Code:
/ 4.0 / 4.0 / DEVDIV_TFS / Dev10 / Releases / RTMRel / ndp / fx / src / XmlUtils / System / Xml / Xsl / Xslt / XslAstAnalyzer.cs / 1305376 / XslAstAnalyzer.cs
//------------------------------------------------------------------------------
//
// Copyright (c) Microsoft Corporation. All rights reserved.
//
// [....]
//-----------------------------------------------------------------------------
using System.Globalization;
using System.Collections.Generic;
using System.Diagnostics;
using System.Xml.XPath;
using System.Xml.Xsl.Qil;
using System.Xml.Xsl.Runtime;
using System.Xml.Xsl.XPath;
namespace System.Xml.Xsl.Xslt {
using TypeFactory = XmlQueryTypeFactory;
using XPathFunctionInfo = XPathBuilder.FunctionInfo;
using XsltFunctionInfo = XPathBuilder.FunctionInfo;
// ------------------------------- XslAstAnalyzer -------------------------------
internal class XslAstAnalyzer : XslVisitor {
private CompilerScopeManager scope;
private Compiler compiler;
#if DEBUG
// List of all variables and parameters
private List allVarPars = new List();
#endif
private int forEachDepth = 0;
private XPathAnalyzer xpathAnalyzer;
private ProtoTemplate currentTemplate;
// Type donor of the last analyzed VarPar. Used for optimization of WithParam's.
private VarPar typeDonor;
// Template dependencies
// rev/fwd - Callee-to-Coller/Coller-to-Callee
// 0/1 - for-each depth
private Graph revCall0Graph = new Graph();
private Graph revCall1Graph = new Graph();
private Dictionary fwdApplyImportsGraph = new Dictionary();
private Dictionary> revApplyTemplatesGraph = new Dictionary>();
// Data flow graph
private Graph dataFlow = new Graph();
// Mapping (mode, param name) -> helper vertex in data flow graph
private Dictionary applyTemplatesParams = new Dictionary();
// ---------------------------------- Graph ----------------------------------
///
/// Represents a graph using hashtable of adjacency lists.
///
/// Vertex type
internal class Graph : Dictionary>
where V : XslNode
{
private static IList empty = (new List()).AsReadOnly();
public IEnumerable GetAdjList(V v) {
List adjList;
if (TryGetValue(v, out adjList) && adjList != null) {
return adjList;
}
return empty;
}
public void AddEdge(V v1, V v2) {
// Ignore loops
if ((object)v1 == (object)v2) {
return;
}
List adjList;
if (!TryGetValue(v1, out adjList) || adjList == null) {
adjList = this[v1] = new List();
}
// NOTE: We do not check for duplicate edges here
adjList.Add(v2);
if (!TryGetValue(v2, out adjList)) {
this[v2] = null;
}
Debug.WriteLineIf(DiagnosticsSwitches.XslTypeInference.TraceVerbose, v1.TraceName + " -> " + v2.TraceName);
}
public void PropagateFlag(XslFlags flag) {
// Clean Stop flags
foreach (V v in Keys) {
v.Flags &= ~XslFlags.Stop;
}
foreach (V v in Keys) {
if ((v.Flags & XslFlags.Stop) == 0) {
if ((v.Flags & flag) != 0) {
DepthFirstSearch(v, flag);
}
}
}
}
private void DepthFirstSearch(V v, XslFlags flag) {
Debug.Assert((v.Flags & XslFlags.Stop) == 0, "Already visited this vertex");
v.Flags |= (flag | XslFlags.Stop);
foreach (V u in GetAdjList(v)) {
if ((u.Flags & XslFlags.Stop) == 0) {
DepthFirstSearch(u, flag);
}
Debug.Assert((u.Flags & flag) == flag, "Flag was not set on an adjacent vertex");
}
}
}
internal struct ModeName {
public QilName Mode;
public QilName Name;
public ModeName(QilName mode, QilName name) {
this.Mode = mode;
this.Name = name;
}
public override int GetHashCode() {
return Mode.GetHashCode() ^ Name.GetHashCode();
}
}
public XslFlags Analyze(Compiler compiler) {
this.compiler = compiler;
this.scope = new CompilerScopeManager();
this.xpathAnalyzer = new XPathAnalyzer(compiler, scope);
// Add global parameters and variables to the scope, they are visible everywhere
foreach (VarPar par in compiler.ExternalPars) {
scope.AddVariable(par.Name, par);
}
foreach (VarPar var in compiler.GlobalVars) {
scope.AddVariable(var.Name, var);
}
// Visit global parameters and variables, but ignore calculated flags
foreach (VarPar par in compiler.ExternalPars) {
Visit(par);
par.Flags |= XslFlags.AnyType;
}
foreach (VarPar var in compiler.GlobalVars) {
Visit(var);
}
// Global "----" current/position/last flags
XslFlags result = XslFlags.None;
// Visit templates and attribute sets
foreach (ProtoTemplate tmpl in compiler.AllTemplates) {
currentTemplate = tmpl;
result |= Visit(tmpl);
}
// At this point for every local parameter we know whether its default value could be used
// by one of the callers of its template. Update flags for local parameters accordingly.
foreach (ProtoTemplate tmpl in compiler.AllTemplates) {
foreach (XslNode instr in tmpl.Content) {
// Take care of a bizarre case pair in fwdApplyImportsGraph) {
foreach (Stylesheet import in pair.Value.Imports) {
AddImportDependencies(import, /*focusDonor:*/pair.Key);
}
}
fwdApplyImportsGraph = null; // Finaly done with this.
if ((result & XslFlags.Current) != 0) {
revCall0Graph.PropagateFlag(XslFlags.Current);
}
if ((result & XslFlags.Position) != 0) {
revCall0Graph.PropagateFlag(XslFlags.Position);
}
if ((result & XslFlags.Last) != 0) {
revCall0Graph.PropagateFlag(XslFlags.Last);
}
if ((result & XslFlags.SideEffects) != 0) {
PropagateSideEffectsFlag();
}
revCall0Graph = null;
revCall1Graph = null;
revApplyTemplatesGraph = null;
// We can do this only after all flags were propagated.
// Otherwise we can miss case when flag comes to template from attribute-set
FillModeFlags(compiler.Root.ModeFlags, compiler.Root.Imports[0]);
TraceResults();
return result;
}
private void AddImportDependencies(Stylesheet sheet, Template focusDonor) {
foreach (Template tmpl in sheet.Templates) {
if (tmpl.Mode.Equals(focusDonor.Mode)) {
revCall0Graph.AddEdge(tmpl, focusDonor);
}
}
foreach (Stylesheet import in sheet.Imports) {
AddImportDependencies(import, focusDonor);
}
}
private void FillModeFlags(Dictionary parentModeFlags, Stylesheet sheet) {
// Recursion: Process all imports to calculate ModeFlags for apply-import in this sheet
foreach (Stylesheet import in sheet.Imports) {
FillModeFlags(sheet.ModeFlags, import);
}
// My parrent depend on my my templates and templates imported
// 1. Copy ModeFlags of my imports to my parent
foreach (KeyValuePair modeFlag in sheet.ModeFlags) {
XslFlags modeFlags;
if (! parentModeFlags.TryGetValue(modeFlag.Key, out modeFlags)) {
modeFlags = 0;
}
parentModeFlags[modeFlag.Key] = modeFlags | modeFlag.Value;
}
// 2. Add ModeFlags of my templates to my parent
foreach (Template tmpl in sheet.Templates) {
Debug.Assert(tmpl.Match != null);
XslFlags templateFlags = tmpl.Flags & (XslFlags.FocusFilter | XslFlags.SideEffects);
if (templateFlags != 0) {
XslFlags modeFlags;
if (! parentModeFlags.TryGetValue(tmpl.Mode, out modeFlags)) {
modeFlags = 0;
}
parentModeFlags[tmpl.Mode] = modeFlags | templateFlags;
}
}
}
private void TraceResults() {
#if DEBUG
if (DiagnosticsSwitches.XslTypeInference.TraceVerbose) {
Debug.WriteLine(string.Empty);
foreach (ProtoTemplate tmpl in compiler.AllTemplates) {
Debug.WriteLine(tmpl.TraceName + " = " + (tmpl.Flags & XslFlags.FocusFilter));
}
Debug.WriteLine(string.Empty);
foreach (VarPar varPar in allVarPars) {
Debug.WriteLine(varPar.TraceName + " = " + (varPar.Flags & XslFlags.TypeFilter));
}
Debug.WriteLine(string.Empty);
}
if (DiagnosticsSwitches.XslTypeInference.TraceInfo) {
int current = 0, position = 0, last = 0;
foreach (ProtoTemplate tmpl in compiler.AllTemplates) {
if ((tmpl.Flags & XslFlags.Current) != 0) {
current++;
}
if ((tmpl.Flags & XslFlags.Position) != 0) {
position++;
}
if ((tmpl.Flags & XslFlags.Last) != 0) {
last++;
}
}
int stringType = 0, numberType = 0, booleanType = 0, nodeNotRtfType = 0, nodesetNotRtfType = 0;
int nodeType = 0, nodesetType = 0, noneType = 0, anyType = 0, totalVarPars = 0;
foreach (VarPar varPar in allVarPars) {
switch (varPar.Flags & XslFlags.TypeFilter) {
case XslFlags.String : stringType++; break;
case XslFlags.Number : numberType++; break;
case XslFlags.Boolean : booleanType++; break;
case XslFlags.Node : nodeNotRtfType++; break;
case XslFlags.Nodeset : nodesetNotRtfType++; break;
case XslFlags.Rtf : nodeType++; break;
case XslFlags.Node | XslFlags.Rtf : nodeType++; break;
case XslFlags.Node | XslFlags.Nodeset : nodesetNotRtfType++; break;
case XslFlags.Nodeset | XslFlags.Rtf : nodesetType++; break;
case XslFlags.Node | XslFlags.Nodeset | XslFlags.Rtf : nodesetType++; break;
case XslFlags.None : noneType++; break;
default : anyType++; break;
}
totalVarPars++;
}
Debug.WriteLine(string.Format(CultureInfo.InvariantCulture,
"Total => templates/attribute-sets: {0}, variables/parameters: {1}.",
compiler.AllTemplates.Count, totalVarPars
));
Debug.WriteLine(string.Format(CultureInfo.InvariantCulture,
"Inferred focus => current: {0}, position: {1}, last: {2}.",
current, position, last
));
Debug.WriteLine(string.Format(CultureInfo.InvariantCulture,
"Inferred types => string: {0}, number: {1}, boolean: {2}, node: {3}, node-set: {4}, " +
"node-or-rtf: {5}, node-set-or-rtf: {6}, none: {7}, any: {8}.",
stringType, numberType, booleanType, nodeNotRtfType, nodesetNotRtfType,
nodeType, nodesetType, noneType, anyType
));
}
#endif
}
protected override XslFlags Visit(XslNode node) {
scope.EnterScope(node.Namespaces);
XslFlags result = base.Visit(node);
scope.ExitScope();
// Local variables and parameters must be added to the outer scope
if (currentTemplate != null && (node.NodeType == XslNodeType.Variable || node.NodeType == XslNodeType.Param)) {
scope.AddVariable(node.Name, (VarPar)node);
}
Debug.Assert(
(result & XslFlags.TypeFilter & ~XslFlags.Rtf) == 0,
"Instructions always return Rtf. node=" + node.NodeType.ToString() + " result=" + result.ToString()
);
return result;
}
protected override XslFlags VisitChildren(XslNode node) {
XslFlags result = XslFlags.None;
foreach (XslNode child in node.Content) {
result |= this.Visit(child);
}
return result;
}
protected override XslFlags VisitAttributeSet(AttributeSet node) {
// @use-attribute-sets was processed into a sequence of UseAttributeSet nodes,
// which were prepended to the content of node
node.Flags = VisitChildren(node);
return node.Flags;
}
protected override XslFlags VisitTemplate(Template node) {
// @match does not affect any flags
//ProcessPattern(match);
node.Flags = VisitChildren(node);
return node.Flags;
}
protected override XslFlags VisitApplyImports(XslNode node) {
Debug.Assert(this.forEachDepth == 0, "xsl:apply-imports cannot be inside of xsl:for-each");
Debug.Assert(currentTemplate is Template, "xsl:apply-imports can only occur within xsl:template");
fwdApplyImportsGraph[(Template)currentTemplate] = (Stylesheet)node.Arg;
// xsl:apply-imports uses context node and is not in context of any for-each so it requires current
return XslFlags.HasCalls | XslFlags.Current | XslFlags.Rtf;
}
protected override XslFlags VisitApplyTemplates(XslNode node) {
Debug.Assert(node.Select != null, "Absent @select should be replaced with 'node()' in XsltLoader");
XslFlags result = ProcessExpr(node.Select);
foreach (XslNode instr in node.Content) {
result |= Visit(instr);
if (instr.NodeType == XslNodeType.WithParam) {
ModeName mn = new ModeName(/*mode:*/node.Name, instr.Name);
VarPar modePar;
if (!applyTemplatesParams.TryGetValue(mn, out modePar)) {
modePar = applyTemplatesParams[mn] = AstFactory.WithParam(instr.Name);
}
if (typeDonor != null) {
dataFlow.AddEdge(typeDonor, modePar);
} else {
modePar.Flags |= instr.Flags & XslFlags.TypeFilter;
}
}
}
if (currentTemplate != null) {
AddApplyTemplatesEdge(/*mode:*/node.Name, currentTemplate);
}
return XslFlags.HasCalls | XslFlags.Rtf | result;
}
protected override XslFlags VisitAttribute(NodeCtor node) {
return (
XslFlags.Rtf |
ProcessAvt(node.NameAvt) |
ProcessAvt(node.NsAvt) |
VisitChildren(node)
);
}
protected override XslFlags VisitCallTemplate(XslNode node) {
XslFlags result = XslFlags.None;
Template target;
if (!compiler.NamedTemplates.TryGetValue(node.Name, out target)) {
Debug.WriteLineIf(DiagnosticsSwitches.XslTypeInference.TraceError, "Unknown template " + node.Name.QualifiedName, "Error");
} else {
Debug.Assert(target != null);
if (currentTemplate != null) {
if (this.forEachDepth == 0) {
// ---- xsl:call-template, target would take its focus from currentTemplate
revCall0Graph.AddEdge(target, currentTemplate);
} else {
// in other cases we need it as donor for side effects flag
revCall1Graph.AddEdge(target, currentTemplate);
}
}
}
VarPar[] typeDonors = new VarPar[node.Content.Count];
int idx = 0;
foreach (XslNode instr in node.Content) {
Debug.Assert(instr.NodeType == XslNodeType.WithParam);
result |= Visit(instr);
typeDonors[idx++] = typeDonor;
}
// For each xsl:param in the target template find the corresponding xsl:with-param, and:
// a) if the type of xsl:with-param is known, add it to the type of xsl:param;
// b) if value of xsl:with-param is a VarPar reference, add an edge connecting it with xsl:param
// to the data flow graph.
if (target != null) {
foreach (XslNode instr in target.Content) {
// Take care of a bizarre case templates;
if (!revApplyTemplatesGraph.TryGetValue(mode, out templates)) {
templates = new List();
revApplyTemplatesGraph.Add(mode, templates);
} else {
if (templates[templates.Count - 1] == dependentTemplate) {
return; // this is a duplicate
}
}
templates.Add(dependentTemplate);
}
private void PropagateSideEffectsFlag() {
// Clean Stop flags
foreach (ProtoTemplate t in revCall0Graph.Keys) {
t.Flags &= ~XslFlags.Stop;
}
foreach (ProtoTemplate t in revCall1Graph.Keys) {
t.Flags &= ~XslFlags.Stop;
}
foreach (ProtoTemplate t in revCall0Graph.Keys) {
if ((t.Flags & XslFlags.Stop) == 0) {
if ((t.Flags & XslFlags.SideEffects) != 0) {
DepthFirstSearch(t);
}
}
}
foreach (ProtoTemplate t in revCall1Graph.Keys) {
if ((t.Flags & XslFlags.Stop) == 0) {
if ((t.Flags & XslFlags.SideEffects) != 0) {
DepthFirstSearch(t);
}
}
}
}
private void DepthFirstSearch(ProtoTemplate t) {
Debug.Assert((t.Flags & XslFlags.Stop) == 0, "Already visited this vertex");
t.Flags |= (XslFlags.SideEffects | XslFlags.Stop);
List list;
foreach (ProtoTemplate u in revCall0Graph.GetAdjList(t)) {
if ((u.Flags & XslFlags.Stop) == 0) {
DepthFirstSearch(u);
}
Debug.Assert((u.Flags & XslFlags.SideEffects) == XslFlags.SideEffects, "Flag was not set on an adjacent vertex");
}
foreach (ProtoTemplate u in revCall1Graph.GetAdjList(t)) {
if ((u.Flags & XslFlags.Stop) == 0) {
DepthFirstSearch(u);
}
Debug.Assert((u.Flags & XslFlags.SideEffects) == XslFlags.SideEffects, "Flag was not set on an adjacent vertex");
}
Template template = t as Template;
if (
template != null && // This ProteTemplate is Template
revApplyTemplatesGraph.TryGetValue(template.Mode, out list) // list - ProtoTemplates that have apply-templatess mode="{template.Mode}"
) {
revApplyTemplatesGraph.Remove(template.Mode); // to prevent recursion remove this list from dictionary
foreach (ProtoTemplate u in list) {
if ((u.Flags & XslFlags.Stop) == 0) {
DepthFirstSearch(u);
}
Debug.Assert((u.Flags & XslFlags.SideEffects) == XslFlags.SideEffects, "Flag was not set on an adjacent vertex");
}
}
}
// ------------------------------- XPathAnalyzer --------------------------------
// Ignores all errors and warnings
internal struct NullErrorHelper : IErrorHelper {
public void ReportError(string res, params string[] args) { }
public void ReportWarning(string res, params string[] args) { }
}
internal class XPathAnalyzer : IXPathBuilder {
private XPathParser xpathParser = new XPathParser();
private CompilerScopeManager scope;
private Compiler compiler;
// True if the expression needs XSLT's current() node
private bool xsltCurrentNeeded;
// If the expression is just a reference to some VarPar, like "(($foo))",
// then this field contains that VarPar, and null otherwise.
private VarPar typeDonor;
public VarPar TypeDonor {
get { return typeDonor; }
}
public XPathAnalyzer(Compiler compiler, CompilerScopeManager scope) {
this.compiler = compiler;
this.scope = scope;
}
public XslFlags Analyze(string xpathExpr) {
typeDonor = null;
if (xpathExpr == null) {
return XslFlags.None;
}
try {
// Note that the constructor may throw an exception, for example, in case of the expression "'"
xsltCurrentNeeded = false;
XPathScanner scanner = new XPathScanner(xpathExpr);
XslFlags result = xpathParser.Parse(scanner, this, LexKind.Eof);
if (xsltCurrentNeeded) {
result |= XslFlags.Current;
}
return result;
} catch (XslLoadException) {
return XslFlags.AnyType | XslFlags.FullFocus;
}
}
public XslFlags AnalyzeAvt(string source) {
typeDonor = null;
if (source == null) {
return XslFlags.None;
}
try {
xsltCurrentNeeded = false;
XslFlags result = XslFlags.None;
int pos = 0;
while (pos < source.Length) {
pos = source.IndexOf('{', pos);
if (pos == -1) {
break; // no more AVTs
}
pos++;
if (pos < source.Length && source[pos] == '{') { // "{{"
pos++;
continue;
}
if (pos < source.Length) { // '{' encountered, parse an expression
XPathScanner scanner = new XPathScanner(source, pos);
result |= xpathParser.Parse(scanner, this, LexKind.RBrace);
pos = scanner.LexStart + 1;
}
}
if (xsltCurrentNeeded) {
result |= XslFlags.Current;
}
return result & ~XslFlags.TypeFilter;
} catch (XslLoadException) {
return XslFlags.FullFocus;
}
}
// Returns null in case of error
private VarPar ResolveVariable(string prefix, string name) {
string ns = ResolvePrefix(prefix);
if (ns == null) {
return null;
}
return scope.LookupVariable(name, ns);
}
// Returns null in case of error
private string ResolvePrefix(string prefix) {
// ignoreDefaultNs == true
if (prefix.Length == 0) {
return string.Empty;
} else {
return scope.LookupNamespace(prefix);
}
}
public virtual void StartBuild() {
}
public virtual XslFlags EndBuild(XslFlags result) {
return result;
}
public virtual XslFlags String(string value) {
typeDonor = null;
return XslFlags.String;
}
public virtual XslFlags Number(double value) {
typeDonor = null;
return XslFlags.Number;
}
private static XslFlags[] OperatorType = {
/*Unknown */ XslFlags.AnyType,
/*Or */ XslFlags.Boolean,
/*And */ XslFlags.Boolean,
/*Eq */ XslFlags.Boolean,
/*Ne */ XslFlags.Boolean,
/*Lt */ XslFlags.Boolean,
/*Le */ XslFlags.Boolean,
/*Gt */ XslFlags.Boolean,
/*Ge */ XslFlags.Boolean,
/*Plus */ XslFlags.Number ,
/*Minus */ XslFlags.Number ,
/*Multiply */ XslFlags.Number ,
/*Divide */ XslFlags.Number ,
/*Modulo */ XslFlags.Number ,
/*UnaryMinus*/ XslFlags.Number ,
/*Union */ XslFlags.Nodeset,
};
public virtual XslFlags Operator(XPathOperator op, XslFlags left, XslFlags right) {
typeDonor = null;
Debug.Assert(op != XPathOperator.Unknown);
XslFlags result = (left | right) & ~XslFlags.TypeFilter;
return result | OperatorType[(int)op];
}
public virtual XslFlags Axis(XPathAxis xpathAxis, XPathNodeType nodeType, string prefix, string name) {
typeDonor = null;
if (xpathAxis == XPathAxis.Self && nodeType == XPathNodeType.All && prefix == null && name == null) {
return XslFlags.Current | XslFlags.Node;
} else {
return XslFlags.Current | XslFlags.Nodeset;
}
}
// "left/right"
public virtual XslFlags JoinStep(XslFlags left, XslFlags right) {
typeDonor = null;
return (left & ~XslFlags.TypeFilter) | XslFlags.Nodeset; // "ex:Foo(position())/Bar"
}
// "nodeset[predicate]"
public virtual XslFlags Predicate(XslFlags nodeset, XslFlags predicate, bool isReverseStep) {
typeDonor = null;
return (nodeset & ~XslFlags.TypeFilter) | XslFlags.Nodeset | (predicate & XslFlags.SideEffects); // "ex:Foo(position())[Bar]"
}
public virtual XslFlags Variable(string prefix, string name) {
typeDonor = ResolveVariable(prefix, name);
if (typeDonor == null) {
Debug.WriteLineIf(DiagnosticsSwitches.XslTypeInference.TraceError, "Unresolved variable " + Compiler.ConstructQName(prefix, name), "Error");
return XslFlags.AnyType;
}
return XslFlags.None;
}
public virtual XslFlags Function(string prefix, string name, IList args) {
typeDonor = null;
XslFlags argsFlags = XslFlags.None;
foreach (XslFlags t in args) {
argsFlags |= t;
}
XslFlags funcFlags = XslFlags.None;
if (prefix.Length == 0) {
XPathFunctionInfo xpathFunc;
XsltFunctionInfo xsltFunc;
if (XPathBuilder.FunctionTable.TryGetValue(name, out xpathFunc)) {
XPathBuilder.FuncId funcId = xpathFunc.id;
funcFlags = XPathFunctionFlags[(int)funcId];
if (args.Count == 0 && (
funcId == XPathBuilder.FuncId.LocalName ||
funcId == XPathBuilder.FuncId.NamespaceUri ||
funcId == XPathBuilder.FuncId.Name ||
funcId == XPathBuilder.FuncId.String ||
funcId == XPathBuilder.FuncId.Number ||
funcId == XPathBuilder.FuncId.StringLength ||
funcId == XPathBuilder.FuncId.Normalize
)) {
funcFlags |= XslFlags.Current;
}
} else if (QilGenerator.FunctionTable.TryGetValue(name, out xsltFunc)) {
QilGenerator.FuncId funcId = xsltFunc.id;
funcFlags = XsltFunctionFlags[(int)funcId];
if (funcId == QilGenerator.FuncId.Current) {
xsltCurrentNeeded = true;
} else if (funcId == QilGenerator.FuncId.GenerateId && args.Count == 0) {
funcFlags |= XslFlags.Current;
}
}
} else {
string ns = ResolvePrefix(prefix);
if (ns == XmlReservedNs.NsMsxsl) {
switch (name) {
case "node-set": funcFlags = XslFlags.Nodeset; break;
case "string-compare": funcFlags = XslFlags.Number; break;
case "utc": funcFlags = XslFlags.String; break;
case "format-date": funcFlags = XslFlags.String; break;
case "format-time": funcFlags = XslFlags.String; break;
case "local-name": funcFlags = XslFlags.String; break;
case "namespace-uri": funcFlags = XslFlags.String; break;
case "number": funcFlags = XslFlags.Number; break;
}
} else if (ns == XmlReservedNs.NsExsltCommon) {
switch (name) {
case "node-set": funcFlags = XslFlags.Nodeset; break;
case "object-type": funcFlags = XslFlags.String; break;
}
}
if (funcFlags == XslFlags.None) {
// Unknown function. Can be script function or extension function
funcFlags = XslFlags.AnyType;
if (compiler.Settings.EnableScript && ns != null) {
XmlExtensionFunction scrFunc = compiler.Scripts.ResolveFunction(name, ns, args.Count, new NullErrorHelper());
if (scrFunc != null) {
XmlQueryType xt = scrFunc.XmlReturnType;
if (xt == TypeFactory.StringX) {
funcFlags = XslFlags.String;
} else if (xt == TypeFactory.DoubleX) {
funcFlags = XslFlags.Number;
} else if (xt == TypeFactory.BooleanX) {
funcFlags = XslFlags.Boolean;
} else if (xt == TypeFactory.NodeNotRtf) {
funcFlags = XslFlags.Node;
} else if (xt == TypeFactory.NodeSDod) {
funcFlags = XslFlags.Nodeset;
} else if (xt == TypeFactory.ItemS) {
funcFlags = XslFlags.AnyType;
} else if (xt == TypeFactory.Empty) {
funcFlags = XslFlags.Nodeset;
} else {
Debug.Fail("Unexpected XmlQueryType for script function: " + xt.ToString());
}
}
}
funcFlags |= XslFlags.SideEffects;
}
}
return (argsFlags & ~XslFlags.TypeFilter) | funcFlags;
}
#region XPath Function Flags
private static XslFlags[] XPathFunctionFlags = {
/*Last */ XslFlags.Number | XslFlags.Last,
/*Position */ XslFlags.Number | XslFlags.Position,
/*Count */ XslFlags.Number,
/*LocalName */ XslFlags.String, // | XslFlags.Current if 0 args
/*NamespaceUri */ XslFlags.String, // | XslFlags.Current if 0 args
/*Name */ XslFlags.String, // | XslFlags.Current if 0 args
/*String */ XslFlags.String, // | XslFlags.Current if 0 args
/*Number */ XslFlags.Number, // | XslFlags.Current if 0 args
/*Boolean */ XslFlags.Boolean,
/*True */ XslFlags.Boolean,
/*False */ XslFlags.Boolean,
/*Not */ XslFlags.Boolean,
/*Id */ XslFlags.Nodeset | XslFlags.Current,
/*Concat */ XslFlags.String,
/*StartsWith */ XslFlags.Boolean,
/*Contains */ XslFlags.Boolean,
/*SubstringBefore */ XslFlags.String,
/*SubstringAfter */ XslFlags.String,
/*Substring */ XslFlags.String,
/*StringLength */ XslFlags.Number, // | XslFlags.Current if 0 args
/*Normalize */ XslFlags.String, // | XslFlags.Current if 0 args
/*Translate */ XslFlags.String,
/*Lang */ XslFlags.Boolean | XslFlags.Current,
/*Sum */ XslFlags.Number,
/*Floor */ XslFlags.Number,
/*Ceiling */ XslFlags.Number,
/*Round */ XslFlags.Number,
};
#endregion
#region Xslt Function Flags
private static XslFlags[] XsltFunctionFlags = {
/*Current */ XslFlags.Node, // xsltCurrentNeeded = true
/*Document */ XslFlags.Nodeset,
/*Key */ XslFlags.Nodeset | XslFlags.Current,
/*FormatNumber */ XslFlags.String,
/*UnparsedEntityUri */ XslFlags.String, // | XslFlags.Current if it is implemented
/*GenerateId */ XslFlags.String, // | XslFlags.Current if 0 args
/*SystemProperty */ XslFlags.String | XslFlags.Number,
/*ElementAvailable */ XslFlags.Boolean,
/*FunctionAvailable */ XslFlags.Boolean,
};
#endregion
}
}
}
// File provided for Reference Use Only by Microsoft Corporation (c) 2007.
//------------------------------------------------------------------------------
//
// Copyright (c) Microsoft Corporation. All rights reserved.
//
// [....]
//-----------------------------------------------------------------------------
using System.Globalization;
using System.Collections.Generic;
using System.Diagnostics;
using System.Xml.XPath;
using System.Xml.Xsl.Qil;
using System.Xml.Xsl.Runtime;
using System.Xml.Xsl.XPath;
namespace System.Xml.Xsl.Xslt {
using TypeFactory = XmlQueryTypeFactory;
using XPathFunctionInfo = XPathBuilder.FunctionInfo;
using XsltFunctionInfo = XPathBuilder.FunctionInfo;
// ------------------------------- XslAstAnalyzer -------------------------------
internal class XslAstAnalyzer : XslVisitor {
private CompilerScopeManager scope;
private Compiler compiler;
#if DEBUG
// List of all variables and parameters
private List allVarPars = new List();
#endif
private int forEachDepth = 0;
private XPathAnalyzer xpathAnalyzer;
private ProtoTemplate currentTemplate;
// Type donor of the last analyzed VarPar. Used for optimization of WithParam's.
private VarPar typeDonor;
// Template dependencies
// rev/fwd - Callee-to-Coller/Coller-to-Callee
// 0/1 - for-each depth
private Graph revCall0Graph = new Graph();
private Graph revCall1Graph = new Graph();
private Dictionary fwdApplyImportsGraph = new Dictionary();
private Dictionary> revApplyTemplatesGraph = new Dictionary>();
// Data flow graph
private Graph dataFlow = new Graph();
// Mapping (mode, param name) -> helper vertex in data flow graph
private Dictionary applyTemplatesParams = new Dictionary();
// ---------------------------------- Graph ----------------------------------
///
/// Represents a graph using hashtable of adjacency lists.
///
/// Vertex type
internal class Graph : Dictionary>
where V : XslNode
{
private static IList empty = (new List()).AsReadOnly();
public IEnumerable GetAdjList(V v) {
List adjList;
if (TryGetValue(v, out adjList) && adjList != null) {
return adjList;
}
return empty;
}
public void AddEdge(V v1, V v2) {
// Ignore loops
if ((object)v1 == (object)v2) {
return;
}
List adjList;
if (!TryGetValue(v1, out adjList) || adjList == null) {
adjList = this[v1] = new List();
}
// NOTE: We do not check for duplicate edges here
adjList.Add(v2);
if (!TryGetValue(v2, out adjList)) {
this[v2] = null;
}
Debug.WriteLineIf(DiagnosticsSwitches.XslTypeInference.TraceVerbose, v1.TraceName + " -> " + v2.TraceName);
}
public void PropagateFlag(XslFlags flag) {
// Clean Stop flags
foreach (V v in Keys) {
v.Flags &= ~XslFlags.Stop;
}
foreach (V v in Keys) {
if ((v.Flags & XslFlags.Stop) == 0) {
if ((v.Flags & flag) != 0) {
DepthFirstSearch(v, flag);
}
}
}
}
private void DepthFirstSearch(V v, XslFlags flag) {
Debug.Assert((v.Flags & XslFlags.Stop) == 0, "Already visited this vertex");
v.Flags |= (flag | XslFlags.Stop);
foreach (V u in GetAdjList(v)) {
if ((u.Flags & XslFlags.Stop) == 0) {
DepthFirstSearch(u, flag);
}
Debug.Assert((u.Flags & flag) == flag, "Flag was not set on an adjacent vertex");
}
}
}
internal struct ModeName {
public QilName Mode;
public QilName Name;
public ModeName(QilName mode, QilName name) {
this.Mode = mode;
this.Name = name;
}
public override int GetHashCode() {
return Mode.GetHashCode() ^ Name.GetHashCode();
}
}
public XslFlags Analyze(Compiler compiler) {
this.compiler = compiler;
this.scope = new CompilerScopeManager();
this.xpathAnalyzer = new XPathAnalyzer(compiler, scope);
// Add global parameters and variables to the scope, they are visible everywhere
foreach (VarPar par in compiler.ExternalPars) {
scope.AddVariable(par.Name, par);
}
foreach (VarPar var in compiler.GlobalVars) {
scope.AddVariable(var.Name, var);
}
// Visit global parameters and variables, but ignore calculated flags
foreach (VarPar par in compiler.ExternalPars) {
Visit(par);
par.Flags |= XslFlags.AnyType;
}
foreach (VarPar var in compiler.GlobalVars) {
Visit(var);
}
// Global "----" current/position/last flags
XslFlags result = XslFlags.None;
// Visit templates and attribute sets
foreach (ProtoTemplate tmpl in compiler.AllTemplates) {
currentTemplate = tmpl;
result |= Visit(tmpl);
}
// At this point for every local parameter we know whether its default value could be used
// by one of the callers of its template. Update flags for local parameters accordingly.
foreach (ProtoTemplate tmpl in compiler.AllTemplates) {
foreach (XslNode instr in tmpl.Content) {
// Take care of a bizarre case pair in fwdApplyImportsGraph) {
foreach (Stylesheet import in pair.Value.Imports) {
AddImportDependencies(import, /*focusDonor:*/pair.Key);
}
}
fwdApplyImportsGraph = null; // Finaly done with this.
if ((result & XslFlags.Current) != 0) {
revCall0Graph.PropagateFlag(XslFlags.Current);
}
if ((result & XslFlags.Position) != 0) {
revCall0Graph.PropagateFlag(XslFlags.Position);
}
if ((result & XslFlags.Last) != 0) {
revCall0Graph.PropagateFlag(XslFlags.Last);
}
if ((result & XslFlags.SideEffects) != 0) {
PropagateSideEffectsFlag();
}
revCall0Graph = null;
revCall1Graph = null;
revApplyTemplatesGraph = null;
// We can do this only after all flags were propagated.
// Otherwise we can miss case when flag comes to template from attribute-set
FillModeFlags(compiler.Root.ModeFlags, compiler.Root.Imports[0]);
TraceResults();
return result;
}
private void AddImportDependencies(Stylesheet sheet, Template focusDonor) {
foreach (Template tmpl in sheet.Templates) {
if (tmpl.Mode.Equals(focusDonor.Mode)) {
revCall0Graph.AddEdge(tmpl, focusDonor);
}
}
foreach (Stylesheet import in sheet.Imports) {
AddImportDependencies(import, focusDonor);
}
}
private void FillModeFlags(Dictionary parentModeFlags, Stylesheet sheet) {
// Recursion: Process all imports to calculate ModeFlags for apply-import in this sheet
foreach (Stylesheet import in sheet.Imports) {
FillModeFlags(sheet.ModeFlags, import);
}
// My parrent depend on my my templates and templates imported
// 1. Copy ModeFlags of my imports to my parent
foreach (KeyValuePair modeFlag in sheet.ModeFlags) {
XslFlags modeFlags;
if (! parentModeFlags.TryGetValue(modeFlag.Key, out modeFlags)) {
modeFlags = 0;
}
parentModeFlags[modeFlag.Key] = modeFlags | modeFlag.Value;
}
// 2. Add ModeFlags of my templates to my parent
foreach (Template tmpl in sheet.Templates) {
Debug.Assert(tmpl.Match != null);
XslFlags templateFlags = tmpl.Flags & (XslFlags.FocusFilter | XslFlags.SideEffects);
if (templateFlags != 0) {
XslFlags modeFlags;
if (! parentModeFlags.TryGetValue(tmpl.Mode, out modeFlags)) {
modeFlags = 0;
}
parentModeFlags[tmpl.Mode] = modeFlags | templateFlags;
}
}
}
private void TraceResults() {
#if DEBUG
if (DiagnosticsSwitches.XslTypeInference.TraceVerbose) {
Debug.WriteLine(string.Empty);
foreach (ProtoTemplate tmpl in compiler.AllTemplates) {
Debug.WriteLine(tmpl.TraceName + " = " + (tmpl.Flags & XslFlags.FocusFilter));
}
Debug.WriteLine(string.Empty);
foreach (VarPar varPar in allVarPars) {
Debug.WriteLine(varPar.TraceName + " = " + (varPar.Flags & XslFlags.TypeFilter));
}
Debug.WriteLine(string.Empty);
}
if (DiagnosticsSwitches.XslTypeInference.TraceInfo) {
int current = 0, position = 0, last = 0;
foreach (ProtoTemplate tmpl in compiler.AllTemplates) {
if ((tmpl.Flags & XslFlags.Current) != 0) {
current++;
}
if ((tmpl.Flags & XslFlags.Position) != 0) {
position++;
}
if ((tmpl.Flags & XslFlags.Last) != 0) {
last++;
}
}
int stringType = 0, numberType = 0, booleanType = 0, nodeNotRtfType = 0, nodesetNotRtfType = 0;
int nodeType = 0, nodesetType = 0, noneType = 0, anyType = 0, totalVarPars = 0;
foreach (VarPar varPar in allVarPars) {
switch (varPar.Flags & XslFlags.TypeFilter) {
case XslFlags.String : stringType++; break;
case XslFlags.Number : numberType++; break;
case XslFlags.Boolean : booleanType++; break;
case XslFlags.Node : nodeNotRtfType++; break;
case XslFlags.Nodeset : nodesetNotRtfType++; break;
case XslFlags.Rtf : nodeType++; break;
case XslFlags.Node | XslFlags.Rtf : nodeType++; break;
case XslFlags.Node | XslFlags.Nodeset : nodesetNotRtfType++; break;
case XslFlags.Nodeset | XslFlags.Rtf : nodesetType++; break;
case XslFlags.Node | XslFlags.Nodeset | XslFlags.Rtf : nodesetType++; break;
case XslFlags.None : noneType++; break;
default : anyType++; break;
}
totalVarPars++;
}
Debug.WriteLine(string.Format(CultureInfo.InvariantCulture,
"Total => templates/attribute-sets: {0}, variables/parameters: {1}.",
compiler.AllTemplates.Count, totalVarPars
));
Debug.WriteLine(string.Format(CultureInfo.InvariantCulture,
"Inferred focus => current: {0}, position: {1}, last: {2}.",
current, position, last
));
Debug.WriteLine(string.Format(CultureInfo.InvariantCulture,
"Inferred types => string: {0}, number: {1}, boolean: {2}, node: {3}, node-set: {4}, " +
"node-or-rtf: {5}, node-set-or-rtf: {6}, none: {7}, any: {8}.",
stringType, numberType, booleanType, nodeNotRtfType, nodesetNotRtfType,
nodeType, nodesetType, noneType, anyType
));
}
#endif
}
protected override XslFlags Visit(XslNode node) {
scope.EnterScope(node.Namespaces);
XslFlags result = base.Visit(node);
scope.ExitScope();
// Local variables and parameters must be added to the outer scope
if (currentTemplate != null && (node.NodeType == XslNodeType.Variable || node.NodeType == XslNodeType.Param)) {
scope.AddVariable(node.Name, (VarPar)node);
}
Debug.Assert(
(result & XslFlags.TypeFilter & ~XslFlags.Rtf) == 0,
"Instructions always return Rtf. node=" + node.NodeType.ToString() + " result=" + result.ToString()
);
return result;
}
protected override XslFlags VisitChildren(XslNode node) {
XslFlags result = XslFlags.None;
foreach (XslNode child in node.Content) {
result |= this.Visit(child);
}
return result;
}
protected override XslFlags VisitAttributeSet(AttributeSet node) {
// @use-attribute-sets was processed into a sequence of UseAttributeSet nodes,
// which were prepended to the content of node
node.Flags = VisitChildren(node);
return node.Flags;
}
protected override XslFlags VisitTemplate(Template node) {
// @match does not affect any flags
//ProcessPattern(match);
node.Flags = VisitChildren(node);
return node.Flags;
}
protected override XslFlags VisitApplyImports(XslNode node) {
Debug.Assert(this.forEachDepth == 0, "xsl:apply-imports cannot be inside of xsl:for-each");
Debug.Assert(currentTemplate is Template, "xsl:apply-imports can only occur within xsl:template");
fwdApplyImportsGraph[(Template)currentTemplate] = (Stylesheet)node.Arg;
// xsl:apply-imports uses context node and is not in context of any for-each so it requires current
return XslFlags.HasCalls | XslFlags.Current | XslFlags.Rtf;
}
protected override XslFlags VisitApplyTemplates(XslNode node) {
Debug.Assert(node.Select != null, "Absent @select should be replaced with 'node()' in XsltLoader");
XslFlags result = ProcessExpr(node.Select);
foreach (XslNode instr in node.Content) {
result |= Visit(instr);
if (instr.NodeType == XslNodeType.WithParam) {
ModeName mn = new ModeName(/*mode:*/node.Name, instr.Name);
VarPar modePar;
if (!applyTemplatesParams.TryGetValue(mn, out modePar)) {
modePar = applyTemplatesParams[mn] = AstFactory.WithParam(instr.Name);
}
if (typeDonor != null) {
dataFlow.AddEdge(typeDonor, modePar);
} else {
modePar.Flags |= instr.Flags & XslFlags.TypeFilter;
}
}
}
if (currentTemplate != null) {
AddApplyTemplatesEdge(/*mode:*/node.Name, currentTemplate);
}
return XslFlags.HasCalls | XslFlags.Rtf | result;
}
protected override XslFlags VisitAttribute(NodeCtor node) {
return (
XslFlags.Rtf |
ProcessAvt(node.NameAvt) |
ProcessAvt(node.NsAvt) |
VisitChildren(node)
);
}
protected override XslFlags VisitCallTemplate(XslNode node) {
XslFlags result = XslFlags.None;
Template target;
if (!compiler.NamedTemplates.TryGetValue(node.Name, out target)) {
Debug.WriteLineIf(DiagnosticsSwitches.XslTypeInference.TraceError, "Unknown template " + node.Name.QualifiedName, "Error");
} else {
Debug.Assert(target != null);
if (currentTemplate != null) {
if (this.forEachDepth == 0) {
// ---- xsl:call-template, target would take its focus from currentTemplate
revCall0Graph.AddEdge(target, currentTemplate);
} else {
// in other cases we need it as donor for side effects flag
revCall1Graph.AddEdge(target, currentTemplate);
}
}
}
VarPar[] typeDonors = new VarPar[node.Content.Count];
int idx = 0;
foreach (XslNode instr in node.Content) {
Debug.Assert(instr.NodeType == XslNodeType.WithParam);
result |= Visit(instr);
typeDonors[idx++] = typeDonor;
}
// For each xsl:param in the target template find the corresponding xsl:with-param, and:
// a) if the type of xsl:with-param is known, add it to the type of xsl:param;
// b) if value of xsl:with-param is a VarPar reference, add an edge connecting it with xsl:param
// to the data flow graph.
if (target != null) {
foreach (XslNode instr in target.Content) {
// Take care of a bizarre case templates;
if (!revApplyTemplatesGraph.TryGetValue(mode, out templates)) {
templates = new List();
revApplyTemplatesGraph.Add(mode, templates);
} else {
if (templates[templates.Count - 1] == dependentTemplate) {
return; // this is a duplicate
}
}
templates.Add(dependentTemplate);
}
private void PropagateSideEffectsFlag() {
// Clean Stop flags
foreach (ProtoTemplate t in revCall0Graph.Keys) {
t.Flags &= ~XslFlags.Stop;
}
foreach (ProtoTemplate t in revCall1Graph.Keys) {
t.Flags &= ~XslFlags.Stop;
}
foreach (ProtoTemplate t in revCall0Graph.Keys) {
if ((t.Flags & XslFlags.Stop) == 0) {
if ((t.Flags & XslFlags.SideEffects) != 0) {
DepthFirstSearch(t);
}
}
}
foreach (ProtoTemplate t in revCall1Graph.Keys) {
if ((t.Flags & XslFlags.Stop) == 0) {
if ((t.Flags & XslFlags.SideEffects) != 0) {
DepthFirstSearch(t);
}
}
}
}
private void DepthFirstSearch(ProtoTemplate t) {
Debug.Assert((t.Flags & XslFlags.Stop) == 0, "Already visited this vertex");
t.Flags |= (XslFlags.SideEffects | XslFlags.Stop);
List list;
foreach (ProtoTemplate u in revCall0Graph.GetAdjList(t)) {
if ((u.Flags & XslFlags.Stop) == 0) {
DepthFirstSearch(u);
}
Debug.Assert((u.Flags & XslFlags.SideEffects) == XslFlags.SideEffects, "Flag was not set on an adjacent vertex");
}
foreach (ProtoTemplate u in revCall1Graph.GetAdjList(t)) {
if ((u.Flags & XslFlags.Stop) == 0) {
DepthFirstSearch(u);
}
Debug.Assert((u.Flags & XslFlags.SideEffects) == XslFlags.SideEffects, "Flag was not set on an adjacent vertex");
}
Template template = t as Template;
if (
template != null && // This ProteTemplate is Template
revApplyTemplatesGraph.TryGetValue(template.Mode, out list) // list - ProtoTemplates that have apply-templatess mode="{template.Mode}"
) {
revApplyTemplatesGraph.Remove(template.Mode); // to prevent recursion remove this list from dictionary
foreach (ProtoTemplate u in list) {
if ((u.Flags & XslFlags.Stop) == 0) {
DepthFirstSearch(u);
}
Debug.Assert((u.Flags & XslFlags.SideEffects) == XslFlags.SideEffects, "Flag was not set on an adjacent vertex");
}
}
}
// ------------------------------- XPathAnalyzer --------------------------------
// Ignores all errors and warnings
internal struct NullErrorHelper : IErrorHelper {
public void ReportError(string res, params string[] args) { }
public void ReportWarning(string res, params string[] args) { }
}
internal class XPathAnalyzer : IXPathBuilder {
private XPathParser xpathParser = new XPathParser();
private CompilerScopeManager scope;
private Compiler compiler;
// True if the expression needs XSLT's current() node
private bool xsltCurrentNeeded;
// If the expression is just a reference to some VarPar, like "(($foo))",
// then this field contains that VarPar, and null otherwise.
private VarPar typeDonor;
public VarPar TypeDonor {
get { return typeDonor; }
}
public XPathAnalyzer(Compiler compiler, CompilerScopeManager scope) {
this.compiler = compiler;
this.scope = scope;
}
public XslFlags Analyze(string xpathExpr) {
typeDonor = null;
if (xpathExpr == null) {
return XslFlags.None;
}
try {
// Note that the constructor may throw an exception, for example, in case of the expression "'"
xsltCurrentNeeded = false;
XPathScanner scanner = new XPathScanner(xpathExpr);
XslFlags result = xpathParser.Parse(scanner, this, LexKind.Eof);
if (xsltCurrentNeeded) {
result |= XslFlags.Current;
}
return result;
} catch (XslLoadException) {
return XslFlags.AnyType | XslFlags.FullFocus;
}
}
public XslFlags AnalyzeAvt(string source) {
typeDonor = null;
if (source == null) {
return XslFlags.None;
}
try {
xsltCurrentNeeded = false;
XslFlags result = XslFlags.None;
int pos = 0;
while (pos < source.Length) {
pos = source.IndexOf('{', pos);
if (pos == -1) {
break; // no more AVTs
}
pos++;
if (pos < source.Length && source[pos] == '{') { // "{{"
pos++;
continue;
}
if (pos < source.Length) { // '{' encountered, parse an expression
XPathScanner scanner = new XPathScanner(source, pos);
result |= xpathParser.Parse(scanner, this, LexKind.RBrace);
pos = scanner.LexStart + 1;
}
}
if (xsltCurrentNeeded) {
result |= XslFlags.Current;
}
return result & ~XslFlags.TypeFilter;
} catch (XslLoadException) {
return XslFlags.FullFocus;
}
}
// Returns null in case of error
private VarPar ResolveVariable(string prefix, string name) {
string ns = ResolvePrefix(prefix);
if (ns == null) {
return null;
}
return scope.LookupVariable(name, ns);
}
// Returns null in case of error
private string ResolvePrefix(string prefix) {
// ignoreDefaultNs == true
if (prefix.Length == 0) {
return string.Empty;
} else {
return scope.LookupNamespace(prefix);
}
}
public virtual void StartBuild() {
}
public virtual XslFlags EndBuild(XslFlags result) {
return result;
}
public virtual XslFlags String(string value) {
typeDonor = null;
return XslFlags.String;
}
public virtual XslFlags Number(double value) {
typeDonor = null;
return XslFlags.Number;
}
private static XslFlags[] OperatorType = {
/*Unknown */ XslFlags.AnyType,
/*Or */ XslFlags.Boolean,
/*And */ XslFlags.Boolean,
/*Eq */ XslFlags.Boolean,
/*Ne */ XslFlags.Boolean,
/*Lt */ XslFlags.Boolean,
/*Le */ XslFlags.Boolean,
/*Gt */ XslFlags.Boolean,
/*Ge */ XslFlags.Boolean,
/*Plus */ XslFlags.Number ,
/*Minus */ XslFlags.Number ,
/*Multiply */ XslFlags.Number ,
/*Divide */ XslFlags.Number ,
/*Modulo */ XslFlags.Number ,
/*UnaryMinus*/ XslFlags.Number ,
/*Union */ XslFlags.Nodeset,
};
public virtual XslFlags Operator(XPathOperator op, XslFlags left, XslFlags right) {
typeDonor = null;
Debug.Assert(op != XPathOperator.Unknown);
XslFlags result = (left | right) & ~XslFlags.TypeFilter;
return result | OperatorType[(int)op];
}
public virtual XslFlags Axis(XPathAxis xpathAxis, XPathNodeType nodeType, string prefix, string name) {
typeDonor = null;
if (xpathAxis == XPathAxis.Self && nodeType == XPathNodeType.All && prefix == null && name == null) {
return XslFlags.Current | XslFlags.Node;
} else {
return XslFlags.Current | XslFlags.Nodeset;
}
}
// "left/right"
public virtual XslFlags JoinStep(XslFlags left, XslFlags right) {
typeDonor = null;
return (left & ~XslFlags.TypeFilter) | XslFlags.Nodeset; // "ex:Foo(position())/Bar"
}
// "nodeset[predicate]"
public virtual XslFlags Predicate(XslFlags nodeset, XslFlags predicate, bool isReverseStep) {
typeDonor = null;
return (nodeset & ~XslFlags.TypeFilter) | XslFlags.Nodeset | (predicate & XslFlags.SideEffects); // "ex:Foo(position())[Bar]"
}
public virtual XslFlags Variable(string prefix, string name) {
typeDonor = ResolveVariable(prefix, name);
if (typeDonor == null) {
Debug.WriteLineIf(DiagnosticsSwitches.XslTypeInference.TraceError, "Unresolved variable " + Compiler.ConstructQName(prefix, name), "Error");
return XslFlags.AnyType;
}
return XslFlags.None;
}
public virtual XslFlags Function(string prefix, string name, IList args) {
typeDonor = null;
XslFlags argsFlags = XslFlags.None;
foreach (XslFlags t in args) {
argsFlags |= t;
}
XslFlags funcFlags = XslFlags.None;
if (prefix.Length == 0) {
XPathFunctionInfo xpathFunc;
XsltFunctionInfo xsltFunc;
if (XPathBuilder.FunctionTable.TryGetValue(name, out xpathFunc)) {
XPathBuilder.FuncId funcId = xpathFunc.id;
funcFlags = XPathFunctionFlags[(int)funcId];
if (args.Count == 0 && (
funcId == XPathBuilder.FuncId.LocalName ||
funcId == XPathBuilder.FuncId.NamespaceUri ||
funcId == XPathBuilder.FuncId.Name ||
funcId == XPathBuilder.FuncId.String ||
funcId == XPathBuilder.FuncId.Number ||
funcId == XPathBuilder.FuncId.StringLength ||
funcId == XPathBuilder.FuncId.Normalize
)) {
funcFlags |= XslFlags.Current;
}
} else if (QilGenerator.FunctionTable.TryGetValue(name, out xsltFunc)) {
QilGenerator.FuncId funcId = xsltFunc.id;
funcFlags = XsltFunctionFlags[(int)funcId];
if (funcId == QilGenerator.FuncId.Current) {
xsltCurrentNeeded = true;
} else if (funcId == QilGenerator.FuncId.GenerateId && args.Count == 0) {
funcFlags |= XslFlags.Current;
}
}
} else {
string ns = ResolvePrefix(prefix);
if (ns == XmlReservedNs.NsMsxsl) {
switch (name) {
case "node-set": funcFlags = XslFlags.Nodeset; break;
case "string-compare": funcFlags = XslFlags.Number; break;
case "utc": funcFlags = XslFlags.String; break;
case "format-date": funcFlags = XslFlags.String; break;
case "format-time": funcFlags = XslFlags.String; break;
case "local-name": funcFlags = XslFlags.String; break;
case "namespace-uri": funcFlags = XslFlags.String; break;
case "number": funcFlags = XslFlags.Number; break;
}
} else if (ns == XmlReservedNs.NsExsltCommon) {
switch (name) {
case "node-set": funcFlags = XslFlags.Nodeset; break;
case "object-type": funcFlags = XslFlags.String; break;
}
}
if (funcFlags == XslFlags.None) {
// Unknown function. Can be script function or extension function
funcFlags = XslFlags.AnyType;
if (compiler.Settings.EnableScript && ns != null) {
XmlExtensionFunction scrFunc = compiler.Scripts.ResolveFunction(name, ns, args.Count, new NullErrorHelper());
if (scrFunc != null) {
XmlQueryType xt = scrFunc.XmlReturnType;
if (xt == TypeFactory.StringX) {
funcFlags = XslFlags.String;
} else if (xt == TypeFactory.DoubleX) {
funcFlags = XslFlags.Number;
} else if (xt == TypeFactory.BooleanX) {
funcFlags = XslFlags.Boolean;
} else if (xt == TypeFactory.NodeNotRtf) {
funcFlags = XslFlags.Node;
} else if (xt == TypeFactory.NodeSDod) {
funcFlags = XslFlags.Nodeset;
} else if (xt == TypeFactory.ItemS) {
funcFlags = XslFlags.AnyType;
} else if (xt == TypeFactory.Empty) {
funcFlags = XslFlags.Nodeset;
} else {
Debug.Fail("Unexpected XmlQueryType for script function: " + xt.ToString());
}
}
}
funcFlags |= XslFlags.SideEffects;
}
}
return (argsFlags & ~XslFlags.TypeFilter) | funcFlags;
}
#region XPath Function Flags
private static XslFlags[] XPathFunctionFlags = {
/*Last */ XslFlags.Number | XslFlags.Last,
/*Position */ XslFlags.Number | XslFlags.Position,
/*Count */ XslFlags.Number,
/*LocalName */ XslFlags.String, // | XslFlags.Current if 0 args
/*NamespaceUri */ XslFlags.String, // | XslFlags.Current if 0 args
/*Name */ XslFlags.String, // | XslFlags.Current if 0 args
/*String */ XslFlags.String, // | XslFlags.Current if 0 args
/*Number */ XslFlags.Number, // | XslFlags.Current if 0 args
/*Boolean */ XslFlags.Boolean,
/*True */ XslFlags.Boolean,
/*False */ XslFlags.Boolean,
/*Not */ XslFlags.Boolean,
/*Id */ XslFlags.Nodeset | XslFlags.Current,
/*Concat */ XslFlags.String,
/*StartsWith */ XslFlags.Boolean,
/*Contains */ XslFlags.Boolean,
/*SubstringBefore */ XslFlags.String,
/*SubstringAfter */ XslFlags.String,
/*Substring */ XslFlags.String,
/*StringLength */ XslFlags.Number, // | XslFlags.Current if 0 args
/*Normalize */ XslFlags.String, // | XslFlags.Current if 0 args
/*Translate */ XslFlags.String,
/*Lang */ XslFlags.Boolean | XslFlags.Current,
/*Sum */ XslFlags.Number,
/*Floor */ XslFlags.Number,
/*Ceiling */ XslFlags.Number,
/*Round */ XslFlags.Number,
};
#endregion
#region Xslt Function Flags
private static XslFlags[] XsltFunctionFlags = {
/*Current */ XslFlags.Node, // xsltCurrentNeeded = true
/*Document */ XslFlags.Nodeset,
/*Key */ XslFlags.Nodeset | XslFlags.Current,
/*FormatNumber */ XslFlags.String,
/*UnparsedEntityUri */ XslFlags.String, // | XslFlags.Current if it is implemented
/*GenerateId */ XslFlags.String, // | XslFlags.Current if 0 args
/*SystemProperty */ XslFlags.String | XslFlags.Number,
/*ElementAvailable */ XslFlags.Boolean,
/*FunctionAvailable */ XslFlags.Boolean,
};
#endregion
}
}
}
// File provided for Reference Use Only by Microsoft Corporation (c) 2007.
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- RuntimeTransactionHandle.cs
- ComponentResourceKey.cs
- MethodAccessException.cs
- ThicknessConverter.cs
- Assembly.cs
- TransactionInformation.cs
- ScriptingScriptResourceHandlerSection.cs
- BackStopAuthenticationModule.cs
- MessageEncodingBindingElementImporter.cs
- Matrix.cs
- CatalogZoneBase.cs
- ThreadPoolTaskScheduler.cs
- SoapSchemaMember.cs
- CatalogPart.cs
- SafeRightsManagementQueryHandle.cs
- ActivityFunc.cs
- ScriptControlManager.cs
- WizardStepBase.cs
- DrawTreeNodeEventArgs.cs
- ACL.cs
- FrameworkElement.cs
- precedingquery.cs
- PopupControlService.cs
- Stroke2.cs
- TimeZone.cs
- SqlDataRecord.cs
- UserControlCodeDomTreeGenerator.cs
- WindowsSolidBrush.cs
- DataRecordInternal.cs
- LocalValueEnumerator.cs
- mediapermission.cs
- SmiContextFactory.cs
- Convert.cs
- UntypedNullExpression.cs
- SessionIDManager.cs
- FixedFindEngine.cs
- CustomErrorsSection.cs
- SqlTypeConverter.cs
- WebBrowsableAttribute.cs
- EntityModelBuildProvider.cs
- SqlIdentifier.cs
- SmiContext.cs
- CodeGenerationManager.cs
- ClientSettingsStore.cs
- PageRanges.cs
- ToolStripGripRenderEventArgs.cs
- ObjectDataSourceMethodEventArgs.cs
- OptimizerPatterns.cs
- Int32RectValueSerializer.cs
- DeclarativeCatalogPart.cs
- FormViewDesigner.cs
- NavigationPropertyEmitter.cs
- RoutingService.cs
- MediaContextNotificationWindow.cs
- XDRSchema.cs
- Walker.cs
- itemelement.cs
- CornerRadiusConverter.cs
- ArrayElementGridEntry.cs
- ControlValuePropertyAttribute.cs
- XPathNavigatorReader.cs
- OletxEnlistment.cs
- ErrorFormatter.cs
- Helper.cs
- CompatibleComparer.cs
- RadialGradientBrush.cs
- WebPartAddingEventArgs.cs
- DecimalKeyFrameCollection.cs
- EdmItemCollection.cs
- InkCollectionBehavior.cs
- JoinTreeSlot.cs
- PreDigestedSignedInfo.cs
- DataGridViewCellStateChangedEventArgs.cs
- Separator.cs
- ForeignKeyConstraint.cs
- ReferentialConstraint.cs
- WindowsTreeView.cs
- TextTreeInsertElementUndoUnit.cs
- ChildDocumentBlock.cs
- ParameterModifier.cs
- Int32AnimationBase.cs
- Helper.cs
- SocketPermission.cs
- DBBindings.cs
- isolationinterop.cs
- ExceptionUtil.cs
- Connector.cs
- DBSqlParser.cs
- BulletedListDesigner.cs
- SqlNodeAnnotation.cs
- CompositeActivityValidator.cs
- FieldNameLookup.cs
- ActivityExecutionWorkItem.cs
- NativeActivityContext.cs
- TextTreeRootNode.cs
- RelatedPropertyManager.cs
- ScaleTransform3D.cs
- XamlFrame.cs
- FixedTextContainer.cs
- ConsoleKeyInfo.cs