//------------------------------------------------------------------------------
//
// Copyright (c) Microsoft Corporation. All rights reserved.
//
// Microsoft
//------------------------------------------------------------------------------
namespace MS.Internal.Xml.XPath {
using System;
using System.Xml;
using System.Xml.XPath;
using System.Diagnostics;
using System.Globalization;
using System.Xml.Xsl;
using System.Collections;
internal abstract class BaseAxisQuery : Query {
internal Query qyInput;
bool nameTest;
string name;
string prefix;
string nsUri;
XPathNodeType typeTest;
// these two things are the state of this class
// that need to be reset whenever the context changes.
protected XPathNavigator currentNode;
protected int position;
protected BaseAxisQuery(Query qyInput) {
this.name = string.Empty;
this.prefix = string.Empty;
this.nsUri = string.Empty;
this.qyInput = qyInput;
}
protected BaseAxisQuery(Query qyInput, string name, string prefix, XPathNodeType typeTest) {
Debug.Assert(qyInput != null);
this.qyInput = qyInput;
this.name = name;
this.prefix = prefix;
this.typeTest = typeTest;
this.nameTest = prefix.Length != 0 || name.Length != 0;
this.nsUri = string.Empty;
}
protected BaseAxisQuery(BaseAxisQuery other) : base(other) {
this.qyInput = Clone(other.qyInput);
this.name = other.name;
this.prefix = other.prefix;
this.nsUri = other.nsUri;
this.typeTest = other.typeTest;
this.nameTest = other.nameTest;
this.position = other.position;
this.currentNode = other.currentNode;
}
public override void Reset() {
position = 0;
currentNode = null; // After this current will not point to context node from Evaluate() call
// But this is ok, becuase there is no public Reset() on XPathNodeIterator
qyInput.Reset();
}
public override void SetXsltContext(XsltContext context) {
Debug.Assert(context != null);
nsUri = context.LookupNamespace(prefix);
qyInput.SetXsltContext(context);
}
protected string Name { get { return name; } }
protected string Prefix { get { return prefix; } }
protected string Namespace { get { return nsUri; } }
protected bool NameTest { get { return nameTest; } }
protected XPathNodeType TypeTest { get { return typeTest; } }
public override int CurrentPosition { get { return position; } }
public override XPathNavigator Current { get { return currentNode; } }
public virtual bool matches(XPathNavigator e) {
if (
TypeTest == e.NodeType ||
TypeTest == XPathNodeType.All ||
TypeTest == XPathNodeType.Text && (e.NodeType == XPathNodeType.Whitespace || e.NodeType == XPathNodeType.SignificantWhitespace)
) {
if (NameTest) {
if (name.Equals(e.LocalName) || name.Length == 0) {
if (nsUri.Equals(e.NamespaceURI)){
return true;
}
}
} else {
return true;
}
}
return false;
}
public override object Evaluate(XPathNodeIterator nodeIterator) {
ResetCount();
Reset();
qyInput.Evaluate(nodeIterator);
AssertQuery(qyInput);
return this;
}
public override double XsltDefaultPriority { get {
if (qyInput.GetType() != typeof(ContextQuery)) {
return 0.5; // a/b a[b] id('s')/a
}
Debug.Assert(this is AttributeQuery || this is ChildrenQuery);
if (name.Length != 0) {
return 0; // p:foo, foo, processing-instruction("foo")
}
if (prefix.Length != 0) {
return -0.25; // p:*
}
return -0.5; // *, text(), node()
} }
public override XPathResultType StaticType { get { return XPathResultType.NodeSet; } }
public override void PrintQuery(XmlWriter w) {
w.WriteStartElement(this.GetType().Name);
if (NameTest) {
w.WriteAttributeString("name", Prefix.Length != 0 ? Prefix + ':' + Name : Name);
}
if (TypeTest != XPathNodeType.Element) {
w.WriteAttributeString("nodeType", TypeTest.ToString());
}
qyInput.PrintQuery(w);
w.WriteEndElement();
}
}
}