public SyntaxNode GetNode(int position, bool includeTrivia, bool deep)
{
if (Compilation == null || Compilation.FullSpan.Contains(position) == false)
{
return(null);
}
var node = Compilation.FindNode(new TextSpan(position, 0), includeTrivia, deep);
SeparatedSyntaxList <VariableDeclaratorSyntax> variables;
if (node.IsKind(SyntaxKind.FieldDeclaration) || node.IsKind(SyntaxKind.EventFieldDeclaration))
{
variables = (node as BaseFieldDeclarationSyntax).Declaration.Variables;
}
else if (node.IsKind(SyntaxKind.VariableDeclaration))
{
variables = (node as VariableDeclarationSyntax).Variables;
}
else if (node.IsKind(SyntaxKind.LocalDeclarationStatement))
{
variables = (node as LocalDeclarationStatementSyntax).Declaration.Variables;
}
else
{
return(node);
}
foreach (var variable in variables)
{
if (variable.Span.Contains(position))
{
return(node);
}
}
return(node.FullSpan.Contains(position) ? node : null);
}
/// <summary>
/// Obtains an <see cref="IClassificationType"/> object based on the given span.
/// Returns null if no classification is found for the given span.
/// </summary>
/// <param name="currentSpan">The span to be processed.</param>
/// <param name="documentRoot">The root of the document. Needed to find the parent node of the proccessed span.</param>
/// <param name="semanticModel">The semantic model of the current document. Needed to find the symbols of the proccessed span.</param>
/// <returns>An <see cref="IClassificationType"/> based on the given span. Null if no classification is found.</returns>
private IClassificationType GetClassificationType(ClassifiedSpan currentSpan, CompilationUnitSyntax documentRoot, SemanticModel semanticModel)
{
IClassificationType classificationType = null;
// Get the innermost span, which corresponds to the span being proccessed
var node = documentRoot.FindNode(currentSpan.TextSpan, true, true);
var nodeKind = node.Kind();
var token = node.FindToken(currentSpan.TextSpan.Start);
var spanType = currentSpan.ClassificationType;
if (spanType.Contains("name"))
{
classificationType = GetIdentifierClassification(token, semanticModel);
}
else
{
switch (spanType)
{
case "keyword":
classificationType = GetKeywordClassification(token);
break;
case "identifier":
{
classificationType = GetIdentifierClassification(token);
if (classificationType != null)
{
break;
}
if (IsChildOfKind(token, SyntaxKind.NamespaceDeclaration))
{
classificationType = _classifications[ClassificationTypes.Identifiers.NamespaceIdentifier];
}
break;
}
case "operator":
{
if (token.IsKind(SyntaxKind.DotToken))
{
if (IsChildOfKind(token, SyntaxKind.NamespaceDeclaration))
{
classificationType = _classifications[ClassificationTypes.Identifiers.NamespaceIdentifier];
}
}
break;
}
}
}
return(classificationType);
}
/// <remarks>These are tidied up so we can add as many GlobalImports as we want when building compilations</remarks>
private CSharpSyntaxNode TidyUsings(CompilationUnitSyntax compilationUnitSyntax)
{
var diagnostics = _semanticModel.GetDiagnostics().ToList();
var unusedUsings = diagnostics
.Where(d => d.Id == UnusedUsingDiagnosticId)
.Select(d => compilationUnitSyntax.FindNode(d.Location.SourceSpan))
.OfType <UsingDirectiveSyntax>()
.ToList();
var nodesWithUnresolvedTypes = diagnostics
.Where(d => d.Id == UnresolvedTypeOrNamespaceDiagnosticId && d.Location.IsInSource)
.Select(d => compilationUnitSyntax.FindNode(d.Location.SourceSpan))
.ToLookup(d => d.GetAncestor <UsingDirectiveSyntax>());
unusedUsings = unusedUsings.Except(nodesWithUnresolvedTypes.Select(g => g.Key)).ToList();
if (!nodesWithUnresolvedTypes[null].Any() && unusedUsings.Any())
{
compilationUnitSyntax =
compilationUnitSyntax.RemoveNodes(unusedUsings, SyntaxRemoveOptions.KeepNoTrivia);
}
return(compilationUnitSyntax);
}
static void GetAttributeNotationSpan(ITextSnapshot snapshot, List <ClassificationSpan> result, TextSpan textSpan, CompilationUnitSyntax unitCompilation)
{
var spanNode = unitCompilation.FindNode(textSpan, true, false);
if (spanNode.HasLeadingTrivia != false && spanNode.GetLeadingTrivia().FullSpan.Contains(textSpan) != false)
{
return;
}
switch (spanNode.Kind())
{
case SyntaxKind.AttributeList:
case SyntaxKind.AttributeArgumentList:
result.Add(CreateClassificationSpan(snapshot, textSpan, _Classifications.AttributeNotation));
return;
}
}
/// <remarks>These are tidied up so we can add as many GlobalImports as we want when building compilations</remarks>
private CSharpSyntaxNode TidyUsings(CompilationUnitSyntax compilationUnitSyntax)
{
var diagnostics = _semanticModel.GetDiagnostics().ToList();
var unusedUsings = diagnostics
.Where(d => d.Id == UnusedUsingDiagnosticId)
.Select(d => compilationUnitSyntax.FindNode(d.Location.SourceSpan))
.OfType <UsingDirectiveSyntax>()
.ToList();
if (diagnostics.All(d => d.Id != UnresolvedTypeOrNamespaceDiagnosticId) && unusedUsings.Any())
{
compilationUnitSyntax = compilationUnitSyntax.RemoveNodes(unusedUsings, SyntaxRemoveOptions.KeepNoTrivia);
}
return(compilationUnitSyntax);
}
static ITagSpan <IClassificationTag> GetAttributeNotationSpan(ITextSnapshot snapshot, TextSpan textSpan, CompilationUnitSyntax unitCompilation)
{
var spanNode = unitCompilation.FindNode(textSpan, true, false);
if (spanNode.HasLeadingTrivia && spanNode.GetLeadingTrivia().FullSpan.Contains(textSpan))
{
return(null);
}
switch (spanNode.Kind())
{
case SyntaxKind.AttributeArgument:
case SyntaxKind.AttributeList:
case SyntaxKind.AttributeArgumentList:
return(CreateClassificationSpan(snapshot, textSpan, _Classifications.AttributeNotation));
}
return(null);
}
public static CompilationUnitSyntax ExtractClass(this CompilationUnitSyntax root, TextSpan span)
{
var node = root.FindNode(span);
var typeDecl = node as BaseTypeDeclarationSyntax;
if (typeDecl == null)
{
return(null);
}
var member = node as MemberDeclarationSyntax;
var namespaceDeclarations = typeDecl
.Ancestors()
.OfType <NamespaceDeclarationSyntax>()
.Select(n => (member = n.WithMembers(SyntaxFactory.SingletonList(member))));
var namespaceDecl = namespaceDeclarations.LastOrDefault() as MemberDeclarationSyntax;
if (namespaceDecl == null)
{
namespaceDecl = typeDecl;
}
var usings = root
.DescendantNodesAndSelf(n => true)
.OfType <UsingDirectiveSyntax>()
.Select(u => u.WithAdditionalAnnotations(Simplifier.Annotation));
var extAlias = root
.ChildNodes()
.OfType <ExternAliasDirectiveSyntax>();
var ret = SyntaxFactory.CompilationUnit(
SyntaxFactory.List(extAlias),
SyntaxFactory.List(usings),
SyntaxFactory.List <AttributeListSyntax>(),
SyntaxFactory.SingletonList(namespaceDecl)
);
return(ret);
}
bool UpdateSemanticModel()
{
try {
_Document = View.TextSnapshot.GetOpenDocumentInCurrentContextWithChanges();
_SemanticModel = _Document.GetSemanticModelAsync().Result;
_Compilation = _SemanticModel.SyntaxTree.GetCompilationUnitRoot();
}
catch (NullReferenceException) {
_Node = null;
_Token = default;
_Trivia = default;
_LineComment = default;
return(false);
}
int pos = View.Selection.Start.Position;
try {
_Token = _Compilation.FindToken(pos, true);
}
catch (ArgumentOutOfRangeException) {
_Node = null;
_Token = default;
_Trivia = default;
_LineComment = default;
return(false);
}
var triviaList = _Token.HasLeadingTrivia ? _Token.LeadingTrivia : _Token.HasTrailingTrivia ? _Token.TrailingTrivia : default;
if (triviaList.Equals(SyntaxTriviaList.Empty) == false && triviaList.FullSpan.Contains(pos))
{
_Trivia = triviaList.FirstOrDefault(i => i.Span.Contains(pos));
_LineComment = triviaList.FirstOrDefault(i => i.IsLineComment());
}
else
{
_Trivia = _LineComment = default;
}
_Node = _Compilation.FindNode(_Token.Span, true, true);
return(true);
}
static ITagSpan <IClassificationTag> ClassifyPunctuation(TextSpan itemSpan, ITextSnapshot snapshot, SemanticModel semanticModel, CompilationUnitSyntax unitCompilation)
{
if (HighlightOptions.AllBraces == false)
{
return(null);
}
var s = snapshot.GetText(itemSpan.Start, itemSpan.Length)[0];
if (s == '{' || s == '}')
{
var node = unitCompilation.FindNode(itemSpan, true, true);
if (node is BaseTypeDeclarationSyntax == false &&
node is ExpressionSyntax == false &&
node is NamespaceDeclarationSyntax == false &&
node.Kind() != SyntaxKind.SwitchStatement && (node = node.Parent) == null)
{
return(null);
}
var type = ClassifySyntaxNode(node, node is ExpressionSyntax ? HighlightOptions.MemberBraceTags : HighlightOptions.MemberDeclarationBraceTags, HighlightOptions.KeywordBraceTags);
if (type != null)
{
return(CreateClassificationSpan(snapshot, itemSpan, type));
}
}
else if ((s == '(' || s == ')') && HighlightOptions.AllParentheses)
{
var node = unitCompilation.FindNode(itemSpan, true, true);
switch (node.Kind())
{
case SyntaxKind.CastExpression:
return(HighlightOptions.KeywordBraceTags.TypeCast != null &&
semanticModel.GetSymbolInfo(((CastExpressionSyntax)node).Type).Symbol != null
? CreateClassificationSpan(snapshot, itemSpan, HighlightOptions.KeywordBraceTags.TypeCast)
: null);
case SyntaxKind.ParenthesizedExpression:
return((HighlightOptions.KeywordBraceTags.TypeCast != null &&
node.ChildNodes().FirstOrDefault().IsKind(SyntaxKind.AsExpression) &&
semanticModel.GetSymbolInfo(((BinaryExpressionSyntax)node.ChildNodes().First()).Right).Symbol != null)
? CreateClassificationSpan(snapshot, itemSpan, HighlightOptions.KeywordBraceTags.TypeCast)
: null);
case SyntaxKind.SwitchStatement:
case SyntaxKind.SwitchSection:
case SyntaxKind.IfStatement:
case SyntaxKind.ElseClause:
case (SyntaxKind)9023: // positional pattern clause
return(CreateClassificationSpan(snapshot, itemSpan, HighlightOptions.KeywordBraceTags.Branching));
case SyntaxKind.ForStatement:
case SyntaxKind.ForEachStatement:
case SyntaxKind.ForEachVariableStatement:
case SyntaxKind.WhileStatement:
case SyntaxKind.DoStatement:
return(CreateClassificationSpan(snapshot, itemSpan, HighlightOptions.KeywordBraceTags.Loop));
case SyntaxKind.UsingStatement:
case SyntaxKind.FixedStatement:
case SyntaxKind.LockStatement:
case SyntaxKind.UnsafeStatement:
case SyntaxKind.TryStatement:
case SyntaxKind.CatchDeclaration:
case SyntaxKind.CatchClause:
case SyntaxKind.CatchFilterClause:
case SyntaxKind.FinallyClause:
return(CreateClassificationSpan(snapshot, itemSpan, HighlightOptions.KeywordBraceTags.Resource));
case SyntaxKind.ParenthesizedVariableDesignation:
return(CreateClassificationSpan(snapshot, itemSpan, node.Parent.IsKind((SyntaxKind)9027) ? HighlightOptions.KeywordBraceTags.Branching : HighlightOptions.MemberBraceTags.Constructor));
case SyntaxKind.TupleExpression:
case SyntaxKind.TupleType:
return(CreateClassificationSpan(snapshot, itemSpan, HighlightOptions.MemberBraceTags.Constructor));
case SyntaxKind.CheckedExpression:
case SyntaxKind.UncheckedExpression:
return(CreateClassificationSpan(snapshot, itemSpan, HighlightOptions.KeywordBraceTags.TypeCast));
}
if (HighlightOptions.MemberBraceTags.Constructor != null)
{
// SpecialHighlightOptions.ParameterBrace or SpecialHighlightOptions.SpecialPunctuation is ON
node = (node as BaseArgumentListSyntax
?? node as BaseParameterListSyntax
?? (CSharpSyntaxNode)(node as CastExpressionSyntax)
)?.Parent;
if (node != null)
{
var type = ClassifySyntaxNode(node, HighlightOptions.MemberBraceTags, HighlightOptions.KeywordBraceTags);
if (type != null)
{
return(CreateClassificationSpan(snapshot, itemSpan, type));
}
}
}
}
else if (s == '[' || s == ']')
{
// highlight attribute annotation
var node = unitCompilation.FindNode(itemSpan, true, false);
switch (node.Kind())
{
case SyntaxKind.AttributeList:
return(CreateClassificationSpan(snapshot, node.Span, _Classifications.AttributeNotation));
case SyntaxKind.ArrayRankSpecifier:
return(node.Parent.Parent.IsKind(SyntaxKind.ArrayCreationExpression)
? CreateClassificationSpan(snapshot, itemSpan, HighlightOptions.MemberBraceTags.Constructor)
: null);
case SyntaxKind.ImplicitStackAllocArrayCreationExpression:
return(CreateClassificationSpan(snapshot, itemSpan, HighlightOptions.MemberBraceTags.Constructor));
case SyntaxKind.Argument:
return(((ArgumentSyntax)node).Expression.IsKind(SyntaxKind.ImplicitStackAllocArrayCreationExpression) ? CreateClassificationSpan(snapshot, itemSpan, HighlightOptions.MemberBraceTags.Constructor) : null);
}
}
return(null);
}
public static SyntaxNode GetSyntaxNode(this Diagnostic diagnostic, CompilationUnitSyntax root)
{
return(root.FindNode(diagnostic.Location.SourceSpan));
}
static void ClassifyPunctuation(TextSpan itemSpan, ITextSnapshot snapshot, List <ClassificationSpan> result, SemanticModel semanticModel, CompilationUnitSyntax unitCompilation)
{
if (Config.Instance.SpecialHighlightOptions.HasAnyFlag(SpecialHighlightOptions.AllBraces) == false)
{
return;
}
var s = snapshot.GetText(itemSpan.Start, itemSpan.Length)[0];
if (s == '{' || s == '}')
{
var node = unitCompilation.FindNode(itemSpan, true, true);
if (node is BaseTypeDeclarationSyntax == false &&
node is ExpressionSyntax == false &&
node is NamespaceDeclarationSyntax == false &&
node.Kind() != SyntaxKind.SwitchStatement && (node = node.Parent) == null)
{
return;
}
var type = ClassifySyntaxNode(node);
if (type != null)
{
if (Config.Instance.SpecialHighlightOptions.MatchFlags(SpecialHighlightOptions.SpecialPunctuation))
{
result.Add(CreateClassificationSpan(snapshot, itemSpan, _GeneralClassifications.SpecialPunctuation));
}
if (type == _GeneralClassifications.BranchingKeyword)
{
if (Config.Instance.SpecialHighlightOptions.MatchFlags(SpecialHighlightOptions.BranchBrace))
{
result.Add(CreateClassificationSpan(snapshot, itemSpan, type));
}
return;
}
if (type == _GeneralClassifications.LoopKeyword)
{
if (Config.Instance.SpecialHighlightOptions.MatchFlags(SpecialHighlightOptions.LoopBrace))
{
result.Add(CreateClassificationSpan(snapshot, itemSpan, type));
}
return;
}
if (type == _Classifications.ResourceKeyword)
{
if (Config.Instance.SpecialHighlightOptions.MatchFlags(SpecialHighlightOptions.ResourceBrace))
{
result.Add(CreateClassificationSpan(snapshot, itemSpan, type));
}
return;
}
if (node is ExpressionSyntax == false)
{
result.Add(CreateClassificationSpan(snapshot, itemSpan, _Classifications.DeclarationBrace));
}
if (Config.Instance.SpecialHighlightOptions.MatchFlags(SpecialHighlightOptions.DeclarationBrace))
{
result.Add(CreateClassificationSpan(snapshot, itemSpan, type));
}
}
}
else if ((s == '(' || s == ')') && Config.Instance.SpecialHighlightOptions.HasAnyFlag(SpecialHighlightOptions.ParameterBrace | SpecialHighlightOptions.BranchBrace | SpecialHighlightOptions.LoopBrace | SpecialHighlightOptions.ResourceBrace))
{
var node = unitCompilation.FindNode(itemSpan, true, true);
switch (node.Kind())
{
case SyntaxKind.CastExpression:
if (Config.Instance.SpecialHighlightOptions.MatchFlags(SpecialHighlightOptions.ParameterBrace) == false)
{
return;
}
var symbol = semanticModel.GetSymbolInfo((node as CastExpressionSyntax).Type).Symbol;
if (symbol == null)
{
return;
}
IClassificationType type = null;
switch (symbol.Kind)
{
case SymbolKind.NamedType:
switch ((symbol as INamedTypeSymbol).TypeKind)
{
case TypeKind.Class: type = _Classifications.ClassName; break;
case TypeKind.Interface: type = _Classifications.InterfaceName; break;
case TypeKind.Struct: type = _Classifications.StructName; break;
case TypeKind.Delegate: type = _Classifications.DelegateName; break;
case TypeKind.Enum: type = _Classifications.EnumName; break;
}
break;
case SymbolKind.TypeParameter:
type = _Classifications.TypeParameter; break;
}
if (type != null)
{
result.Add(CreateClassificationSpan(snapshot, itemSpan, type));
return;
}
break;
case SyntaxKind.SwitchStatement:
case SyntaxKind.SwitchSection:
case SyntaxKind.IfStatement:
case SyntaxKind.ElseClause:
MarkClassificationTypeForBrace(itemSpan, snapshot, result, _GeneralClassifications.BranchingKeyword, SpecialHighlightOptions.BranchBrace);
return;
case SyntaxKind.ForStatement:
case SyntaxKind.ForEachStatement:
case SyntaxKind.WhileStatement:
case SyntaxKind.DoStatement:
MarkClassificationTypeForBrace(itemSpan, snapshot, result, _GeneralClassifications.LoopKeyword, SpecialHighlightOptions.LoopBrace);
return;
case SyntaxKind.UsingStatement:
case SyntaxKind.FixedStatement:
case SyntaxKind.LockStatement:
case SyntaxKind.UnsafeStatement:
case SyntaxKind.TryStatement:
case SyntaxKind.CatchDeclaration:
case SyntaxKind.CatchClause:
case SyntaxKind.CatchFilterClause:
case SyntaxKind.FinallyClause:
MarkClassificationTypeForBrace(itemSpan, snapshot, result, _Classifications.ResourceKeyword, SpecialHighlightOptions.ResourceBrace);
return;
case SyntaxKind.TupleExpression:
MarkClassificationTypeForBrace(itemSpan, snapshot, result, _Classifications.ConstructorMethod, SpecialHighlightOptions.ParameterBrace);
return;
}
if (Config.Instance.SpecialHighlightOptions.HasAnyFlag(SpecialHighlightOptions.SpecialPunctuation | SpecialHighlightOptions.ParameterBrace))
{
node = (node as BaseArgumentListSyntax
?? node as BaseParameterListSyntax
?? (CSharpSyntaxNode)(node as CastExpressionSyntax)
)?.Parent;
if (node != null)
{
var type = ClassifySyntaxNode(node);
if (type != null)
{
MarkClassificationTypeForBrace(itemSpan, snapshot, result, type, SpecialHighlightOptions.ParameterBrace);
}
}
}
}
else if (s == '[' || s == ']')
{
// highlight attribute annotation
var node = unitCompilation.FindNode(itemSpan, true, false);
if (node.IsKind(SyntaxKind.AttributeList))
{
result.Add(CreateClassificationSpan(snapshot, node.Span, _Classifications.AttributeNotation));
}
}
}
/// <summary>
/// Gets all the <see cref="ClassificationSpan"/> objects that intersect with the given range
/// of text.
/// </summary>
/// <remarks>
/// This method scans the given SnapshotSpan for potential matches for this classification.
/// In this instance, it classifies everything and returns each span as a new ClassificationSpan.
/// </remarks>
/// <param name="span">The span currently being classified.</param>
/// <returns>
/// A list of ClassificationSpans that represent spans identified to be of this classification.
/// </returns>
public IList <ClassificationSpan> GetClassificationSpans(SnapshotSpan span)
{
_logger.ConditionalInfo("Span start position is={0} and end position is={1}", span.Start.Position, span.End.Position);
var result = new List <ClassificationSpan>();
// NOTE: Workspace can be null for "Using directive is unnecessary". Also workspace can
// be null when solution/project failed to load and VS gave some reasons of it or when
// try to open a file doesn't contained in the current solution
Workspace workspace = span.Snapshot.TextBuffer.GetWorkspace();
if (workspace == null)
{
// TODO: Add supporting a files that doesn't included to the current solution
return(result);
}
Document document = workspace.GetDocument(span.Snapshot.AsText());
SemanticModel semanticModel = _semanticModel ?? (_semanticModel = document.GetSemanticModelAsync().Result);
SyntaxTree syntaxTree = semanticModel.SyntaxTree;
TextSpan textSpan = new TextSpan(span.Start.Position, span.Length);
var classifiedSpans = Classifier.GetClassifiedSpans(semanticModel, textSpan, workspace)
.Where(item => item.ClassificationType == "identifier");
CompilationUnitSyntax unitCompilation = syntaxTree.GetCompilationUnitRoot();
foreach (var item in classifiedSpans)
{
// NOTE: Some kind of nodes, for example ArgumentSyntax, should are handled with a
// specific way
SyntaxNode node = unitCompilation.FindNode(item.TextSpan, true).HandleNode();
ISymbol symbol = semanticModel.GetSymbolInfo(node).Symbol ?? semanticModel.GetDeclaredSymbol(node);
if (symbol == null)
{
// NOTE: handle alias in using directive
if ((node.Parent as NameEqualsSyntax)?.Parent is UsingDirectiveSyntax)
{
result.Add(CreateClassificationSpan(span.Snapshot, item.TextSpan, _aliasNamespaceType));
continue;
}
// TODO: Log information about a node and semantic model, because semantic model
// didn't retrive information from node in this case
_logger.ConditionalInfo("Nothing is found. Span start at {0} and end at {1}", span.Start.Position, span.End.Position);
_logger.ConditionalInfo("Node is {0} {1}", node.Kind(), node.RawKind);
continue;
}
switch (symbol.Kind)
{
case SymbolKind.Alias:
case SymbolKind.ArrayType:
case SymbolKind.Assembly:
case SymbolKind.DynamicType:
case SymbolKind.ErrorType:
case SymbolKind.Label:
case SymbolKind.NetModule:
case SymbolKind.NamedType:
case SymbolKind.PointerType:
case SymbolKind.RangeVariable:
case SymbolKind.TypeParameter:
case SymbolKind.Preprocessing:
//case SymbolKind.Discard:
_logger.ConditionalInfo("Symbol kind={0} was on position [{1}..{2}]", symbol.Kind, item.TextSpan.Start, item.TextSpan.End);
_logger.ConditionalInfo("Text was: {0}", node.GetText().ToString());
break;
case SymbolKind.Field:
var fieldSymbol = (symbol as IFieldSymbol).Type;
var fieldType = fieldSymbol.TypeKind == TypeKind.Enum ? _enumFieldType : _fieldType;
result.Add(CreateClassificationSpan(span.Snapshot, item.TextSpan, fieldType));
break;
case SymbolKind.Property:
result.Add(CreateClassificationSpan(span.Snapshot, item.TextSpan, _propertyType));
break;
case SymbolKind.Event:
result.Add(CreateClassificationSpan(span.Snapshot, item.TextSpan, _eventType));
break;
case SymbolKind.Local:
result.Add(CreateClassificationSpan(span.Snapshot, item.TextSpan, _localFieldType));
break;
case SymbolKind.Namespace:
var namesapceType = IsAliasNamespace(symbol, node) ? _namespaceType : _aliasNamespaceType;
result.Add(CreateClassificationSpan(span.Snapshot, item.TextSpan, namesapceType));
break;
case SymbolKind.Parameter:
// NOTE: Skip argument in summaries
if (node.Parent.Kind() != SyntaxKind.XmlNameAttribute)
{
result.Add(CreateClassificationSpan(span.Snapshot, item.TextSpan, _parameterType));
}
break;
case SymbolKind.Method:
var methodSymbol = symbol as IMethodSymbol;
var methodType = methodSymbol.MethodKind == MethodKind.Constructor
? _constructorMethodType
: methodSymbol.IsExtensionMethod
? _extensionMethodType
: methodSymbol.IsStatic ? _staticMethodType : _methodType;
result.Add(CreateClassificationSpan(span.Snapshot, item.TextSpan, methodType));
break;
default:
break;
}
}
return(result);
}
static void ClassifyPunctuation(TextSpan itemSpan, ITextSnapshot snapshot, List <ClassificationSpan> result, SemanticModel semanticModel, CompilationUnitSyntax unitCompilation)
{
if (Config.Instance.SpecialHighlightOptions.HasAnyFlag(SpecialHighlightOptions.AllBraces) == false)
{
return;
}
var s = snapshot.GetText(itemSpan.Start, itemSpan.Length)[0];
if (s == '{' || s == '}')
{
var node = unitCompilation.FindNode(itemSpan, true, true);
if (node is BaseTypeDeclarationSyntax == false &&
node is ExpressionSyntax == false &&
node is NamespaceDeclarationSyntax == false &&
node.Kind() != SyntaxKind.SwitchStatement && (node = node.Parent) == null)
{
return;
}
var type = ClassifySyntaxNode(node);
if (type != null)
{
if (Config.Instance.SpecialHighlightOptions.MatchFlags(SpecialHighlightOptions.SpecialPunctuation))
{
result.Add(CreateClassificationSpan(snapshot, itemSpan, _GeneralClassifications.SpecialPunctuation));
}
if (type == _GeneralClassifications.BranchingKeyword)
{
if (Config.Instance.SpecialHighlightOptions.MatchFlags(SpecialHighlightOptions.BranchBrace))
{
result.Add(CreateClassificationSpan(snapshot, itemSpan, type));
}
return;
}
if (type == _GeneralClassifications.LoopKeyword)
{
if (Config.Instance.SpecialHighlightOptions.MatchFlags(SpecialHighlightOptions.LoopBrace))
{
result.Add(CreateClassificationSpan(snapshot, itemSpan, type));
}
return;
}
if (type == _Classifications.ResourceKeyword)
{
if (Config.Instance.SpecialHighlightOptions.MatchFlags(SpecialHighlightOptions.ResourceBrace))
{
result.Add(CreateClassificationSpan(snapshot, itemSpan, type));
}
return;
}
if (node is ExpressionSyntax == false)
{
result.Add(CreateClassificationSpan(snapshot, itemSpan, _Classifications.DeclarationBrace));
}
if (Config.Instance.SpecialHighlightOptions.MatchFlags(SpecialHighlightOptions.DeclarationBrace))
{
result.Add(CreateClassificationSpan(snapshot, itemSpan, type));
}
}
}
else if ((s == '(' || s == ')') && Config.Instance.SpecialHighlightOptions.HasAnyFlag(SpecialHighlightOptions.AllParentheses))
{
var node = unitCompilation.FindNode(itemSpan, true, true);
switch (node.Kind())
{
case SyntaxKind.CastExpression:
if (Config.Instance.SpecialHighlightOptions.MatchFlags(SpecialHighlightOptions.CastBrace) == false)
{
return;
}
var symbol = semanticModel.GetSymbolInfo(((CastExpressionSyntax)node).Type).Symbol;
if (symbol == null)
{
return;
}
var type = GetClassificationType(symbol);
if (type != null)
{
if (Config.Instance.SpecialHighlightOptions.MatchFlags(SpecialHighlightOptions.SpecialPunctuation))
{
result.Add(CreateClassificationSpan(snapshot, itemSpan, _GeneralClassifications.SpecialPunctuation));
}
result.Add(CreateClassificationSpan(snapshot, itemSpan, type));
return;
}
break;
case SyntaxKind.ParenthesizedExpression:
if (Config.Instance.SpecialHighlightOptions.MatchFlags(SpecialHighlightOptions.CastBrace) == false)
{
return;
}
if (node.ChildNodes().FirstOrDefault().IsKind(SyntaxKind.AsExpression))
{
symbol = semanticModel.GetSymbolInfo(((BinaryExpressionSyntax)node.ChildNodes().First()).Right).Symbol;
if (symbol == null)
{
return;
}
type = GetClassificationType(symbol);
if (type != null)
{
if (Config.Instance.SpecialHighlightOptions.MatchFlags(SpecialHighlightOptions.SpecialPunctuation))
{
result.Add(CreateClassificationSpan(snapshot, itemSpan, _GeneralClassifications.SpecialPunctuation));
}
result.Add(CreateClassificationSpan(snapshot, itemSpan, type));
return;
}
}
break;
case SyntaxKind.SwitchStatement:
case SyntaxKind.SwitchSection:
case SyntaxKind.IfStatement:
case SyntaxKind.ElseClause:
MarkClassificationTypeForBrace(itemSpan, snapshot, result, _GeneralClassifications.BranchingKeyword, SpecialHighlightOptions.BranchBrace);
return;
case SyntaxKind.ForStatement:
case SyntaxKind.ForEachStatement:
case SyntaxKind.ForEachVariableStatement:
case SyntaxKind.WhileStatement:
case SyntaxKind.DoStatement:
MarkClassificationTypeForBrace(itemSpan, snapshot, result, _GeneralClassifications.LoopKeyword, SpecialHighlightOptions.LoopBrace);
return;
case SyntaxKind.UsingStatement:
case SyntaxKind.FixedStatement:
case SyntaxKind.LockStatement:
case SyntaxKind.UnsafeStatement:
case SyntaxKind.TryStatement:
case SyntaxKind.CatchDeclaration:
case SyntaxKind.CatchClause:
case SyntaxKind.CatchFilterClause:
case SyntaxKind.FinallyClause:
MarkClassificationTypeForBrace(itemSpan, snapshot, result, _Classifications.ResourceKeyword, SpecialHighlightOptions.ResourceBrace);
return;
case SyntaxKind.TupleExpression:
MarkClassificationTypeForBrace(itemSpan, snapshot, result, _Classifications.ConstructorMethod, SpecialHighlightOptions.ParameterBrace);
return;
}
if (Config.Instance.SpecialHighlightOptions.HasAnyFlag(SpecialHighlightOptions.SpecialPunctuation | SpecialHighlightOptions.ParameterBrace))
{
node = (node as BaseArgumentListSyntax
?? node as BaseParameterListSyntax
?? (CSharpSyntaxNode)(node as CastExpressionSyntax)
)?.Parent;
if (node != null)
{
var type = ClassifySyntaxNode(node);
if (type != null)
{
MarkClassificationTypeForBrace(itemSpan, snapshot, result, type, SpecialHighlightOptions.ParameterBrace);
}
}
}
}
else if (s == '[' || s == ']')
{
// highlight attribute annotation
var node = unitCompilation.FindNode(itemSpan, true, false);
if (node.IsKind(SyntaxKind.AttributeList))
{
result.Add(CreateClassificationSpan(snapshot, node.Span, _Classifications.AttributeNotation));
}
}
IClassificationType GetClassificationType(ISymbol symbol)
{
switch (symbol.Kind)
{
case SymbolKind.NamedType:
switch (((INamedTypeSymbol)symbol).TypeKind)
{
case TypeKind.Class: return(_Classifications.ClassName);
case TypeKind.Interface: return(_Classifications.InterfaceName);
case TypeKind.Struct: return(_Classifications.StructName);
case TypeKind.Delegate: return(_Classifications.DelegateName);
case TypeKind.Enum: return(_Classifications.EnumName);
}
break;
case SymbolKind.ArrayType: return(_Classifications.ClassName);
case SymbolKind.Event: return(_Classifications.Event);
case SymbolKind.PointerType: return(_Classifications.StructName);
case SymbolKind.TypeParameter:
var p = (ITypeParameterSymbol)symbol;
foreach (var c in p.ConstraintTypes)
{
switch (c.SpecialType)
{
case SpecialType.System_Enum: return(_Classifications.EnumName);
case SpecialType.System_Delegate: return(_Classifications.DelegateName);
}
return(_Classifications.ClassName);
}
if (p.HasReferenceTypeConstraint)
{
return(_Classifications.ClassName);
}
if (p.HasValueTypeConstraint || p.HasUnmanagedTypeConstraint)
{
return(_Classifications.StructName);
}
return(_Classifications.TypeParameter);
}
return(null);
}
}
