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//---------------------------------------------------------------------------
//
// File: ParserExtension.cs
//
// Description:
// Helper class to the MarkupCompiler class that extends the xaml parser by
// overriding callbacks appropriately for compile mode.
//
//
// History:
// 10/29/01: sramani Created
// 6/13/03: sramani Ported to WPP
// 3/11/04: sramani Removed CAML support
//
// Copyright (C) 2001 by Microsoft Corporation. All rights reserved.
//
//---------------------------------------------------------------------------
using System;
using MS.Internal.Markup;
using System.Xml;
using System.IO;
using System.Collections;
using System.Collections.Generic;
using System.Diagnostics;
using System.Reflection;
using System.CodeDom;
using System.CodeDom.Compiler;
using System.ComponentModel;
using MS.Utility; // for SR
namespace MS.Internal
{
#region ParserCallbacks
internal class ParserExtension : XamlParser
{
#region Constructor
internal ParserExtension(MarkupCompiler compiler,
ParserContext parserContext,
BamlRecordWriter bamlWriter,
Stream xamlStream,
bool pass2) :
base(parserContext, bamlWriter, xamlStream, false)
{
_compiler = compiler;
_pass2 = pass2;
Debug.Assert(bamlWriter != null, "Need a BamlRecordWriter for compiling to Baml");
}
#endregion Constructor
#region Overrides
public override void WriteElementStart(XamlElementStartNode xamlObjectNode)
{
string classFullName = null;
classFullName = _compiler.StartElement(ref _class, _subClass, ref _classModifier, xamlObjectNode.ElementType, string.Empty);
// If we have a serializer for this element's type, then use that
// serializer rather than doing default serialization.
// NOTE: We currently have faith that the serializer will return when
// it is done with the subtree and leave everything in the correct
// state. We may want to limit how much the called serializer can
// read so that it is forced to return at the end of the subtree.
if (xamlObjectNode.SerializerType != null)
{
XamlSerializer serializer;
if (xamlObjectNode.SerializerType == typeof(XamlStyleSerializer))
{
serializer = new XamlStyleSerializer(ParserHooks);
}
else if (xamlObjectNode.SerializerType == typeof(XamlTemplateSerializer))
{
serializer = new XamlTemplateSerializer(ParserHooks);
}
else
{
serializer = Activator.CreateInstance(
xamlObjectNode.SerializerType,
BindingFlags.Instance | BindingFlags.Public |
BindingFlags.NonPublic | BindingFlags.CreateInstance,
null, null, null) as XamlSerializer;
}
if (serializer == null)
{
ThrowException(SRID.ParserNoSerializer,
xamlObjectNode.TypeFullName,
xamlObjectNode.LineNumber,
xamlObjectNode.LinePosition);
}
else
{
serializer.ConvertXamlToBaml(TokenReader,
ParserContext, xamlObjectNode,
BamlRecordWriter);
_compiler.EndElement(_pass2);
}
}
else if (BamlRecordWriter != null)
{
if (classFullName != null)
{
bool isRootPublic = _pass2 ? !_isInternalRoot : _compiler.IsRootPublic;
Type rootType = isRootPublic ? xamlObjectNode.ElementType : typeof(ParserExtension);
XamlElementStartNode xamlRootObjectNode = new XamlElementStartNode(
xamlObjectNode.LineNumber,
xamlObjectNode.LinePosition,
xamlObjectNode.Depth,
_compiler.AssemblyName,
classFullName,
rootType,
xamlObjectNode.SerializerType);
base.WriteElementStart(xamlRootObjectNode);
}
else
{
base.WriteElementStart(xamlObjectNode);
}
}
}
private void WriteConnectionId()
{
if (!_isSameScope)
{
base.WriteConnectionId(++_connectionId);
_isSameScope = true;
}
}
public override void WriteProperty(XamlPropertyNode xamlPropertyNode)
{
MemberInfo memberInfo = xamlPropertyNode.PropInfo;
if (xamlPropertyNode.AttributeUsage == BamlAttributeUsage.RuntimeName &&
memberInfo != null)
{
// NOTE: Error if local element has runtime Name specified. Change this to
// a warning in the future when that feature is available.
if (_compiler.LocalAssembly == memberInfo.ReflectedType.Assembly &&
!xamlPropertyNode.IsDefinitionName)
{
ThrowException(SRID.LocalNamePropertyNotAllowed,
memberInfo.ReflectedType.Name,
MarkupCompiler.DefinitionNSPrefix,
xamlPropertyNode.LineNumber,
xamlPropertyNode.LinePosition);
}
string attributeValue = xamlPropertyNode.Value;
if (!_pass2)
{
Debug.Assert(_name == null && _nameField == null, "Name has already been set");
_nameField = _compiler.AddNameField(attributeValue, xamlPropertyNode.LineNumber, xamlPropertyNode.LinePosition);
_name = attributeValue;
}
if (_nameField != null || _compiler.IsRootNameScope)
{
WriteConnectionId();
}
}
if (memberInfo != null &&
memberInfo.Name.Equals(STARTUPURI) &&
KnownTypes.Types[(int)KnownElements.Application].IsAssignableFrom(memberInfo.DeclaringType))
{
// if Application.StartupUri property then don't bamlize, but gen code since
// this is better for perf as Application is not a DO.
if (!_pass2)
{
_compiler.AddApplicationProperty(memberInfo,
xamlPropertyNode.Value,
xamlPropertyNode.LineNumber);
}
}
else
{
_compiler.IsBamlNeeded = true;
base.WriteProperty(xamlPropertyNode);
}
}
public override void WriteUnknownTagStart(XamlUnknownTagStartNode xamlUnknownTagStartNode)
{
string localElementFullName = string.Empty;
NamespaceMapEntry[] namespaceMaps = XamlTypeMapper.GetNamespaceMapEntries(xamlUnknownTagStartNode.XmlNamespace);
if (namespaceMaps != null && namespaceMaps.Length == 1 && namespaceMaps[0].LocalAssembly)
{
string ns = namespaceMaps[0].ClrNamespace;
if (!string.IsNullOrEmpty(ns))
{
ns += MarkupCompiler.DOT;
}
localElementFullName = ns + xamlUnknownTagStartNode.Value;
}
if (localElementFullName.Length > 0 && !_pass2)
{
// if local complex property bail out now and handle in 2nd pass when TypInfo is available
int lastIndex = xamlUnknownTagStartNode.Value.LastIndexOf(MarkupCompiler.DOTCHAR);
if (-1 == lastIndex)
{
_compiler.StartElement(ref _class,
_subClass,
ref _classModifier,
null,
localElementFullName);
}
}
else
{
base.WriteUnknownTagStart(xamlUnknownTagStartNode);
}
}
public override void WriteUnknownTagEnd(XamlUnknownTagEndNode xamlUnknownTagEndNode)
{
NamespaceMapEntry[] namespaceMaps = XamlTypeMapper.GetNamespaceMapEntries(xamlUnknownTagEndNode.XmlNamespace);
bool localTag = namespaceMaps != null && namespaceMaps.Length == 1 && namespaceMaps[0].LocalAssembly;
if (localTag && !_pass2)
{
// if local complex property bail out now and handle in 2nd pass when TypInfo is available
int lastIndex = xamlUnknownTagEndNode.LocalName.LastIndexOf(MarkupCompiler.DOTCHAR);
if (-1 == lastIndex)
{
_compiler.EndElement(_pass2);
}
}
else
{
base.WriteUnknownTagEnd(xamlUnknownTagEndNode);
}
}
public override void WriteUnknownAttribute(XamlUnknownAttributeNode xamlUnknownAttributeNode)
{
bool localAttrib = false;
string localTagFullName = string.Empty;
string localAttribName = xamlUnknownAttributeNode.Name;
NamespaceMapEntry[] namespaceMaps = null;
MemberInfo miKnownEvent = null;
if (xamlUnknownAttributeNode.OwnerTypeFullName.Length > 0)
{
// These are attributes on a local tag ...
localTagFullName = xamlUnknownAttributeNode.OwnerTypeFullName;
localAttrib = true;
}
else
{
// These are attributes on a non-local tag ...
namespaceMaps = XamlTypeMapper.GetNamespaceMapEntries(xamlUnknownAttributeNode.XmlNamespace);
localAttrib = namespaceMaps != null && namespaceMaps.Length == 1 && namespaceMaps[0].LocalAssembly;
}
if (localAttrib && !_pass2)
{
// ... and if there are any periods in the attribute name, then ...
int lastIndex = localAttribName.LastIndexOf(MarkupCompiler.DOTCHAR);
if (-1 != lastIndex)
{
// ... these might be attached props or events defined by a locally defined component,
// but being set on this non-local tag.
TypeAndSerializer typeAndSerializer = null;
string ownerTagName = localAttribName.Substring(0, lastIndex);
if (namespaceMaps != null)
{
if (namespaceMaps.Length == 1 && namespaceMaps[0].LocalAssembly)
{
// local prop on a known tag
localTagFullName = namespaceMaps[0].ClrNamespace + MarkupCompiler.DOT + ownerTagName;
}
}
else
{
typeAndSerializer = XamlTypeMapper.GetTypeOnly(xamlUnknownAttributeNode.XmlNamespace,
ownerTagName);
if (typeAndSerializer != null)
{
// known local attribute on a local tag
Type ownerTagType = typeAndSerializer.ObjectType;
localTagFullName = ownerTagType.FullName;
localAttribName = localAttribName.Substring(lastIndex + 1);
// See if attached event first
miKnownEvent = ownerTagType.GetMethod(MarkupCompiler.ADD + localAttribName + MarkupCompiler.HANDLER,
BindingFlags.Public | BindingFlags.Static |
BindingFlags.FlattenHierarchy);
if (miKnownEvent == null)
{
// Not an attached event, so try for a clr event.
miKnownEvent = ownerTagType.GetEvent(localAttribName,
BindingFlags.Instance | BindingFlags.Public | BindingFlags.FlattenHierarchy);
}
if (miKnownEvent != null)
{
if (_events == null)
_events = new ArrayList();
_events.Add(new MarkupCompiler.MarkupEventInfo(xamlUnknownAttributeNode.Value,
localAttribName,
miKnownEvent,
xamlUnknownAttributeNode.LineNumber));
WriteConnectionId();
}
}
else
{
namespaceMaps = XamlTypeMapper.GetNamespaceMapEntries(xamlUnknownAttributeNode.XmlNamespace);
if (namespaceMaps != null && namespaceMaps.Length == 1 && namespaceMaps[0].LocalAssembly)
{
// local prop on local tag
localTagFullName = namespaceMaps[0].ClrNamespace + MarkupCompiler.DOT + ownerTagName;
}
else
{
// unknown prop on local tag -- Error!
localTagFullName = string.Empty;
}
}
}
if (typeAndSerializer == null)
{
localAttribName = localAttribName.Substring(lastIndex + 1);
}
}
// else if it is an unknown non-attached prop on a non-local tag -- instant error!
}
if (localTagFullName.Length > 0 && !_pass2)
{
if (xamlUnknownAttributeNode.AttributeUsage == BamlAttributeUsage.RuntimeName)
{
string attributeValue = xamlUnknownAttributeNode.Value;
Debug.Assert(_name == null && _nameField == null, "Name has already been set");
_nameField = _compiler.AddNameField(attributeValue, xamlUnknownAttributeNode.LineNumber, xamlUnknownAttributeNode.LinePosition);
_name = attributeValue;
if (_nameField != null)
{
WriteConnectionId();
}
}
else if (localAttribName.Equals(STARTUPURI) &&
_compiler.IsCompilingEntryPointClass)
{
// if Application.StartuoUri property then don't bamlize, but gen code since
// this is better for perf as Application is not a DO.
PropertyInfo pi = KnownTypes.Types[(int)KnownElements.Application].GetProperty(localAttribName);
_compiler.AddApplicationProperty(pi,
xamlUnknownAttributeNode.Value,
xamlUnknownAttributeNode.LineNumber);
return;
}
else if (miKnownEvent == null)
{
// This may or may not be a local event, but there is no way to know in Pass1.
// So we prepare for the worst case sceanrio and assume it may be one so that
// the Xaml compiler can generate the CreateDelegate code.
_compiler.HasLocalEvent = true;
}
}
else
{
base.WriteUnknownAttribute(xamlUnknownAttributeNode);
}
_compiler.IsBamlNeeded = true;
}
public override void WriteElementEnd(XamlElementEndNode xamlEndObjectNode)
{
_compiler.EndElement(_pass2);
base.WriteElementEnd(xamlEndObjectNode);
}
/// <summary>
/// override of GetElementType
/// </summary>
public override bool GetElementType(
XmlReader xmlReader,
string localName,
string namespaceUri,
ref string assemblyName,
ref string typeFullName,
ref Type baseType,
ref Type serializerType)
{
if (!ProcessedRootElement &&
namespaceUri.Equals(XamlReaderHelper.DefinitionNamespaceURI) &&
(localName.Equals(XamlReaderHelper.DefinitionCodeTag) ||
localName.Equals(XamlReaderHelper.DefinitionXDataTag)))
{
MarkupCompiler.ThrowCompilerException(SRID.DefinitionTagNotAllowedAtRoot,
xmlReader.Prefix,
localName);
}
bool foundElement = base.GetElementType(xmlReader, localName, namespaceUri,
ref assemblyName, ref typeFullName, ref baseType, ref serializerType);
if (!ProcessedRootElement)
{
int count = xmlReader.AttributeCount;
// save reader's position, to be restored later
string attrName = (xmlReader.NodeType == XmlNodeType.Attribute) ? xmlReader.Name : null;
_isRootTag = true;
_class = string.Empty;
_subClass = string.Empty;
ProcessedRootElement = true;
XamlTypeMapper.IsProtectedAttributeAllowed = false;
xmlReader.MoveToFirstAttribute();
while (--count >= 0)
{
string attribNamespaceURI = xmlReader.LookupNamespace(xmlReader.Prefix);
if (attribNamespaceURI != null &&
attribNamespaceURI.Equals(XamlReaderHelper.DefinitionNamespaceURI))
{
MarkupCompiler.DefinitionNSPrefix = xmlReader.Prefix;
if (xmlReader.LocalName == CLASS)
{
_class = xmlReader.Value.Trim();
if (_class == string.Empty)
{
// flag an error for processing later in WriteDefAttribute
_class = MarkupCompiler.DOT;
}
else
{
// flag this so that the Type Mapper can allow protected
// attributes on the markup sub-classed root element only.
XamlTypeMapper.IsProtectedAttributeAllowed = true;
}
}
else if (xmlReader.LocalName == XamlReaderHelper.DefinitionTypeArgs)
{
string genericName = _compiler.GetGenericTypeName(localName, xmlReader.Value);
foundElement = base.GetElementType(xmlReader, genericName, namespaceUri,
ref assemblyName, ref typeFullName, ref baseType, ref serializerType);
if (!foundElement)
{
NamespaceMapEntry[] namespaceMaps = XamlTypeMapper.GetNamespaceMapEntries(namespaceUri);
bool isLocal = namespaceMaps != null && namespaceMaps.Length == 1 && namespaceMaps[0].LocalAssembly;
if (!isLocal)
{
MarkupCompiler.ThrowCompilerException(SRID.UnknownGenericType,
MarkupCompiler.DefinitionNSPrefix,
xmlReader.Value,
localName);
}
}
}
else if (xmlReader.LocalName == SUBCLASS)
{
_subClass = xmlReader.Value.Trim();
if (_subClass == string.Empty)
{
// flag an error for processing later in WriteDefAttribute
_subClass = MarkupCompiler.DOT;
}
else
{
_compiler.ValidateFullSubClassName(ref _subClass);
}
}
else if (xmlReader.LocalName == CLASSMODIFIER)
{
if (!_pass2)
{
_classModifier = xmlReader.Value.Trim();
if (_classModifier == string.Empty)
{
// flag an error for processing later in WriteDefAttribute
_classModifier = MarkupCompiler.DOT;
}
}
else
{
// This direct comparison is ok to do in pass2 as it has already been validated in pass1.
// This is to avoid a costly instantiation of the CodeDomProvider in pass2.
_isInternalRoot = string.Compare("public", xmlReader.Value.Trim(), StringComparison.OrdinalIgnoreCase) != 0;
}
}
}
xmlReader.MoveToNextAttribute();
}
if (namespaceUri.Equals(XamlReaderHelper.DefinitionNamespaceURI))
{
xmlReader.MoveToElement();
}
else
{
if (attrName == null)
xmlReader.MoveToFirstAttribute();
else
xmlReader.MoveToAttribute(attrName);
}
}
else if (!_compiler.IsBamlNeeded && !_compiler.ProcessingRootContext && _compiler.IsCompilingEntryPointClass && xmlReader.Depth > 0)
{
if ((!localName.Equals(MarkupCompiler.CODETAG) &&
!localName.Equals(MarkupCompiler.CODETAG + "Extension")) ||
!namespaceUri.Equals(XamlReaderHelper.DefinitionNamespaceURI))
{
_compiler.IsBamlNeeded = true;
}
}
return foundElement;
}
/// <summary>
/// override of WriteDynamicEvent
/// </summary>
public override void WriteClrEvent(XamlClrEventNode xamlClrEventNode)
{
bool isStyleEvent = (xamlClrEventNode.IsStyleSetterEvent || xamlClrEventNode.IsTemplateEvent);
bool localEvent = _compiler.LocalAssembly == xamlClrEventNode.EventMember.ReflectedType.Assembly;
if (isStyleEvent)
{
if (localEvent)
{
// validate the event handler name per CLS grammar for identifiers
_compiler.ValidateEventHandlerName(xamlClrEventNode.EventName, xamlClrEventNode.Value);
xamlClrEventNode.LocalAssemblyName = _compiler.AssemblyName;
// Pass2 should always be true here as otherwise localEvent will be false, but just being paranoid here.
if (_pass2)
{
XamlTypeMapper.HasInternals = true;
}
}
else
{
if (!xamlClrEventNode.IsSameScope)
{
_connectionId++;
}
xamlClrEventNode.ConnectionId = _connectionId;
if (!_pass2)
{
_compiler.ConnectStyleEvent(xamlClrEventNode);
}
}
return;
}
bool appEvent = KnownTypes.Types[(int)KnownElements.Application].IsAssignableFrom(xamlClrEventNode.EventMember.DeclaringType);
if (!appEvent)
{
if (!_pass2)
{
// validate the event handler name per CLS grammar for identifiers
_compiler.ValidateEventHandlerName(xamlClrEventNode.EventName, xamlClrEventNode.Value);
if (_events == null)
_events = new ArrayList();
_events.Add(new MarkupCompiler.MarkupEventInfo(xamlClrEventNode.Value,
xamlClrEventNode.EventName,
xamlClrEventNode.EventMember,
xamlClrEventNode.LineNumber));
}
// if not local event ...
if (!localEvent)
{
WriteConnectionId();
}
}
else if (!_pass2)
{
// Since Application is not an Element it doesn't implement IComponentConnector and
// so needs to add events directly.
MarkupCompiler.MarkupEventInfo mei = new MarkupCompiler.MarkupEventInfo(xamlClrEventNode.Value,
xamlClrEventNode.EventName,
xamlClrEventNode.EventMember,
xamlClrEventNode.LineNumber);
_compiler.AddApplicationEvent(mei);
}
if (_pass2)
{
// if local event, add Baml Attribute Record for local event
if (localEvent)
{
// validate the event handler name per C# grammar for identifiers
_compiler.ValidateEventHandlerName(xamlClrEventNode.EventName, xamlClrEventNode.Value);
XamlPropertyNode xamlPropertyNode = new XamlPropertyNode(xamlClrEventNode.LineNumber,
xamlClrEventNode.LinePosition,
xamlClrEventNode.Depth,
xamlClrEventNode.EventMember,
_compiler.AssemblyName,
xamlClrEventNode.EventMember.ReflectedType.FullName,
xamlClrEventNode.EventName,
xamlClrEventNode.Value,
BamlAttributeUsage.Default,
false);
XamlTypeMapper.HasInternals = true;
base.WriteProperty(xamlPropertyNode);
}
}
}
/// <summary>
/// override of WriteEndAttributes
/// </summary>
public override void WriteEndAttributes(XamlEndAttributesNode xamlEndAttributesNode)
{
if (xamlEndAttributesNode.IsCompact)
return;
if (_isRootTag)
{
_class = string.Empty;
_classModifier = string.Empty;
_subClass = string.Empty;
XamlTypeMapper.IsProtectedAttributeAllowed = false;
}
_isRootTag = false;
_isSameScope = false;
if (!_pass2)
{
if (_nameField == null)
{
if (_isFieldModifierSet)
{
ThrowException(SRID.FieldModifierNotAllowed,
MarkupCompiler.DefinitionNSPrefix,
xamlEndAttributesNode.LineNumber,
xamlEndAttributesNode.LinePosition);
}
}
else if (_fieldModifier != MemberAttributes.Assembly)
{
if (MemberAttributes.Private != _fieldModifier &&
MemberAttributes.Assembly != _fieldModifier)
{
MarkupCompiler.GenerateXmlComments(_nameField, _nameField.Name + " Name Field");
}
_nameField.Attributes = _fieldModifier;
_fieldModifier = MemberAttributes.Assembly;
}
_nameField = null;
_isFieldModifierSet = false;
_compiler.ConnectNameAndEvents(_name, _events, _connectionId);
_name = null;
if (_events != null)
{
_events.Clear();
_events = null;
}
}
else
{
_compiler.CheckForNestedNameScope();
}
// Clear the compiler's generic type argument list (see Dev11 923).
_compiler.ClearGenericTypeArgs();
base.WriteEndAttributes(xamlEndAttributesNode);
}
/// <summary>
/// override of WriteDefTag
/// </summary>
public override void WriteDefTag(XamlDefTagNode xamlDefTagNode)
{
if (!_pass2)
{
_compiler.ProcessDefinitionNamespace(xamlDefTagNode);
}
else
{
// loop through until after the end of the current definition tag is reached.
while (!xamlDefTagNode.IsEmptyElement && xamlDefTagNode.XmlReader.NodeType != XmlNodeType.EndElement)
{
xamlDefTagNode.XmlReader.Read();
}
xamlDefTagNode.XmlReader.Read();
}
}
/// <summary>
/// override for handling a new xmlnamespace Uri
/// </summary>
public override void WriteNamespacePrefix(XamlXmlnsPropertyNode xamlXmlnsPropertyNode)
{
if (!_pass2)
{
List<ClrNamespaceAssemblyPair> cnap = XamlTypeMapper.GetClrNamespacePairFromCache(xamlXmlnsPropertyNode.XmlNamespace);
if (cnap != null)
{
foreach (ClrNamespaceAssemblyPair u in cnap)
{
_compiler.AddUsing(u.ClrNamespace);
}
}
}
base.WriteNamespacePrefix(xamlXmlnsPropertyNode);
}
/// <summary>
/// override for mapping instructions between clr and xml namespaces
/// </summary>
public override void WritePIMapping(XamlPIMappingNode xamlPIMappingNode)
{
if (!_pass2)
{
_compiler.AddUsing(xamlPIMappingNode.ClrNamespace);
}
// Local assembly!
if ((xamlPIMappingNode.AssemblyName == null) || (xamlPIMappingNode.AssemblyName.Length == 0))
{
xamlPIMappingNode.AssemblyName = _compiler.AssemblyName;
bool addMapping = !XamlTypeMapper.PITable.Contains(xamlPIMappingNode.XmlNamespace)
|| ((ClrNamespaceAssemblyPair)XamlTypeMapper.PITable[xamlPIMappingNode.XmlNamespace]).LocalAssembly
|| string.IsNullOrEmpty(((ClrNamespaceAssemblyPair)XamlTypeMapper.PITable[xamlPIMappingNode.XmlNamespace]).AssemblyName);
if (addMapping)
{
ClrNamespaceAssemblyPair namespaceMapping = new ClrNamespaceAssemblyPair(xamlPIMappingNode.ClrNamespace,
xamlPIMappingNode.AssemblyName);
namespaceMapping.LocalAssembly = true;
XamlTypeMapper.PITable[xamlPIMappingNode.XmlNamespace] = namespaceMapping;
XamlTypeMapper.InvalidateMappingCache(xamlPIMappingNode.XmlNamespace);
if (!_pass2 && BamlRecordWriter != null)
{
BamlRecordWriter = null;
}
}
}
base.WritePIMapping(xamlPIMappingNode);
}
/// <summary>
/// override of WriteDefAttribute
/// </summary>
public override void WriteDefAttribute(XamlDefAttributeNode xamlDefAttributeNode)
{
if (xamlDefAttributeNode.AttributeUsage == BamlAttributeUsage.RuntimeName)
{
string attributeValue = xamlDefAttributeNode.Value;
if (!_pass2)
{
Debug.Assert(_name == null && _nameField == null, "Name definition has already been set");
_nameField = _compiler.AddNameField(attributeValue, xamlDefAttributeNode.LineNumber, xamlDefAttributeNode.LinePosition);
_name = attributeValue;
}
if (_nameField != null || _compiler.IsRootNameScope)
{
WriteConnectionId();
// x:Name needs to be written out as a BAML record in order
// to trigger the RegisterName code path in BamlRecordReader.
// This code follows the code in WriteProperty for the RuntimeName property
base.WriteDefAttribute(xamlDefAttributeNode);
}
}
else if (xamlDefAttributeNode.Name == FIELDMODIFIER)
{
if (!_pass2)
{
_fieldModifier = _compiler.GetMemberAttributes(xamlDefAttributeNode.Value);
_isFieldModifierSet = true;
}
}
// Some x: attributes are processed by the compiler, but are unknown
// to the base XamlParser. The compiler specific ones should not be passed
// to XamlParser for processing, but the rest should be.
else
{
bool isClass = xamlDefAttributeNode.Name == CLASS;
bool isClassModifier = xamlDefAttributeNode.Name == CLASSMODIFIER;
bool isTypeArgs = xamlDefAttributeNode.Name == XamlReaderHelper.DefinitionTypeArgs;
bool isSubClass = xamlDefAttributeNode.Name == SUBCLASS;
if (!isClass && !isClassModifier && !isTypeArgs && !isSubClass)
{
base.WriteDefAttribute(xamlDefAttributeNode);
}
else if (!_isRootTag)
{
ThrowException(SRID.DefinitionAttributeNotAllowed,
MarkupCompiler.DefinitionNSPrefix,
xamlDefAttributeNode.Name,
xamlDefAttributeNode.LineNumber,
xamlDefAttributeNode.LinePosition);
}
else if (isClass)
{
if (_class == MarkupCompiler.DOT)
{
int index = xamlDefAttributeNode.Value.LastIndexOf(MarkupCompiler.DOT, StringComparison.Ordinal);
ThrowException(SRID.InvalidClassName,
MarkupCompiler.DefinitionNSPrefix,
CLASS,
xamlDefAttributeNode.Value,
index >= 0 ? "fully qualified " : string.Empty,
xamlDefAttributeNode.LineNumber,
xamlDefAttributeNode.LinePosition);
}
_class = string.Empty;
}
else if (isClassModifier)
{
if (_classModifier == MarkupCompiler.DOT)
{
ThrowException(SRID.UnknownClassModifier,
MarkupCompiler.DefinitionNSPrefix,
xamlDefAttributeNode.Value,
_compiler.Language,
xamlDefAttributeNode.LineNumber,
xamlDefAttributeNode.LinePosition);
}
_classModifier = string.Empty;
}
else if (isSubClass)
{
if (_subClass == MarkupCompiler.DOT)
{
int index = xamlDefAttributeNode.Value.LastIndexOf(MarkupCompiler.DOT, StringComparison.Ordinal);
ThrowException(SRID.InvalidClassName,
MarkupCompiler.DefinitionNSPrefix,
SUBCLASS,
xamlDefAttributeNode.Value,
index >= 0 ? "fully qualified " : string.Empty,
xamlDefAttributeNode.LineNumber,
xamlDefAttributeNode.LinePosition);
}
_subClass = string.Empty;
}
else if (isTypeArgs)
{
_compiler.AddGenericArguments(ParserContext, xamlDefAttributeNode.Value);
}
}
}
/*
// NOTE: Enable when Parser is ready to handle multiple errors w/o bailing out.
internal override SerializationErrorAction ParseError(XamlParseException e)
{
_compiler.OnError(e);
return SerializationErrorAction.Ignore;
}
*/
/// <summary>
/// override of Write End Document
/// </summary>
public override void WriteDocumentEnd(XamlDocumentEndNode xamlEndDocumentNode)
{
if (BamlRecordWriter != null)
{
MemoryStream bamlMemStream = BamlRecordWriter.BamlStream as MemoryStream;
Debug.Assert(bamlMemStream != null);
base.WriteDocumentEnd(xamlEndDocumentNode);
_compiler.GenerateBamlFile(bamlMemStream);
}
}
internal override bool CanResolveLocalAssemblies()
{
return _pass2;
}
bool ProcessedRootElement
{
get { return _processedRootElement; }
set { _processedRootElement = value; }
}
#endregion Overrides
#region Data
private MarkupCompiler _compiler;
private string _name = null;
private string _class = string.Empty;
private string _subClass = string.Empty;
private int _connectionId = 0;
private bool _pass2 = false;
private bool _isRootTag = false;
private bool _processedRootElement = false;
private bool _isSameScope = false;
private bool _isInternalRoot = false;
private ArrayList _events = null;
private bool _isFieldModifierSet = false;
private CodeMemberField _nameField = null;
private string _classModifier = string.Empty;
private MemberAttributes _fieldModifier = MemberAttributes.Assembly;
private const string CLASS = "Class";
private const string SUBCLASS = "Subclass";
private const string CLASSMODIFIER = "ClassModifier";
private const string FIELDMODIFIER = "FieldModifier";
private const string STARTUPURI = "StartupUri";
#endregion Data
}
#endregion ParserCallbacks
}
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