private static QualifiedNameSyntax GetQualifiedNameSyntax(IReadOnlyCollection <string> names)
{
var ids = names.Select(SyntaxFactory.IdentifierName).ToArray();
var index = 0;
QualifiedNameSyntax left = null;
while (index + 1 < names.Count)
{
left = left == null?SyntaxFactory.QualifiedName(ids[index], ids[index + 1]) : SyntaxFactory.QualifiedName(left, ids[index + 1]);
index++;
}
return(left);
}
private static SimpleNameSyntax GetLeftMostSimpleName(QualifiedNameSyntax qn)
{
while (qn != null)
{
var left = qn.Left;
if (left is SimpleNameSyntax simpleName)
{
return(simpleName);
}
qn = left as QualifiedNameSyntax;
}
return(null);
}
public override SyntaxNode VisitQualifiedName(QualifiedNameSyntax node)
{
var name = node.WithoutTrivia().ToFullString();
if (TryGetValue(name, out var typeName))
{
return(SyntaxFactory.ParseName(typeName)
.WithLeadingTrivia(node.GetLeadingTrivia())
.WithTrailingTrivia(node.GetTrailingTrivia()));
}
else
{
return(base.VisitQualifiedName(node));
}
}
public override void VisitQualifiedName(QualifiedNameSyntax node)
{
SymbolInfo symInfo = m_Model.GetSymbolInfo(node);
var sym = symInfo.Symbol;
if (null != sym)
{
string fullName = ClassInfo.GetFullName(sym);
CodeBuilder.Append(fullName);
}
else
{
ReportIllegalSymbol(node, symInfo);
CodeBuilder.Append(node.GetText());
}
}
public override void VisitQualifiedName(QualifiedNameSyntax node)
{
if (_ignoredSpans?.HasIntervalThatOverlapsWith(node.FullSpan.Start, node.FullSpan.Length) ?? false)
{
return;
}
if (node.IsKind(SyntaxKind.QualifiedName) && TrySimplify(node))
{
// found a match. report it and stop processing.
return;
}
// descend further.
DefaultVisit(node);
}
static void rec(QualifiedElement q, QualifiedNameSyntax name)
{
if (name.Left is QualifiedNameSyntax qs)
{
rec(q, qs);
}
else if (name.Left is SimpleNameSyntax sn)
{
_ = new IdentityElement(q, sn.Identifier.Text);
}
else
{
throw new InvalidOperationException($"{name.Left.GetType().Name} is unexpected");
}
_ = new IdentityElement(q, name.Right.Identifier.Text);
}
public override void VisitQualifiedName(QualifiedNameSyntax node)
{
bool seenConstructedBeforeRight = _seenConstructed;
// Visit Right first because it's smaller (to make backtracking cheaper).
Visit(node.Right);
bool seenConstructedBeforeLeft = _seenConstructed;
Visit(node.Left);
// If the first time we saw a constructed type was in Left, then we need to re-visit Right
if (!seenConstructedBeforeRight && !seenConstructedBeforeLeft && _seenConstructed)
{
Visit(node.Right);
}
}
public virtual ULTypeInfo GetTypeInfo(TypeSyntax typeSyntax)
{
if (typeSyntax == null)
{
return(null);
}
if (typeSyntax is PredefinedTypeSyntax)
{
PredefinedTypeSyntax predefinedTypeSyntax = typeSyntax as PredefinedTypeSyntax;
string typeName = GetKeywordTypeName(predefinedTypeSyntax.Keyword.Text);
return(Data.GetType("System." + typeName));
}
else if (typeSyntax is IdentifierNameSyntax)
{
IdentifierNameSyntax ts = typeSyntax as IdentifierNameSyntax;
var identifier = ts.Identifier.Text;
var info = GetIdentifierInfo(identifier);
if (info != null)
{
return(Data.GetType(info.TypeID));
}
}
else if (typeSyntax is QualifiedNameSyntax)
{
QualifiedNameSyntax qns = typeSyntax as QualifiedNameSyntax;
string name_space = qns.Left.ToString();
var name = qns.Right.Identifier.Text;
//Metadata.Expression.QualifiedNameSyntax my_qns = new Metadata.Expression.QualifiedNameSyntax();
//my_qns.Left = GetTypeSyntax(qns.Left) as Metadata.Expression.NameSyntax;
return(Data.GetType(name_space + "." + name));
}
else
{
Console.Error.WriteLine("不支持的类型语法 " + typeSyntax.GetType().FullName);
}
if (Parent != null)
{
return(Parent.GetTypeInfo(typeSyntax));
}
return(null);
}
public override SyntaxNode VisitQualifiedName(QualifiedNameSyntax node)
{
var oldAlwaysSimplify = this.alwaysSimplify;
if (!this.alwaysSimplify)
{
this.alwaysSimplify = node.HasAnnotation(Simplifier.Annotation);
}
var result = SimplifyExpression(
node,
newNode: base.VisitQualifiedName(node),
simplifier: s_simplifyName);
this.alwaysSimplify = oldAlwaysSimplify;
return(result);
}
// "System.IO"
public override void VisitQualifiedName(QualifiedNameSyntax node)
{
ITypeSymbol typeSymbol = _model.GetTypeInfo(node).Type;
if (typeSymbol == null)
{
return;
}
string fullName = typeSymbol.ToString();
foreach (string ns in _namespaceToCheck)
{
if (Regex.IsMatch(fullName, ns))
{
return;
}
}
}
public override SyntaxNode VisitQualifiedName(QualifiedNameSyntax node)
{
var visited = base.VisitQualifiedName(node);
if (visited is null)
{
return(visited);
}
var matched = TryMatchInput(node, out var matchingInput);
if (matched)
{
AddDependency(matchingInput, DependencyKind.Reference);
}
return(node); //SyntaxFactory.QualifiedName(node.Left, SyntaxFactory.IdentifierName(node.Right + "QUALIFIED")).WithTriviaFrom(node);
}
public static string ToTypescript(this QualifiedNameSyntax syntaxItem)
{
// check for Generic List
// TODO: Other known types?
if (syntaxItem.ToFullType().StartsWith("System.Collections.Generic.List<"))
{
return(syntaxItem.Right.ToTypescript());
}
var fullType = Pocoyo.MapKnownType(syntaxItem.ToFullType());
if (!string.IsNullOrEmpty(fullType))
{
return(fullType);
}
// Can't get full type so return any
return("any");
}
/// <inheritdoc/>
public override SyntaxNode?VisitQualifiedName(QualifiedNameSyntax node)
{
TypeInfo info = SemanticModel.GetTypeInfo(node);
if (info.Type is not INamedTypeSymbol symbol)
{
return(base.VisitQualifiedName(node));
}
string[] namespaces = symbol.GetContainingNamespacesAndTypes().Select(n => n.Name).ToArray();
if (namespaces.Length < 2)
{
return(base.VisitQualifiedName(node));
}
else
{
return(QualifiedName(AnalysisUtilities.JoinIntoQualifiedName(namespaces) !, node.Right.WithoutTrivia()).WithTriviaFrom(node));
}
}
private static string GetMetadataNameOfQualifiedNameSyntax(QualifiedNameSyntax originalSyntax)
{
SyntaxNode syntax = originalSyntax;
Stack <string> parts = new();
while (true)
{
if (syntax is QualifiedNameSyntax qualifiedNameSyntax)
{
syntax = qualifiedNameSyntax.Left;
parts.Push(GetGenericNameWithArity(qualifiedNameSyntax.Right));
}
else
{
parts.Push(GetGenericNameWithArity(syntax));
break;
}
}
return(parts.Join("."));
}
private static Task <Document> ExecuteAsync(CodeFixExecutionContext <TypeDeclarationSyntax> context, INamedTypeSymbol attribute)
{
INamespaceSymbol? @namespace = (context.SemanticModel.GetSymbolInfo(context.Node).Symbol?.ContainingNamespace) ?? context.Compilation.GlobalNamespace;
NameSyntax attrName;
NameSyntax enumName;
if (context.SemanticModel.HasUsingDirective(context.Root.Usings, @namespace, attribute, context.CancellationToken))
{
attrName = SyntaxFactory.IdentifierName("DefaultParamConfiguration");
enumName = SyntaxFactory.IdentifierName(nameof(TypeConvention));
}
else
{
QualifiedNameSyntax n =
SyntaxFactory.QualifiedName(
SyntaxFactory.IdentifierName("Durian"),
SyntaxFactory.IdentifierName("Configuration"));
attrName = SyntaxFactory.QualifiedName(n, SyntaxFactory.IdentifierName("DefaultParamConfiguration"));
enumName = SyntaxFactory.QualifiedName(n, SyntaxFactory.IdentifierName(nameof(TypeConvention)));
}
TypeDeclarationSyntax type = context.Node.AddAttributeLists(SyntaxFactory.AttributeList(SyntaxFactory.SingletonSeparatedList(
SyntaxFactory.Attribute(attrName,
SyntaxFactory.AttributeArgumentList(SyntaxFactory.SingletonSeparatedList(
SyntaxFactory.AttributeArgument(
SyntaxFactory.MemberAccessExpression(
SyntaxKind.SimpleMemberAccessExpression,
enumName,
SyntaxFactory.IdentifierName(nameof(TypeConvention.Copy))))
.WithNameEquals(
SyntaxFactory.NameEquals(
SyntaxFactory.IdentifierName(MemberNames.Config_TypeConvention),
SyntaxFactory.Token(SyntaxKind.EqualsToken).WithTrailingTrivia(SyntaxFactory.Space)))))))));
context.RegisterChange(context.Node, type);
return(Task.FromResult(context.Document));
}
public override SyntaxNode VisitQualifiedName(QualifiedNameSyntax node)
{
var type = sem.GetTypeInfo(node).Type
?? sem.GetTypeInfo(node.Parent).Type;
//todo: find out what is breaking when using alias solution
if (type is INamedTypeSymbol namedType && !node.Parent.IsKind(SyntaxKind.UsingDirective))
{
if (true || namedType.IsGenericType)
{
requiredUsings.Add(type.ContainingNamespace.ToString());
return(Visit(node.Right)
.WithTriviaFrom(node));
}
var typeAlias = node.ToString().Replace(".", "_");
typeAliases[typeAlias] = type.ToDisplayString(SymbolDisplayFormat.FullyQualifiedFormat.WithGlobalNamespaceStyle(SymbolDisplayGlobalNamespaceStyle.Omitted));
return(IdentifierName(typeAlias)
.WithTriviaFrom(node));
}
return(node);
}
private ImmutableArray <ISymbol> GetSymbolsOffOfContainer()
{
// Ensure that we have the correct token in A.B| case
var node = _context.TargetToken.GetRequiredParent();
return(node switch
{
MemberAccessExpressionSyntax {
RawKind : (int)SyntaxKind.SimpleMemberAccessExpression
} memberAccess
=> GetSymbolsOffOfExpression(memberAccess.Expression),
MemberAccessExpressionSyntax {
RawKind : (int)SyntaxKind.PointerMemberAccessExpression
} memberAccess
=> GetSymbolsOffOfDereferencedExpression(memberAccess.Expression),
// This code should be executing only if the cursor is between two dots in a dotdot token.
RangeExpressionSyntax rangeExpression => GetSymbolsOffOfExpression(rangeExpression.LeftOperand),
QualifiedNameSyntax qualifiedName => GetSymbolsOffOfName(qualifiedName.Left),
AliasQualifiedNameSyntax aliasName => GetSymbolsOffOffAlias(aliasName.Alias),
MemberBindingExpressionSyntax _ => GetSymbolsOffOfConditionalReceiver(node.GetParentConditionalAccessExpression() !.Expression),
_ => ImmutableArray <ISymbol> .Empty,
});
private BoundType BindQualifiedType(QualifiedNameSyntax qualifiedName)
{
var container = LookupContainer(qualifiedName.Left);
if (container == null)
return new BoundUnknownType();
var symbols = container.Members.OfType<TypeSymbol>()
.Where(x => x.Name == qualifiedName.Right.Name.Text)
.ToImmutableArray();
if (symbols.Length == 0)
{
Diagnostics.ReportUndeclaredType(qualifiedName);
return new BoundUnknownType();
}
if (symbols.Length > 1)
Diagnostics.ReportAmbiguousType(qualifiedName.Right.Name, symbols);
Bind(qualifiedName.Right, x => new BoundName(symbols.First()));
return new BoundName(symbols.First());
}
public QualifiedNameTranslation(QualifiedNameSyntax syntax, SyntaxTranslation parent) : base(syntax, parent)
{
Left = syntax.Left.Get <NameTranslation>(this);
Right = syntax.Right.Get <SimpleNameTranslation>(this);
var genericTranslation = Left as GenericNameTranslation;
if (genericTranslation != null)
{
((GenericNameTranslation)Left).ExcludeTypeParameter = true;
}
var simpleName = Right as SimpleNameTranslation;
if (simpleName != null)
{
simpleName.DetectApplyThis = false;
var identifierName = simpleName as IdentifierNameTranslation;
if (genericTranslation != null && identifierName != null)
{
identifierName.TypeArgumentList = genericTranslation.TypeArgumentList;
}
}
}
public override SyntaxNode VisitQualifiedName(QualifiedNameSyntax node)
{
var fullName = node.ToString();
if (SymbolTable.Instance.Namespaces.Contains(fullName))
{
return(node);
}
var leftFullName = node.Left.ToString();
if (SymbolTable.Instance.Namespaces.Contains(leftFullName))
{
return(node.Right);
}
foreach (var ns in SymbolTable.Instance.Namespaces)
{
if (leftFullName.IndexOf(ns) == 0)
{
var leftName = leftFullName.Substring(ns.Length + 1);
return(SyntaxFactory.QualifiedName(SyntaxFactory.GenericName(leftName), node.Right));
}
}
return(base.VisitQualifiedName(node));
}
private static void HandleThrow(SyntaxNodeAnalysisContext context)
{
ObjectCreationExpressionSyntax creation = null;
switch (context.Node)
{
case ThrowStatementSyntax statement:
creation = statement.Expression as ObjectCreationExpressionSyntax;
break;
case ThrowExpressionSyntax expression:
creation = expression.Expression as ObjectCreationExpressionSyntax;
break;
}
if (creation != null)
{
switch (creation.Type.Kind())
{
case SyntaxKind.IdentifierName:
IdentifierNameSyntax identifier = (IdentifierNameSyntax)creation.Type;
HandleExceptionType(context, identifier);
break;
case SyntaxKind.QualifiedName:
QualifiedNameSyntax qualifiedName = (QualifiedNameSyntax)creation.Type;
if (qualifiedName.Right.IsKind(SyntaxKind.IdentifierName) &&
string.Concat(qualifiedName.Left.DescendantTokens()) == "System")
{
HandleExceptionType(context, (IdentifierNameSyntax)qualifiedName.Right);
}
break;
}
}
}
public virtual void VisitQualifiedName(QualifiedNameSyntax node) => this.DefaultVisit(node);
private static async Task <Document> SubclassViewModelBaseFullyQualifiedAsync(CodeFixContext context, ClassDeclarationSyntax classDeclaration, QualifiedNameSyntax viewModelBaseType, CancellationToken cancellationToken)
{
var editor = await DocumentEditor.CreateAsync(context.Document, cancellationToken)
.ConfigureAwait(false);
AddBaseType(context, classDeclaration, viewModelBaseType, editor);
return(editor.GetChangedDocument());
}
private string QualifiedName(QualifiedNameSyntax qns)
{
string qName = "";
ChildSyntaxList idn = qns.ChildNodesAndTokens();
foreach(SyntaxNodeOrToken snot in idn)
{
if (snot.IsToken)
{
SyntaxToken st = (SyntaxToken)snot;
if (st.IsKind(SyntaxKind.IdentifierToken))
{
qName += st.ValueText;
}
else if (st.IsKind(SyntaxKind.DotToken))
{
qName += ".";
}
}
}
return qName;
}
public static async Task ComputeRefactoringsAsync(RefactoringContext context, QualifiedNameSyntax qualifiedName)
{
if (context.IsRefactoringEnabled(RefactoringIdentifiers.AddUsingDirective) &&
context.Span.IsEmpty &&
context.SupportsSemanticModel &&
qualifiedName.DotToken.Span.Start == context.Span.Start &&
qualifiedName.Left?.IsKind(SyntaxKind.IdentifierName) == true)
{
await AddUsingDirectiveRefactoring.ComputeRefactoringsAsync(context, (IdentifierNameSyntax)qualifiedName.Left).ConfigureAwait(false);
}
}
public void VisitQualifiedName(QualifiedNameSyntax node)
{
if (node == null)
throw new ArgumentNullException("node");
node.Validate();
ExpressionStart(node);
node.Left.Accept(this);
_writer.WriteSyntax(Syntax.Dot);
node.Right.Accept(this);
ExpressionEnd(node);
}
public override SyntaxNode VisitQualifiedName(QualifiedNameSyntax node) => ProcessTypeSyntax(node);
public override void VisitQualifiedName(QualifiedNameSyntax node)
{
Writer.WriteJsRawValue($"{node.Left}.{node.Right}");
}
private static NameSyntax GetReplacementQualifiedName(QualifiedNameSyntax symbolNameSyntax, QualifiedNameSyntax nameSyntax)
{
if (nameSyntax.Right.IsKind(SyntaxKind.GenericName))
{
return(GetReplacementGenericName(symbolNameSyntax, (GenericNameSyntax)nameSyntax.Right));
}
else
{
return(symbolNameSyntax);
}
}
// public string getEdgeLabels(SyntaxToken parent, SyntaxToken node)
public string getEdgeLabels(SyntaxNode parent, SyntaxNode node)
{
string edgeLabelName = "" + node.Kind();
switch (parent.Kind())
{
// names & type-names
case SyntaxKind.IdentifierName: // = 8616,
break;
case SyntaxKind.QualifiedName: // = 8617,
// Console.WriteLine("Sorry, not implemented! node.Kind = " + node.Kind());
QualifiedNameSyntax qualifiedNameNode = parent as QualifiedNameSyntax;
// Console.WriteLine(" --- qualifiedNameNode.Kind = " + qualifiedNameNode.Kind());
// Console.WriteLine(" --- qualifiedNameNode.Qualifier = " + qualifiedNameNode.Qualifier());
// Console.WriteLine(" --- qualifiedNameNode.Name = " + qualifiedNameNode.Name());
// Console.WriteLine(" --- qualifiedNameNode.Qualifier = " + qualifiedNameNode.Identifier);
// Console.WriteLine(" --- qualifiedNameNode.Name = " + qualifiedNameNode.Name());
// Console.WriteLine(" --- qualifiedNameNode.Name = " + qualifiedNameNode.GetUnqualifiedName);
// Console.WriteLine(" --- qualifiedNameNode.Left = " + qualifiedNameNode.Left);
// Console.WriteLine(" --- qualifiedNameNode.Right = " + qualifiedNameNode.Right);
if (qualifiedNameNode.Left == node)
{
edgeLabelName = "left";
}
else
{
edgeLabelName = "right";
}
break;
case SyntaxKind.GenericName: // = 8618,
case SyntaxKind.TypeArgumentList: // = 8619,
case SyntaxKind.AliasQualifiedName: // = 8620,
case SyntaxKind.PredefinedType: // = 8621,
case SyntaxKind.ArrayType: // = 8622,
case SyntaxKind.ArrayRankSpecifier: // = 8623,
case SyntaxKind.PointerType: // = 8624,
case SyntaxKind.NullableType: // = 8625,
case SyntaxKind.OmittedTypeArgument: // = 8626,
break;
// expressions
case SyntaxKind.ParenthesizedExpression: // = 8632,
case SyntaxKind.ConditionalExpression: // = 8633,
case SyntaxKind.InvocationExpression: // = 8634,
case SyntaxKind.ElementAccessExpression: // = 8635,
case SyntaxKind.ArgumentList: // = 8636,
case SyntaxKind.BracketedArgumentList: // = 8637,
case SyntaxKind.Argument: // = 8638,
case SyntaxKind.NameColon: // = 8639,
case SyntaxKind.CastExpression: // = 8640,
case SyntaxKind.AnonymousMethodExpression: // = 8641,
case SyntaxKind.SimpleLambdaExpression: // = 8642,
case SyntaxKind.ParenthesizedLambdaExpression: // = 8643,
case SyntaxKind.ObjectInitializerExpression: // = 8644,
case SyntaxKind.CollectionInitializerExpression: // = 8645,
case SyntaxKind.ArrayInitializerExpression: // = 8646,
case SyntaxKind.AnonymousObjectMemberDeclarator: // = 8647,
case SyntaxKind.ComplexElementInitializerExpression: // = 8648,
case SyntaxKind.ObjectCreationExpression: // = 8649,
case SyntaxKind.AnonymousObjectCreationExpression: // = 8650,
case SyntaxKind.ArrayCreationExpression: // = 8651,
case SyntaxKind.ImplicitArrayCreationExpression: // = 8652,
case SyntaxKind.StackAllocArrayCreationExpression: // = 8653,
case SyntaxKind.OmittedArraySizeExpression: // = 8654,
case SyntaxKind.InterpolatedStringExpression: // = 8655,
case SyntaxKind.ImplicitElementAccess: // = 8656,
case SyntaxKind.IsPatternExpression: // = 8657,
break;
// binary expressions
case SyntaxKind.AddExpression: // = 8668,
case SyntaxKind.SubtractExpression: // = 8669,
case SyntaxKind.MultiplyExpression: // = 8670,
case SyntaxKind.DivideExpression: // = 8671,
case SyntaxKind.ModuloExpression: // = 8672,
case SyntaxKind.LeftShiftExpression: // = 8673,
case SyntaxKind.RightShiftExpression: // = 8674,
case SyntaxKind.LogicalOrExpression: // = 8675,
case SyntaxKind.LogicalAndExpression: // = 8676,
case SyntaxKind.BitwiseOrExpression: // = 8677,
case SyntaxKind.BitwiseAndExpression: // = 8678,
case SyntaxKind.ExclusiveOrExpression: // = 8679,
case SyntaxKind.EqualsExpression: // = 8680,
case SyntaxKind.NotEqualsExpression: // = 8681,
case SyntaxKind.LessThanExpression: // = 8682,
case SyntaxKind.LessThanOrEqualExpression: // = 8683,
case SyntaxKind.GreaterThanExpression: // = 8684,
case SyntaxKind.GreaterThanOrEqualExpression: // = 8685,
case SyntaxKind.IsExpression: // = 8686,
case SyntaxKind.AsExpression: // = 8687,
case SyntaxKind.CoalesceExpression: // = 8688,
case SyntaxKind.SimpleMemberAccessExpression: // = 8689, // dot access: a.b
case SyntaxKind.PointerMemberAccessExpression: // = 8690, // arrow access: a->b
case SyntaxKind.ConditionalAccessExpression: // = 8691, // question mark access: a?.b , a?[1]
break;
// binding expressions
case SyntaxKind.MemberBindingExpression: // = 8707,
case SyntaxKind.ElementBindingExpression: // = 8708,
break;
// binary assignment expressions
case SyntaxKind.SimpleAssignmentExpression: // = 8714,
case SyntaxKind.AddAssignmentExpression: // = 8715,
case SyntaxKind.SubtractAssignmentExpression: // = 8716,
case SyntaxKind.MultiplyAssignmentExpression: // = 8717,
case SyntaxKind.DivideAssignmentExpression: // = 8718,
case SyntaxKind.ModuloAssignmentExpression: // = 8719,
case SyntaxKind.AndAssignmentExpression: // = 8720,
case SyntaxKind.ExclusiveOrAssignmentExpression: // = 8721,
case SyntaxKind.OrAssignmentExpression: // = 8722,
case SyntaxKind.LeftShiftAssignmentExpression: // = 8723,
case SyntaxKind.RightShiftAssignmentExpression: // = 8724,
break;
// unary expressions
case SyntaxKind.UnaryPlusExpression: // = 8730,
case SyntaxKind.UnaryMinusExpression: // = 8731,
case SyntaxKind.BitwiseNotExpression: // = 8732,
case SyntaxKind.LogicalNotExpression: // = 8733,
case SyntaxKind.PreIncrementExpression: // = 8734,
case SyntaxKind.PreDecrementExpression: // = 8735,
case SyntaxKind.PointerIndirectionExpression: // = 8736,
case SyntaxKind.AddressOfExpression: // = 8737,
case SyntaxKind.PostIncrementExpression: // = 8738,
case SyntaxKind.PostDecrementExpression: // = 8739,
case SyntaxKind.AwaitExpression: // = 8740,
break;
// primary expression
case SyntaxKind.ThisExpression: // = 8746,
case SyntaxKind.BaseExpression: // = 8747,
case SyntaxKind.ArgListExpression: // = 8748,
case SyntaxKind.NumericLiteralExpression: // = 8749,
case SyntaxKind.StringLiteralExpression: // = 8750,
case SyntaxKind.CharacterLiteralExpression: // = 8751,
case SyntaxKind.TrueLiteralExpression: // = 8752,
case SyntaxKind.FalseLiteralExpression: // = 8753,
case SyntaxKind.NullLiteralExpression: // = 8754,
case SyntaxKind.DefaultLiteralExpression: // = 8755,
break;
// primary function expressions
case SyntaxKind.TypeOfExpression: // = 8760,
case SyntaxKind.SizeOfExpression: // = 8761,
case SyntaxKind.CheckedExpression: // = 8762,
case SyntaxKind.UncheckedExpression: // = 8763,
case SyntaxKind.DefaultExpression: // = 8764,
case SyntaxKind.MakeRefExpression: // = 8765,
case SyntaxKind.RefValueExpression: // = 8766,
case SyntaxKind.RefTypeExpression: // = 8767,
break;
// NameOfExpression: // = 8768, // we represent nameof(x) as an invocation expression
// query expressions
case SyntaxKind.QueryExpression: // = 8774,
case SyntaxKind.QueryBody: // = 8775,
case SyntaxKind.FromClause: // = 8776,
case SyntaxKind.LetClause: // = 8777,
case SyntaxKind.JoinClause: // = 8778,
case SyntaxKind.JoinIntoClause: // = 8779,
case SyntaxKind.WhereClause: // = 8780,
case SyntaxKind.OrderByClause: // = 8781,
case SyntaxKind.AscendingOrdering: // = 8782,
case SyntaxKind.DescendingOrdering: // = 8783,
case SyntaxKind.SelectClause: // = 8784,
case SyntaxKind.GroupClause: // = 8785,
case SyntaxKind.QueryContinuation: // = 8786,
break;
// statements
case SyntaxKind.Block: // = 8792,
case SyntaxKind.LocalDeclarationStatement: // = 8793,
case SyntaxKind.VariableDeclaration: // = 8794,
case SyntaxKind.VariableDeclarator: // = 8795,
case SyntaxKind.EqualsValueClause: // = 8796,
case SyntaxKind.ExpressionStatement: // = 8797,
case SyntaxKind.EmptyStatement: // = 8798,
case SyntaxKind.LabeledStatement: // = 8799,
break;
// jump statements
case SyntaxKind.GotoStatement: // = 8800,
case SyntaxKind.GotoCaseStatement: // = 8801,
case SyntaxKind.GotoDefaultStatement: // = 8802,
case SyntaxKind.BreakStatement: // = 8803,
case SyntaxKind.ContinueStatement: // = 8804,
case SyntaxKind.ReturnStatement: // = 8805,
case SyntaxKind.YieldReturnStatement: // = 8806,
case SyntaxKind.YieldBreakStatement: // = 8807,
case SyntaxKind.ThrowStatement: // = 8808,
break;
case SyntaxKind.WhileStatement: // = 8809,
case SyntaxKind.DoStatement: // = 8810,
case SyntaxKind.ForStatement: // = 8811,
case SyntaxKind.ForEachStatement: // = 8812,
break;
case SyntaxKind.UsingStatement: // = 8813,
// Console.WriteLine("Sorry, not implemented! node.Kind = " + node.Kind());
break;
case SyntaxKind.FixedStatement: // = 8814,
break;
// checked statements
case SyntaxKind.CheckedStatement: // = 8815,
case SyntaxKind.UncheckedStatement: // = 8816,
break;
case SyntaxKind.UnsafeStatement: // = 8817,
case SyntaxKind.LockStatement: // = 8818,
case SyntaxKind.IfStatement: // = 8819,
case SyntaxKind.ElseClause: // = 8820,
case SyntaxKind.SwitchStatement: // = 8821,
case SyntaxKind.SwitchSection: // = 8822,
case SyntaxKind.CaseSwitchLabel: // = 8823,
case SyntaxKind.DefaultSwitchLabel: // = 8824,
case SyntaxKind.TryStatement: // = 8825,
case SyntaxKind.CatchClause: // = 8826,
case SyntaxKind.CatchDeclaration: // = 8827,
case SyntaxKind.CatchFilterClause: // = 8828,
case SyntaxKind.FinallyClause: // = 8829,
break;
// statements that didn't fit above
case SyntaxKind.LocalFunctionStatement: // = 8830,
break;
// declarations
case SyntaxKind.CompilationUnit: // = 8840,
case SyntaxKind.GlobalStatement: // = 8841,
case SyntaxKind.NamespaceDeclaration: // = 8842,
break;
case SyntaxKind.UsingDirective: // = 8843,
// Console.WriteLine("Sorry, not implemented! case SyntaxKind.UsingDirective: node.Kind = " + node.Kind());
UsingDirectiveSyntax usingDirectiveNode = Parent as UsingDirectiveSyntax;
// Console.WriteLine(" --- usingDirectiveNode.Kind = " + usingDirectiveNode.Kind());
// Console.WriteLine(" --- usingDirectiveNode.Name = " + usingDirectiveNode.Name);
if (usingDirectiveNode.Name == node)
{
edgeLabelName = "name";
}
break;
case SyntaxKind.ExternAliasDirective: // = 8844,
break;
// attributes
case SyntaxKind.AttributeList: // = 8847,
case SyntaxKind.AttributeTargetSpecifier: // = 8848,
case SyntaxKind.Attribute: // = 8849,
case SyntaxKind.AttributeArgumentList: // = 8850,
case SyntaxKind.AttributeArgument: // = 8851,
case SyntaxKind.NameEquals: // = 8852,
break;
// type declarations
case SyntaxKind.ClassDeclaration: // = 8855,
case SyntaxKind.StructDeclaration: // = 8856,
case SyntaxKind.InterfaceDeclaration: // = 8857,
case SyntaxKind.EnumDeclaration: // = 8858,
case SyntaxKind.DelegateDeclaration: // = 8859,
break;
case SyntaxKind.BaseList: // = 8864,
case SyntaxKind.SimpleBaseType: // = 8865,
case SyntaxKind.TypeParameterConstraintClause: // = 8866,
case SyntaxKind.ConstructorConstraint: // = 8867,
case SyntaxKind.ClassConstraint: // = 8868,
case SyntaxKind.StructConstraint: // = 8869,
case SyntaxKind.TypeConstraint: // = 8870,
case SyntaxKind.ExplicitInterfaceSpecifier: // = 8871,
case SyntaxKind.EnumMemberDeclaration: // = 8872,
case SyntaxKind.FieldDeclaration: // = 8873,
case SyntaxKind.EventFieldDeclaration: // = 8874,
break;
case SyntaxKind.MethodDeclaration: // = 8875,
{
// Console.WriteLine("case SyntaxKind.MethodDeclaration: node.Kind = " + node.Kind());
// MethodDeclarationSyntax methodDeclarationNode = Parent as MethodDeclarationSyntax;
// Console.WriteLine(" Identifier = methodDeclarationNode.Identifier = " + methodDeclarationNode.Identifier);
break;
}
case SyntaxKind.OperatorDeclaration: // = 8876,
case SyntaxKind.ConversionOperatorDeclaration: // = 8877,
case SyntaxKind.ConstructorDeclaration: // = 8878,
break;
case SyntaxKind.BaseConstructorInitializer: // = 8889,
case SyntaxKind.ThisConstructorInitializer: // = 8890,
case SyntaxKind.DestructorDeclaration: // = 8891,
case SyntaxKind.PropertyDeclaration: // = 8892,
case SyntaxKind.EventDeclaration: // = 8893,
case SyntaxKind.IndexerDeclaration: // = 8894,
case SyntaxKind.AccessorList: // = 8895,
case SyntaxKind.GetAccessorDeclaration: // = 8896,
case SyntaxKind.SetAccessorDeclaration: // = 8897,
case SyntaxKind.AddAccessorDeclaration: // = 8898,
case SyntaxKind.RemoveAccessorDeclaration: // = 8899,
case SyntaxKind.UnknownAccessorDeclaration: // = 8900,
case SyntaxKind.ParameterList: // = 8906,
case SyntaxKind.BracketedParameterList: // = 8907,
case SyntaxKind.Parameter: // = 8908,
case SyntaxKind.TypeParameterList: // = 8909,
case SyntaxKind.TypeParameter: // = 8910,
case SyntaxKind.IncompleteMember: // = 8916,
case SyntaxKind.ArrowExpressionClause: // = 8917,
break;
default:
Console.WriteLine("Error: default reached in switch over node.Kind = " + node.Kind());
break;
}
return(edgeLabelName);
}
public virtual void VisitQualifiedName(QualifiedNameSyntax node)
{
DefaultVisit(node);
}
public QualifiedNameSyntax ConsumeQualifiedName(NameSyntax left)
{
var period = ConsumeToken();
var id2 = new IdentifierNameSyntax(ConsumeToken());
var qual = new QualifiedNameSyntax(left, period, id2);
if (AtDot())
{
return ConsumeQualifiedName(qual);
}
return qual;
}
private ExpressionNode BindMemberAccess(QualifiedNameSyntax node, bool invoked)
{
var left = BindExpression(node.Left);
return BindMemberAccess(node, left, node.Right, invoked);
}
/// <inheritdoc />
public override SyntaxNode VisitQualifiedName(QualifiedNameSyntax node)
{
return(base.VisitQualifiedName(node).WithAdditionalAnnotations(Simplifier.Annotation) !);
}
public override SyntaxToken VisitQualifiedName(QualifiedNameSyntax node) => VisitIdentifierName((IdentifierNameSyntax)node.Right);
public override Expr VisitQualifiedName(QualifiedNameSyntax node)
{
return(base.VisitQualifiedName(node));
}
private NameSyntax ParseName()
{
var result = ParseIdentifier() as NameSyntax;
while (Current.Kind == SyntaxKind.ColonColonToken)
{
var colonColon = Match(SyntaxKind.ColonColonToken);
var right = new IdentifierNameSyntax(Match(SyntaxKind.IdentifierToken));
result = new QualifiedNameSyntax(result, colonColon, right);
}
return result;
}
