private static IEnumerable <string> GetUniqueIdentifiers(SyntaxNode syntaxNode, CodeNode parent)
{
if (syntaxNode == null)
{
return(new List <string>());
}
switch (syntaxNode)
{
case CompilationUnitSyntax compilationUnitSyntax:
return(new [] { compilationUnitSyntax.Language }); // compilation unit is a singleton, so allow it to be treated as such
case ClassDeclarationSyntax classDeclarationSyntax:
return(new[] { classDeclarationSyntax.Identifier.ToString() });
case StructDeclarationSyntax structDeclarationSyntax:
return(new[] { structDeclarationSyntax.Identifier.ToString() });
case EnumDeclarationSyntax enumDeclarationSyntax:
return(new[] { enumDeclarationSyntax.Identifier.ToString() });
case EnumMemberDeclarationSyntax enumMemberDeclarationSyntax:
return(new[] { enumMemberDeclarationSyntax.Identifier.ToString() });
case EventDeclarationSyntax eventDeclarationSyntax:
return(new[] { eventDeclarationSyntax.Identifier.ToString() });
case FieldDeclarationSyntax fieldDeclarationSyntax:
return(fieldDeclarationSyntax.Declaration.Variables.Select(v => v.Identifier.ToString()));
case MethodDeclarationSyntax methodDeclarationSyntax:
return(new[] { methodDeclarationSyntax.Identifier.ToString() });
case NamespaceDeclarationSyntax namespaceDeclarationSyntax:
return(new[] { namespaceDeclarationSyntax.Name.ToString() });
case OperatorDeclarationSyntax operatorDeclarationSyntax:
return(new[] { operatorDeclarationSyntax.OperatorToken.ToString() });
case PropertyDeclarationSyntax propertyDeclarationSyntax:
return(new[] { propertyDeclarationSyntax.Identifier.ToString() });
case EventFieldDeclarationSyntax eventFieldDeclarationSyntax:
return(eventFieldDeclarationSyntax.Declaration.Variables.Select(v => v.Identifier.ToString()));
case ParameterSyntax parameterSyntax:
return(new[] { parameterSyntax.Identifier.ToString() });
case LocalDeclarationStatementSyntax localDeclarationStatementSyntax:
return(localDeclarationStatementSyntax.Declaration.Variables.Select(v => v.Identifier.ToString()));
case VariableDeclarationSyntax variableDeclarationSyntax:
return(variableDeclarationSyntax.Variables.Select(v => v.Identifier.ToString()));
case VariableDeclaratorSyntax variableDeclaratorSyntax:
return(new[] { variableDeclaratorSyntax.Identifier.ToString() });
case SwitchStatementSyntax switchStatementSyntax:
return(new[] { switchStatementSyntax.Expression.ToString() });
case SwitchSectionSyntax switchSectionSyntax:
return(switchSectionSyntax.Labels.Select(l => l.ToString()));
case BlockSyntax blockSyntax:
if (ParentsWithUniqueBlock.Contains(parent.Kind))
{
return new[] { "Body" }
}
; // make block unique so the diff thinks it's a modify instead of an add+remove
break;
case ParameterListSyntax parameterListSyntax:
if (ParentsWithUniqueBlock.Contains(parent.Kind))
{
return new[] { "Parameters" }
}
; // make block unique so the diff thinks it's a modify instead of an add+remove
break;
}
return(new List <string>());
}
}
/// <summary>
/// Reduces a Roslyn <see cref="SyntaxTree"/> to only the nodes defined "of interest" to us.
/// </summary>
public static List <CodeNode> ExtractTreeOfInterest(IEnumerable <SyntaxNode> syntaxNodes, CodeNode parent = null)
{
var list = new List <CodeNode>();
foreach (var syntaxNode in syntaxNodes)
{
var identifiers = GetUniqueIdentifiers(syntaxNode, parent).ToList(); // is this something that has a unique identifier within current scope? a method, field, property?
var kind = syntaxNode.Kind();
var source = syntaxNode.ToString();
// having all CodeNodes try to be unique is actually better: even when duplicate items occur, the UnorderedListComparer will match them by order of appearance.
var codeNode = new IdentifiableCodeNode(kind, identifiers.Any()
? identifiers
: new List <string> {
kind.ToString()
}, source);
var childNodes = ExtractTreeOfInterest(syntaxNode.ChildNodes().ToList(), codeNode);
codeNode.ChildNodes = childNodes;
list.Add(codeNode);
}
return(list);
}
