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// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
// See the LICENSE file in the project root for more information.
using System.IO;
using System.Text;
using Microsoft.Xml.Schema;
using Microsoft.Xml.XPath;
using System.Diagnostics;
using System.Globalization;
using System.Collections;
// using System.Security.Policy;
namespace Microsoft.Xml
{
using System;
internal partial class XsdCachingReader : XmlReader, IXmlLineInfo
{
private enum CachingReaderState
{
None = 0,
Init = 1,
Record = 2,
Replay = 3,
ReaderClosed = 4,
Error = 5,
}
private XmlReader _coreReader;
private XmlNameTable _coreReaderNameTable;
private ValidatingReaderNodeData[] _contentEvents;
private ValidatingReaderNodeData[] _attributeEvents;
private ValidatingReaderNodeData _cachedNode;
private CachingReaderState _cacheState;
private int _contentIndex;
private int _attributeCount;
private bool _returnOriginalStringValues;
private CachingEventHandler _cacheHandler;
//current state
private int _currentAttrIndex;
private int _currentContentIndex;
private bool _readAhead;
//Lineinfo
private IXmlLineInfo _lineInfo;
//ReadAttributeValue TextNode
private ValidatingReaderNodeData _textNode;
//Constants
private const int InitialAttributeCount = 8;
private const int InitialContentCount = 4;
//Constructor
internal XsdCachingReader(XmlReader reader, IXmlLineInfo lineInfo, CachingEventHandler handlerMethod)
{
_coreReader = reader;
_lineInfo = lineInfo;
_cacheHandler = handlerMethod;
_attributeEvents = new ValidatingReaderNodeData[InitialAttributeCount];
_contentEvents = new ValidatingReaderNodeData[InitialContentCount];
Init();
}
private void Init()
{
_coreReaderNameTable = _coreReader.NameTable;
_cacheState = CachingReaderState.Init;
_contentIndex = 0;
_currentAttrIndex = -1;
_currentContentIndex = -1;
_attributeCount = 0;
_cachedNode = null;
_readAhead = false;
//Initialize the cachingReader with start state
if (_coreReader.NodeType == XmlNodeType.Element)
{
ValidatingReaderNodeData element = AddContent(_coreReader.NodeType);
element.SetItemData(_coreReader.LocalName, _coreReader.Prefix, _coreReader.NamespaceURI, _coreReader.Depth); //Only created for element node type
element.SetLineInfo(_lineInfo);
RecordAttributes();
}
}
internal void Reset(XmlReader reader)
{
_coreReader = reader;
Init();
}
// Settings
public override XmlReaderSettings Settings
{
get
{
return _coreReader.Settings;
}
}
// Node Properties
// Gets the type of the current node.
public override XmlNodeType NodeType
{
get
{
return _cachedNode.NodeType;
}
}
// Gets the name of the current node, including the namespace prefix.
public override string Name
{
get
{
return _cachedNode.GetAtomizedNameWPrefix(_coreReaderNameTable);
}
}
// Gets the name of the current node without the namespace prefix.
public override string LocalName
{
get
{
return _cachedNode.LocalName;
}
}
// Gets the namespace URN (as defined in the W3C Namespace Specification) of the current namespace scope.
public override string NamespaceURI
{
get
{
return _cachedNode.Namespace;
}
}
// Gets the namespace prefix associated with the current node.
public override string Prefix
{
get
{
return _cachedNode.Prefix;
}
}
// Gets a value indicating whether the current node can have a non-empty Value.
public override bool HasValue
{
get
{
return XmlReader.HasValueInternal(_cachedNode.NodeType);
}
}
// Gets the text value of the current node.
public override string Value
{
get
{
return _returnOriginalStringValues ? _cachedNode.OriginalStringValue : _cachedNode.RawValue;
}
}
// Gets the depth of the current node in the XML element stack.
public override int Depth
{
get
{
return _cachedNode.Depth;
}
}
// Gets the base URI of the current node.
public override string BaseURI
{
get
{
return _coreReader.BaseURI;
}
}
// Gets a value indicating whether the current node is an empty element (for example, <MyElement/>).
public override bool IsEmptyElement
{
get
{
return false;
}
}
// Gets a value indicating whether the current node is an attribute that was generated from the default value defined
// in the DTD or schema.
public override bool IsDefault
{
get
{
return false;
}
}
// Gets the quotation mark character used to enclose the value of an attribute node.
public override char QuoteChar
{
get
{
return _coreReader.QuoteChar;
}
}
// Gets the current xml:space scope.
public override XmlSpace XmlSpace
{
get
{
return _coreReader.XmlSpace;
}
}
// Gets the current xml:lang scope.
public override string XmlLang
{
get
{
return _coreReader.XmlLang;
}
}
// Attribute Accessors
// The number of attributes on the current node.
public override int AttributeCount
{
get
{
return _attributeCount;
}
}
// Gets the value of the attribute with the specified Name.
public override string GetAttribute(string name)
{
int i;
if (name.IndexOf(':') == -1)
{
i = GetAttributeIndexWithoutPrefix(name);
}
else
{
i = GetAttributeIndexWithPrefix(name);
}
return (i >= 0) ? _attributeEvents[i].RawValue : null;
}
// Gets the value of the attribute with the specified LocalName and NamespaceURI.
public override string GetAttribute(string name, string namespaceURI)
{
namespaceURI = (namespaceURI == null) ? string.Empty : _coreReaderNameTable.Get(namespaceURI);
name = _coreReaderNameTable.Get(name);
ValidatingReaderNodeData attribute;
for (int i = 0; i < _attributeCount; i++)
{
attribute = _attributeEvents[i];
if (Ref.Equal(attribute.LocalName, name) && Ref.Equal(attribute.Namespace, namespaceURI))
{
return attribute.RawValue;
}
}
return null;
}
// Gets the value of the attribute with the specified index.
public override string GetAttribute(int i)
{
if (i < 0 || i >= _attributeCount)
{
throw new ArgumentOutOfRangeException("i");
}
return _attributeEvents[i].RawValue;
}
// Gets the value of the attribute with the specified index.
public override string this[int i]
{
get
{
return GetAttribute(i);
}
}
// Gets the value of the attribute with the specified Name.
public override string this[string name]
{
get
{
return GetAttribute(name);
}
}
// Gets the value of the attribute with the specified LocalName and NamespaceURI.
public override string this[string name, string namespaceURI]
{
get
{
return GetAttribute(name, namespaceURI);
}
}
// Moves to the attribute with the specified Name.
public override bool MoveToAttribute(string name)
{
int i;
if (name.IndexOf(':') == -1)
{
i = GetAttributeIndexWithoutPrefix(name);
}
else
{
i = GetAttributeIndexWithPrefix(name);
}
if (i >= 0)
{
_currentAttrIndex = i;
_cachedNode = _attributeEvents[i];
return true;
}
else
{
return false;
}
}
// Moves to the attribute with the specified LocalName and NamespaceURI
public override bool MoveToAttribute(string name, string ns)
{
ns = (ns == null) ? string.Empty : _coreReaderNameTable.Get(ns);
name = _coreReaderNameTable.Get(name);
ValidatingReaderNodeData attribute;
for (int i = 0; i < _attributeCount; i++)
{
attribute = _attributeEvents[i];
if (Ref.Equal(attribute.LocalName, name) &&
Ref.Equal(attribute.Namespace, ns))
{
_currentAttrIndex = i;
_cachedNode = _attributeEvents[i];
return true;
}
}
return false;
}
// Moves to the attribute with the specified index.
public override void MoveToAttribute(int i)
{
if (i < 0 || i >= _attributeCount)
{
throw new ArgumentOutOfRangeException("i");
}
_currentAttrIndex = i;
_cachedNode = _attributeEvents[i];
}
// Moves to the first attribute.
public override bool MoveToFirstAttribute()
{
if (_attributeCount == 0)
{
return false;
}
_currentAttrIndex = 0;
_cachedNode = _attributeEvents[0];
return true;
}
// Moves to the next attribute.
public override bool MoveToNextAttribute()
{
if (_currentAttrIndex + 1 < _attributeCount)
{
_cachedNode = _attributeEvents[++_currentAttrIndex];
return true;
}
return false;
}
// Moves to the element that contains the current attribute node.
public override bool MoveToElement()
{
if (_cacheState != CachingReaderState.Replay || _cachedNode.NodeType != XmlNodeType.Attribute)
{
return false;
}
_currentContentIndex = 0;
_currentAttrIndex = -1;
Read();
return true;
}
// Reads the next node from the stream/TextReader.
public override bool Read()
{
switch (_cacheState)
{
case CachingReaderState.Init:
_cacheState = CachingReaderState.Record;
goto case CachingReaderState.Record;
case CachingReaderState.Record:
ValidatingReaderNodeData recordedNode = null;
if (_coreReader.Read())
{
switch (_coreReader.NodeType)
{
case XmlNodeType.Element:
//Dont record element within the content of a union type since the main reader will break on this and the underlying coreReader will be positioned on this node
_cacheState = CachingReaderState.ReaderClosed;
return false;
case XmlNodeType.EndElement:
recordedNode = AddContent(_coreReader.NodeType);
recordedNode.SetItemData(_coreReader.LocalName, _coreReader.Prefix, _coreReader.NamespaceURI, _coreReader.Depth); //Only created for element node type
recordedNode.SetLineInfo(_lineInfo);
break;
case XmlNodeType.Comment:
case XmlNodeType.ProcessingInstruction:
case XmlNodeType.Text:
case XmlNodeType.CDATA:
case XmlNodeType.Whitespace:
case XmlNodeType.SignificantWhitespace:
recordedNode = AddContent(_coreReader.NodeType);
recordedNode.SetItemData(_coreReader.Value);
recordedNode.SetLineInfo(_lineInfo);
recordedNode.Depth = _coreReader.Depth;
break;
default:
break;
}
_cachedNode = recordedNode;
return true;
}
else
{
_cacheState = CachingReaderState.ReaderClosed;
return false;
}
case CachingReaderState.Replay:
if (_currentContentIndex >= _contentIndex)
{ //When positioned on the last cached node, switch back as the underlying coreReader is still positioned on this node
_cacheState = CachingReaderState.ReaderClosed;
_cacheHandler(this);
if (_coreReader.NodeType != XmlNodeType.Element || _readAhead)
{ //Only when coreReader not positioned on Element node, read ahead, otherwise it is on the next element node already, since this was not cached
return _coreReader.Read();
}
return true;
}
_cachedNode = _contentEvents[_currentContentIndex];
if (_currentContentIndex > 0)
{
ClearAttributesInfo();
}
_currentContentIndex++;
return true;
default:
return false;
}
}
internal ValidatingReaderNodeData RecordTextNode(string textValue, string originalStringValue, int depth, int lineNo, int linePos)
{
ValidatingReaderNodeData textNode = AddContent(XmlNodeType.Text);
textNode.SetItemData(textValue, originalStringValue);
textNode.SetLineInfo(lineNo, linePos);
textNode.Depth = depth;
return textNode;
}
internal void SwitchTextNodeAndEndElement(string textValue, string originalStringValue)
{
Debug.Assert(_coreReader.NodeType == XmlNodeType.EndElement || (_coreReader.NodeType == XmlNodeType.Element && _coreReader.IsEmptyElement));
ValidatingReaderNodeData textNode = RecordTextNode(textValue, originalStringValue, _coreReader.Depth + 1, 0, 0);
int endElementIndex = _contentIndex - 2;
ValidatingReaderNodeData endElementNode = _contentEvents[endElementIndex];
Debug.Assert(endElementNode.NodeType == XmlNodeType.EndElement);
_contentEvents[endElementIndex] = textNode;
_contentEvents[_contentIndex - 1] = endElementNode;
}
internal void RecordEndElementNode()
{
ValidatingReaderNodeData recordedNode = AddContent(XmlNodeType.EndElement);
Debug.Assert(_coreReader.NodeType == XmlNodeType.EndElement || (_coreReader.NodeType == XmlNodeType.Element && _coreReader.IsEmptyElement));
recordedNode.SetItemData(_coreReader.LocalName, _coreReader.Prefix, _coreReader.NamespaceURI, _coreReader.Depth);
recordedNode.SetLineInfo(_coreReader as IXmlLineInfo);
if (_coreReader.IsEmptyElement)
{ //Simulated endElement node for <e/>, the coreReader is on cached Element node itself.
_readAhead = true;
}
}
internal string ReadOriginalContentAsString()
{
_returnOriginalStringValues = true;
string strValue = InternalReadContentAsString();
_returnOriginalStringValues = false;
return strValue;
}
// Gets a value indicating whether XmlReader is positioned at the end of the stream.
public override bool EOF
{
get
{
return _cacheState == CachingReaderState.ReaderClosed && _coreReader.EOF;
}
}
// Closes the stream, changes the ReadState to Closed, and sets all the properties back to zero.
public override void Close()
{
_coreReader.Close();
_cacheState = CachingReaderState.ReaderClosed;
}
// Returns the read state of the stream.
public override ReadState ReadState
{
get
{
return _coreReader.ReadState;
}
}
// Skips to the end tag of the current element.
public override void Skip()
{
//Skip on caching reader should move to the end of the subtree, past all cached events
switch (_cachedNode.NodeType)
{
case XmlNodeType.Element:
if (_coreReader.NodeType != XmlNodeType.EndElement && !_readAhead)
{ //will be true for IsDefault cases where we peek only one node ahead
int startDepth = _coreReader.Depth - 1;
while (_coreReader.Read() && _coreReader.Depth > startDepth)
;
}
_coreReader.Read();
_cacheState = CachingReaderState.ReaderClosed;
_cacheHandler(this);
break;
case XmlNodeType.Attribute:
MoveToElement();
goto case XmlNodeType.Element;
default:
Debug.Assert(_cacheState == CachingReaderState.Replay);
Read();
break;
}
}
// Gets the XmlNameTable associated with this implementation.
public override XmlNameTable NameTable
{
get
{
return _coreReaderNameTable;
}
}
// Resolves a namespace prefix in the current element's scope.
public override string LookupNamespace(string prefix)
{
return _coreReader.LookupNamespace(prefix);
}
// Resolves the entity reference for nodes of NodeType EntityReference.
public override void ResolveEntity()
{
throw new InvalidOperationException();
}
// Parses the attribute value into one or more Text and/or EntityReference node types.
public override bool ReadAttributeValue()
{
Debug.Assert(_cacheState == CachingReaderState.Replay);
if (_cachedNode.NodeType != XmlNodeType.Attribute)
{
return false;
}
_cachedNode = CreateDummyTextNode(_cachedNode.RawValue, _cachedNode.Depth + 1);
return true;
}
//
// IXmlLineInfo members
//
bool IXmlLineInfo.HasLineInfo()
{
return true;
}
int IXmlLineInfo.LineNumber
{
get
{
return _cachedNode.LineNumber;
}
}
int IXmlLineInfo.LinePosition
{
get
{
return _cachedNode.LinePosition;
}
}
//Private methods
internal void SetToReplayMode()
{
_cacheState = CachingReaderState.Replay;
_currentContentIndex = 0;
_currentAttrIndex = -1;
Read(); //Position on first node recorded to begin replaying
}
internal XmlReader GetCoreReader()
{
return _coreReader;
}
internal IXmlLineInfo GetLineInfo()
{
return _lineInfo;
}
private void ClearAttributesInfo()
{
_attributeCount = 0;
_currentAttrIndex = -1;
}
private ValidatingReaderNodeData AddAttribute(int attIndex)
{
Debug.Assert(attIndex <= _attributeEvents.Length);
ValidatingReaderNodeData attInfo = _attributeEvents[attIndex];
if (attInfo != null)
{
attInfo.Clear(XmlNodeType.Attribute);
return attInfo;
}
if (attIndex >= _attributeEvents.Length - 1)
{ //reached capacity of array, Need to increase capacity to twice the initial
ValidatingReaderNodeData[] newAttributeEvents = new ValidatingReaderNodeData[_attributeEvents.Length * 2];
Array.Copy(_attributeEvents, 0, newAttributeEvents, 0, _attributeEvents.Length);
_attributeEvents = newAttributeEvents;
}
attInfo = _attributeEvents[attIndex];
if (attInfo == null)
{
attInfo = new ValidatingReaderNodeData(XmlNodeType.Attribute);
_attributeEvents[attIndex] = attInfo;
}
return attInfo;
}
private ValidatingReaderNodeData AddContent(XmlNodeType nodeType)
{
Debug.Assert(_contentIndex <= _contentEvents.Length);
ValidatingReaderNodeData contentInfo = _contentEvents[_contentIndex];
if (contentInfo != null)
{
contentInfo.Clear(nodeType);
_contentIndex++;
return contentInfo;
}
if (_contentIndex >= _contentEvents.Length - 1)
{ //reached capacity of array, Need to increase capacity to twice the initial
ValidatingReaderNodeData[] newContentEvents = new ValidatingReaderNodeData[_contentEvents.Length * 2];
Array.Copy(_contentEvents, 0, newContentEvents, 0, _contentEvents.Length);
_contentEvents = newContentEvents;
}
contentInfo = _contentEvents[_contentIndex];
if (contentInfo == null)
{
contentInfo = new ValidatingReaderNodeData(nodeType);
_contentEvents[_contentIndex] = contentInfo;
}
_contentIndex++;
return contentInfo;
}
private void RecordAttributes()
{
Debug.Assert(_coreReader.NodeType == XmlNodeType.Element);
ValidatingReaderNodeData attInfo;
_attributeCount = _coreReader.AttributeCount;
if (_coreReader.MoveToFirstAttribute())
{
int attIndex = 0;
do
{
attInfo = AddAttribute(attIndex);
attInfo.SetItemData(_coreReader.LocalName, _coreReader.Prefix, _coreReader.NamespaceURI, _coreReader.Depth);
attInfo.SetLineInfo(_lineInfo);
attInfo.RawValue = _coreReader.Value;
attIndex++;
} while (_coreReader.MoveToNextAttribute());
_coreReader.MoveToElement();
}
}
private int GetAttributeIndexWithoutPrefix(string name)
{
name = _coreReaderNameTable.Get(name);
if (name == null)
{
return -1;
}
ValidatingReaderNodeData attribute;
for (int i = 0; i < _attributeCount; i++)
{
attribute = _attributeEvents[i];
if (Ref.Equal(attribute.LocalName, name) && attribute.Prefix.Length == 0)
{
return i;
}
}
return -1;
}
private int GetAttributeIndexWithPrefix(string name)
{
name = _coreReaderNameTable.Get(name);
if (name == null)
{
return -1;
}
ValidatingReaderNodeData attribute;
for (int i = 0; i < _attributeCount; i++)
{
attribute = _attributeEvents[i];
if (Ref.Equal(attribute.GetAtomizedNameWPrefix(_coreReaderNameTable), name))
{
return i;
}
}
return -1;
}
private ValidatingReaderNodeData CreateDummyTextNode(string attributeValue, int depth)
{
if (_textNode == null)
{
_textNode = new ValidatingReaderNodeData(XmlNodeType.Text);
}
_textNode.Depth = depth;
_textNode.RawValue = attributeValue;
return _textNode;
}
}
}
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