == rootSchema) handledUris = new Hashtable (); // First, we run into inclusion schemas to collect // compilation target items into compiledItems. for (int i = 0; i < Includes.Count; i++) { XmlSchemaExternal ext = Includes [i] as XmlSchemaExternal; if (ext != null) { if (ext.SchemaLocation == null) continue; Stream stream = null; string url = null; if (resolver != null) { url = GetResolvedUri (resolver, ext.SchemaLocation); if (schemaLocationStack.Contains (url)) { error(handler, "Nested inclusion was found: " + url); // must skip this inclusion continue; } if (rootSchema.handledUris.Contains (url)) // This schema is already handled, so simply skip (otherwise, duplicate definition errrors occur. continue; rootSchema.handledUris.Add (url, url); try { stream = resolver.GetEntity (new Uri (url), null, typeof (Stream)) as Stream; } catch (Exception) { // LAMESPEC: This is not good way to handle errors, but since we cannot know what kind of XmlResolver will come, so there are no mean to avoid this ugly catch. warn (handler, "Could not resolve schema location URI: " + url); stream = null; } } // Process redefinition children in advance. XmlSchemaRedefine redefine = Includes [i] as XmlSchemaRedefine; if (redefine != null) { for (int j = 0; j < redefine.Items.Count; j++) { XmlSchemaObject redefinedObj = redefine.Items [j]; redefinedObj.isRedefinedComponent = true; redefinedObj.isRedefineChild = true; if (redefinedObj is XmlSchemaType || redefinedObj is XmlSchemaGroup || redefinedObj is XmlSchemaAttributeGroup) compilationItems.Add (redefinedObj); else error (handler, "Redefinition is only allowed to simpleType, complexType, group and attributeGroup."); } } XmlSchema includedSchema = null; if (stream == null) { // It is missing schema components. missedSubComponents = true; continue; } else { schemaLocationStack.Push (url); includedSchema = XmlSchema.Read (new XmlTextReader (url, stream, nameTable), handler); includedSchema.schemas = schemas; } // Set - actual - target namespace for the included schema * before compilation*. XmlSchemaImport import = ext as XmlSchemaImport; if (import != null) { if (TargetNamespace == includedSchema.TargetNamespace) { error (handler, "Target namespace must be different from that of included schema."); continue; } else if (includedSchema.TargetNamespace != import.Namespace) { error (handler, "Attribute namespace and its importing schema's target namespace must be the same."); continue; } } else { if (TargetNamespace == null && includedSchema.TargetNamespace != null) { error (handler, "Target namespace is required to include a schema which has its own target namespace"); continue; } else if (TargetNamespace != null && includedSchema.TargetNamespace == null) includedSchema.TargetNamespace = TargetNamespace; } // Compile included schema. includedSchema.idCollection = this.IDCollection; includedSchema.Compile (handler, schemaLocationStack, rootSchema, col, resolver); schemaLocationStack.Pop (); if (import != null) rootSchema.schemas.Add (includedSchema); // Note that we use compiled items. Items // may not exist in Items, since included // schema also includes another schemas. foreach (DictionaryEntry entry in includedSchema.Attributes) compilationItems.Add ((XmlSchemaObject) entry.Value); foreach (DictionaryEntry entry in includedSchema.Elements) compilationItems.Add ((XmlSchemaObject) entry.Value); foreach (DictionaryEntry entry in includedSchema.SchemaTypes) compilationItems.Add ((XmlSchemaObject) entry.Value); foreach (DictionaryEntry entry in includedSchema.AttributeGroups) compilationItems.Add ((XmlSchemaObject) entry.Value); foreach (DictionaryEntry entry in includedSchema.Groups) compilationItems.Add ((XmlSchemaObject) entry.Value); foreach (DictionaryEntry entry in includedSchema.Notations) compilationItems.Add ((XmlSchemaObject) entry.Value); } else { error(handler,"Object of Type "+Includes [i].GetType().Name+" is not valid in Includes Property of XmlSchema"); } } // Compilation phase. // At least each Compile() must gives unique (qualified) name for each component. // It also checks self-resolvable properties correct. // Post compilation schema information contribution is not required here. // It should be done by Validate(). for (int i = 0; i < compilationItems.Count; i++) { XmlSchemaObject obj = compilationItems [i]; if(obj is XmlSchemaAnnotation) { int numerr = ((XmlSchemaAnnotation)obj).Compile(handler, this); errorCount += numerr; if( numerr == 0) { //FIXME: What PSVI set do we add this to? } } else if(obj is XmlSchemaAttribute) { XmlSchemaAttribute attr = (XmlSchemaAttribute) obj; attr.ParentIsSchema = true; int numerr = attr.Compile(handler, this); errorCount += numerr; if(numerr == 0) { if (!attr.IsComplied (this.CompilationId)) schemas.SchemaSet.GlobalAttributes.Add (attr.QualifiedName, attr); XmlSchemaUtil.AddToTable (Attributes, attr, attr.QualifiedName, handler); } } else if(obj is XmlSchemaAttributeGroup) { XmlSchemaAttributeGroup attrgrp = (XmlSchemaAttributeGroup) obj; int numerr = attrgrp.Compile(handler, this); errorCount += numerr; if(numerr == 0) { XmlSchemaUtil.AddToTable (AttributeGroups, attrgrp, attrgrp.QualifiedName, handler); } } else if(obj is XmlSchemaComplexType) { XmlSchemaComplexType ctype = (XmlSchemaComplexType) obj; ctype.ParentIsSchema = true; int numerr = ctype.Compile(handler, this); errorCount += numerr; if(numerr == 0) { if (!ctype.IsComplied (this.CompilationId)) schemas.SchemaSet.GlobalTypes.Add (ctype.QualifiedName, ctype); XmlSchemaUtil.AddToTable (schemaTypes, ctype, ctype.QualifiedName, handler); } } else if(obj is XmlSchemaSimpleType) { XmlSchemaSimpleType stype = (XmlSchemaSimpleType) obj; stype.islocal = false; //This simple type is toplevel int numerr = stype.Compile(handler, this); errorCount += numerr; if(numerr == 0) { if (!stype.IsComplied (this.CompilationId)) schemas.SchemaSet.GlobalTypes.Add (stype.QualifiedName, stype); XmlSchemaUtil.AddToTable (SchemaTypes, stype, stype.QualifiedName, handler); } } else if(obj is XmlSchemaElement) { XmlSchemaElement elem = (XmlSchemaElement) obj; elem.parentIsSchema = true; int numerr = elem.Compile(handler, this); errorCount += numerr; if(numerr == 0) { if (!elem.IsComplied (this.CompilationId)) schemas.SchemaSet.GlobalElements.Add (elem.QualifiedName, elem); XmlSchemaUtil.AddToTable (Elements, elem, elem.QualifiedName, handler); } } else if(obj is XmlSchemaGroup) { XmlSchemaGroup grp = (XmlSchemaGroup) obj; int numerr = grp.Compile(handler, this); errorCount += numerr; if(numerr == 0) { XmlSchemaUtil.AddToTable (Groups, grp, grp.QualifiedName, handler); } } else if(obj is XmlSchemaNotation) { XmlSchemaNotation ntn = (XmlSchemaNotation) obj; int numerr = ntn.Compile(handler, this); errorCount += numerr; if(numerr == 0) { XmlSchemaUtil.AddToTable (Notations, ntn, ntn.QualifiedName, handler); } } else { ValidationHandler.RaiseValidationEvent ( handler, null, "Object of Type "+obj.GetType().Name+" is not valid in Item Property of Schema", null, this, null, XmlSeverityType.Error); } } if (rootSchema == this) Validate(handler); } private string GetResolvedUri (XmlResolver resolver, string relativeUri) { Uri baseUri = null; if (this.SourceUri != null && this.SourceUri != String.Empty) baseUri = new Uri (this.SourceUri); return resolver.ResolveUri (baseUri, relativeUri).ToString (); } internal bool IsNamespaceAbsent (string ns) { return this.schemas [ns] == null; } #endregion private void Validate(ValidationEventHandler handler) { ValidationId = CompilationId; // Firstly Element needs to be filled their substitution group info foreach(XmlSchemaElement elem in Elements.Values) elem.FillSubstitutionElementInfo (); // Validate foreach(XmlSchemaAttribute attr in Attributes.Values) { errorCount += attr.Validate(handler, this); } foreach(XmlSchemaAttributeGroup attrgrp in AttributeGroups.Values) { errorCount += attrgrp.Validate(handler, this); } foreach(XmlSchemaType type in SchemaTypes.Values) { errorCount += type.Validate(handler, this); } foreach(XmlSchemaElement elem in Elements.Values) { errorCount += elem.Validate(handler, this); } foreach(XmlSchemaGroup grp in Groups.Values) { errorCount += grp.Validate(handler, this); } foreach(XmlSchemaNotation ntn in Notations.Values) { errorCount += ntn.Validate(handler, this); } } #region Read // We cannot use xml deserialization, since it does not provide line info, qname context, and so on. public static XmlSchema Read (TextReader reader, ValidationEventHandler validationEventHandler) { return Read (new XmlTextReader (reader),validationEventHandler); } public static XmlSchema Read (Stream stream, ValidationEventHandler validationEventHandler) { return Read (new XmlTextReader (stream),validationEventHandler); } public static XmlSchema Read (XmlReader rdr, ValidationEventHandler validationEventHandler) { XmlSchemaReader reader = new XmlSchemaReader (rdr, validationEventHandler); if (reader.ReadState == ReadState.Initial) reader.ReadNextElement (); int startDepth = reader.Depth; do { switch(reader.NodeType) { case XmlNodeType.Element: if(reader.LocalName == "schema") { XmlSchema schema = new XmlSchema (); schema.nameTable = rdr.NameTable; schema.LineNumber = reader.LineNumber; schema.LinePosition = reader.LinePosition; schema.SourceUri = reader.BaseURI; ReadAttributes(schema, reader, validationEventHandler); //IsEmptyElement does not behave properly if reader is //positioned at an attribute. reader.MoveToElement(); if(!reader.IsEmptyElement) { ReadContent(schema, reader, validationEventHandler); } else rdr.Skip (); if (rdr.NodeType == XmlNodeType.EndElement) rdr.Read (); return schema; } else //Schema can't be generated. Throw an exception error (validationEventHandler, "The root element must be schema", null); break; default: error(validationEventHandler, "This should never happen. XmlSchema.Read 1 ",null); break; } } while(reader.Depth > startDepth && reader.ReadNextElement()); // This is thrown regardless of ValidationEventHandler existence. throw new XmlSchemaException ("The top level schema must have namespace " + XmlSchema.Namespace, null); } private static void ReadAttributes(XmlSchema schema, XmlSchemaReader reader, ValidationEventHandler h) { Exception ex; reader.MoveToElement(); while(reader.MoveToNextAttribute()) { switch(reader.Name) { case "attributeFormDefault" : schema.attributeFormDefault = XmlSchemaUtil.ReadFormAttribute(reader,out ex); if(ex != null) error(h, reader.Value + " is not a valid value for attributeFormDefault.", ex); break; case "blockDefault" : schema.blockDefault = XmlSchemaUtil.ReadDerivationAttribute(reader,out ex, "blockDefault", XmlSchemaUtil.ElementBlockAllowed); if(ex != null) error (h, ex.Message, ex); break; case "elementFormDefault": schema.elementFormDefault = XmlSchemaUtil.ReadFormAttribute(reader, out ex); if(ex != null) error(h, reader.Value + " is not a valid value for elementFormDefault.", ex); break; case "finalDefault": schema.finalDefault = XmlSchemaUtil.ReadDerivationAttribute(reader, out ex, "finalDefault", XmlSchemaUtil.FinalAllowed); if(ex != null) error (h, ex.Message , ex); break; case "id": schema.id = reader.Value; break; case "targetNamespace": schema.targetNamespace = reader.Value; break; case "version": schema.version = reader.Value; break; case "xml:lang": schema.language = reader.Value; break; default: if((reader.NamespaceURI == "" && reader.Name != "xmlns") || reader.NamespaceURI == XmlSchema.Namespace) error(h, reader.Name + " attribute is not allowed in schema element",null); else { XmlSchemaUtil.ReadUnhandledAttribute(reader,schema); } break; } } } private static void ReadContent(XmlSchema schema, XmlSchemaReader reader, ValidationEventHandler h) { reader.MoveToElement(); if(reader.LocalName != "schema" && reader.NamespaceURI != XmlSchema.Namespace && reader.NodeType != XmlNodeType.Element) error(h, "UNREACHABLE CODE REACHED: Method: Schema.ReadContent, " + reader.LocalName + ", " + reader.NamespaceURI,null); //(include | import | redefine | annotation)*, //((simpleType | complexType | group | attributeGroup | element | attribute | notation | annotation)* int level = 1; while(reader.ReadNextElement()) { if(reader.NodeType == XmlNodeType.EndElement) { if(reader.LocalName != xmlname) error(h,"Should not happen :2: XmlSchema.Read, name="+reader.Name,null); break; } if(level <= 1) { if(reader.LocalName == "include") { XmlSchemaInclude include = XmlSchemaInclude.Read(reader,h); if(include != null) schema.includes.Add(include); continue; } if(reader.LocalName == "import") { XmlSchemaImport import = XmlSchemaImport.Read(reader,h); if(import != null) schema.includes.Add(import); continue; } if(reader.LocalName == "redefine") { XmlSchemaRedefine redefine = XmlSchemaRedefine.Read(reader,h); if(redefine != null) schema.includes.Add(redefine); continue; } if(reader.LocalName == "annotation") { XmlSchemaAnnotation annotation = XmlSchemaAnnotation.Read(reader,h); if(annotation != null) schema.items.Add(annotation); continue; } } if(level <=2) { level = 2; if(reader.LocalName == "simpleType") { XmlSchemaSimpleType stype = XmlSchemaSimpleType.Read(reader,h); if(stype != null) schema.items.Add(stype); continue; } if(reader.LocalName == "complexType") { XmlSchemaComplexType ctype = XmlSchemaComplexType.Read(reader,h); if(ctype != null) schema.items.Add(ctype); continue; } if(reader.LocalName == "group") { XmlSchemaGroup group = XmlSchemaGroup.Read(reader,h); if(group != null) schema.items.Add(group); continue; } if(reader.LocalName == "attributeGroup") { XmlSchemaAttributeGroup attributeGroup = XmlSchemaAttributeGroup.Read(reader,h); if(attributeGroup != null) schema.items.Add(attributeGroup); continue; } if(reader.LocalName == "element") { XmlSchemaElement element = XmlSchemaElement.Read(reader,h); if(element != null) schema.items.Add(element); continue; } if(reader.LocalName == "attribute") { XmlSchemaAttribute attr = XmlSchemaAttribute.Read(reader,h); if(attr != null) schema.items.Add(attr); continue; } if(reader.LocalName == "notation") { XmlSchemaNotation notation = XmlSchemaNotation.Read(reader,h); if(notation != null) schema.items.Add(notation); continue; } if(reader.LocalName == "annotation") { XmlSchemaAnnotation annotation = XmlSchemaAnnotation.Read(reader,h); if(annotation != null) schema.items.Add(annotation); continue; } } reader.RaiseInvalidElementError(); } } #endregion #region write public void Write(System.IO.Stream stream) { Write(stream,null); } public void Write(System.IO.TextWriter writer) { Write(writer,null); } public void Write(System.Xml.XmlWriter writer) { Write(writer,null); } public void Write(System.IO.Stream stream, System.Xml.XmlNamespaceManager namespaceManager) { Write(new XmlTextWriter(stream,null),namespaceManager); } public void Write(System.IO.TextWriter writer, System.Xml.XmlNamespaceManager namespaceManager) { XmlTextWriter xwriter = new XmlTextWriter(writer); xwriter.Formatting = Formatting.Indented; Write(xwriter,namespaceManager); } public void Write(System.Xml.XmlWriter writer, System.Xml.XmlNamespaceManager namespaceManager) { if(Namespaces == null) { Namespaces = new XmlSerializerNamespaces(); } //Add the xml schema namespace. if(Namespaces.Count == 0) { if (writer.LookupPrefix (XmlSchema.Namespace) == null) Namespaces.Add("xs", XmlSchema.Namespace); if (TargetNamespace != null && TargetNamespace != String.Empty) Namespaces.Add("tns", TargetNamespace); } if(namespaceManager != null) { foreach(string name in namespaceManager) { //xml and xmlns namespaced are added by default in namespaceManager. //So we should ignore them if(name!="xml" && name != "xmlns") Namespaces.Add(name,namespaceManager.LookupNamespace(name)); } } XmlSerializer xser = new XmlSerializer(typeof(XmlSchema)); xser.Serialize(writer,this,Namespaces); writer.Flush(); } #endregion } }