private ImmutableArray <Edit> GetUnwrapAllEdits(WrappingStyle wrappingStyle)
{
var result = ArrayBuilder <Edit> .GetInstance();
AddTextChangeBetweenOpenAndFirstItem(wrappingStyle, result);
foreach (var comma in _listItems.GetSeparators())
{
result.Add(Edit.DeleteBetween(comma.GetPreviousToken(), comma));
result.Add(Edit.DeleteBetween(comma, comma.GetNextToken()));
}
result.Add(Edit.DeleteBetween(_listItems.Last(), _listSyntax.GetLastToken()));
return(result.ToImmutableAndFree());
}
public static void Analyze(SyntaxNodeAnalysisContext context, EnumDeclarationSyntax enumDeclaration)
{
SeparatedSyntaxList <EnumMemberDeclarationSyntax> members = enumDeclaration.Members;
if (members.Count > 1)
{
int previousIndex = members[0].GetSpanStartLine();
for (int i = 1; i < members.Count; i++)
{
if (members[i].GetSpanStartLine() == previousIndex)
{
TextSpan span = TextSpan.FromBounds(
members.First().Span.Start,
members.Last().Span.End);
context.ReportDiagnostic(
DiagnosticDescriptors.FormatEachEnumMemberOnSeparateLine,
Location.Create(enumDeclaration.SyntaxTree, span));
return;
}
previousIndex = members[i].GetSpanEndLine();
}
}
}
private void AnalyzeVariableDeclaration(SyntaxNodeAnalysisContext context)
{
if (GeneratedCodeAnalyzer?.IsGeneratedCode(context) == true)
{
return;
}
var variableDeclaration = (VariableDeclarationSyntax)context.Node;
if (SplitVariableDeclarationRefactoring.CanRefactor(variableDeclaration))
{
SeparatedSyntaxList <VariableDeclaratorSyntax> variables = variableDeclaration.Variables;
TextSpan span = TextSpan.FromBounds(
variables[1].Span.Start,
variables.Last().Span.End);
if (context.Node
.DescendantTrivia(span)
.All(f => f.IsWhitespaceOrEndOfLineTrivia()))
{
context.ReportDiagnostic(
DiagnosticDescriptors.SplitVariableDeclaration,
variableDeclaration.GetLocation());
}
}
}
private static async Task <Document> RemoveRedundantCommaAsync(
Document document,
InitializerExpressionSyntax initializer,
CancellationToken cancellationToken)
{
SyntaxNode oldRoot = await document.GetSyntaxRootAsync(cancellationToken).ConfigureAwait(false);
SyntaxToken lastComma = initializer.Expressions.GetSeparators().Last();
SyntaxTriviaList newTrailingTrivia = initializer.Expressions.Last().GetTrailingTrivia()
.AddRange(lastComma.LeadingTrivia)
.AddRange(lastComma.TrailingTrivia);
SeparatedSyntaxList <ExpressionSyntax> newExpressions = initializer
.Expressions
.ReplaceSeparator(
lastComma,
SyntaxFactory.MissingToken(SyntaxKind.CommaToken));
ExpressionSyntax lastExpression = newExpressions.Last();
newExpressions = newExpressions
.Replace(lastExpression, lastExpression.WithTrailingTrivia(newTrailingTrivia));
InitializerExpressionSyntax newInitializer = initializer
.WithExpressions(newExpressions);
SyntaxNode newRoot = oldRoot.ReplaceNode(initializer, newInitializer);
return(document.WithSyntaxRoot(newRoot));
}
private static void AnalyzeBaseArgumentList(SyntaxNodeAnalysisContext context)
{
if (context.Node.ContainsDiagnostics)
{
return;
}
var argumentList = (BaseArgumentListSyntax)context.Node;
SeparatedSyntaxList <ArgumentSyntax> arguments = argumentList.Arguments;
int index = IndexOfFirstFixableParameter(argumentList, arguments, context.SemanticModel, context.CancellationToken);
if (index == -1)
{
return;
}
TextSpan span = TextSpan.FromBounds(arguments[index].SpanStart, arguments.Last().Span.End);
if (argumentList.ContainsDirectives(span))
{
return;
}
DiagnosticHelpers.ReportDiagnostic(context,
DiagnosticDescriptors.OrderNamedArguments,
Location.Create(argumentList.SyntaxTree, span));
}
private static void AnalyzeEnumDeclaration(SyntaxNodeAnalysisContext context)
{
var enumDeclaration = (EnumDeclarationSyntax)context.Node;
SeparatedSyntaxList <EnumMemberDeclarationSyntax> members = enumDeclaration.Members;
if (members.Count <= 1)
{
return;
}
int previousIndex = members[0].GetSpanStartLine();
for (int i = 1; i < members.Count; i++)
{
if (members[i].GetSpanStartLine() == previousIndex)
{
TextSpan span = TextSpan.FromBounds(
members[0].SpanStart,
members.Last().Span.End);
DiagnosticHelpers.ReportDiagnostic(context,
DiagnosticDescriptors.AddNewLineBeforeEnumMember,
Location.Create(enumDeclaration.SyntaxTree, span));
return;
}
previousIndex = members[i].GetSpanEndLine();
}
}
public static async Task <Document> RefactorAsync(
Document document,
InitializerExpressionSyntax initializer,
CancellationToken cancellationToken)
{
SyntaxToken lastComma = initializer.Expressions.GetSeparators().Last();
SyntaxTriviaList newTrailingTrivia = initializer.Expressions.Last().GetTrailingTrivia()
.AddRange(lastComma.LeadingTrivia)
.AddRange(lastComma.TrailingTrivia);
SeparatedSyntaxList <ExpressionSyntax> newExpressions = initializer
.Expressions
.ReplaceSeparator(
lastComma,
SyntaxFactory.MissingToken(SyntaxKind.CommaToken));
ExpressionSyntax lastExpression = newExpressions.Last();
newExpressions = newExpressions
.Replace(lastExpression, lastExpression.WithTrailingTrivia(newTrailingTrivia));
InitializerExpressionSyntax newInitializer = initializer
.WithExpressions(newExpressions);
return(await document.ReplaceNodeAsync(initializer, newInitializer, cancellationToken).ConfigureAwait(false));
}
public static bool IsApplicableSpan(InitializerExpressionSyntax initializer, TextSpan span)
{
SeparatedSyntaxList <ExpressionSyntax> expressions = initializer.Expressions;
if (!expressions.Any())
{
return(true);
}
if (span.IsEmpty)
{
if (expressions.Count == expressions.SeparatorCount &&
TextSpan.FromBounds(expressions.GetSeparator(expressions.Count - 1).Span.End, initializer.CloseBraceToken.SpanStart).Contains(span))
{
return(true);
}
TextSpan span2 = TextSpan.FromBounds(expressions.Last().Span.End, initializer.CloseBraceToken.SpanStart);
if (span2.Length > 0)
{
span2 = new TextSpan(span2.Start + 1, span2.Length - 1);
if (span2.Contains(span))
{
return(true);
}
}
}
return(false);
}
/// <summary>
/// Generates an array intializer
/// </summary>
/// <param name="node">The expression</param>
public override void Generate(InitializerExpressionSyntax node)
{
SeparatedSyntaxList <ExpressionSyntax> children = node.Expressions;
m_context.Writer.Append("{");
foreach (ExpressionSyntax child in children)
{
m_context.Generators.Expression.Generate(child);
if (child != children.Last())
{
m_context.Writer.Append(", ");
}
}
m_context.Writer.Append("}");
}
public static bool SpanContainsDirectives <TNode>(this SeparatedSyntaxList <TNode> list) where TNode : SyntaxNode
{
if (!list.Any())
{
return(false);
}
for (int i = 1; i < list.Count - 1; i++)
{
if (list[i].ContainsDirectives)
{
return(true);
}
}
return(list.First().SpanOrLeadingTriviaContainsDirectives() ||
list.Last().SpanOrTrailingTriviaContainsDirectives());
}
private static void AnalyzeVariableDeclaration(SyntaxNodeAnalysisContext context)
{
var variableDeclaration = (VariableDeclarationSyntax)context.Node;
if (SplitVariableDeclarationAnalysis.IsFixable(variableDeclaration))
{
SeparatedSyntaxList <VariableDeclaratorSyntax> variables = variableDeclaration.Variables;
TextSpan span = TextSpan.FromBounds(variables[1].SpanStart, variables.Last().Span.End);
if (context.Node
.DescendantTrivia(span)
.All(f => f.IsWhitespaceOrEndOfLineTrivia()))
{
DiagnosticHelpers.ReportDiagnostic(context, DiagnosticRules.SplitVariableDeclaration, variableDeclaration);
}
}
}
private static void AnalyzeVariableDeclaration(
SyntaxNodeAnalysisContext context,
VariableDeclarationSyntax variableDeclaration)
{
SeparatedSyntaxList <VariableDeclaratorSyntax> variables = variableDeclaration.Variables;
if (variables.Count > 1)
{
TextSpan span = TextSpan.FromBounds(
variables[1].Span.Start,
variables.Last().Span.End);
if (context.Node
.DescendantTrivia(span)
.All(f => f.IsWhitespaceOrEndOfLine()))
{
context.ReportDiagnostic(
DiagnosticDescriptors.SplitDeclarationIntoMultipleDeclarations,
Location.Create(context.Node.SyntaxTree, span));
}
}
}
private static void AnalyzeDeclaration<TMember>(
SyntaxNodeAnalysisContext context,
SeparatedSyntaxList<TMember> members,
SyntaxToken openBrace,
SyntaxToken closeBrace) where TMember : MemberDeclarationSyntax
{
if (members.Any())
{
AnalyzeStart(context, members[0], openBrace);
int count = members.SeparatorCount;
SyntaxNodeOrToken nodeOrToken = (count == members.Count)
? members.GetSeparator(count - 1)
: members.Last();
AnalyzeEnd(context, nodeOrToken, closeBrace);
}
else
{
AnalyzeEmptyBraces(context, openBrace, closeBrace);
}
}
public static bool IsLast <TNode>(this SeparatedSyntaxList <TNode> list, TNode node) where TNode : SyntaxNode
{
return(list.Any() &&
list.Last() == node);
}
private static void AnalyzePragmaWarningDirectiveTrivia(SyntaxNodeAnalysisContext context)
{
var directive = (PragmaWarningDirectiveTriviaSyntax)context.Node;
SeparatedSyntaxList <ExpressionSyntax> errorCodes = directive.ErrorCodes;
int codeCount = errorCodes.Count;
if (codeCount == 0)
{
return;
}
if (codeCount == errorCodes.SeparatorCount)
{
if (!errorCodes.GetSeparator(codeCount - 1).TrailingTrivia.IsEmptyOrWhitespace())
{
return;
}
}
else if (!errorCodes.Last().GetTrailingTrivia().IsEmptyOrWhitespace())
{
return;
}
if (IsSuppressingThisAnalyzer(errorCodes))
{
return;
}
SyntaxTrivia trivia = directive.ParentTrivia;
if (!trivia.TryGetContainingList(out SyntaxTriviaList list))
{
return;
}
int count = list.Count;
if (count == 1)
{
return;
}
int index = list.IndexOf(trivia);
if (index == count - 1)
{
return;
}
int i = index - 1;
while (i >= 0 &&
list[i].IsWhitespaceOrEndOfLineTrivia())
{
i--;
}
if (i >= 0)
{
SyntaxTrivia directiveTrivia = list[i];
if (directiveTrivia.IsKind(SyntaxKind.PragmaWarningDirectiveTrivia))
{
var previousDirective = (PragmaWarningDirectiveTriviaSyntax)directiveTrivia.GetStructure();
if (!IsSuppressingThisAnalyzer(previousDirective.ErrorCodes))
{
return;
}
}
}
i = index + 1;
while (i < count &&
list[i].IsWhitespaceOrEndOfLineTrivia())
{
i++;
}
if (i == count)
{
return;
}
if (!list[i].IsKind(SyntaxKind.PragmaWarningDirectiveTrivia))
{
return;
}
if (list[i].GetStructure() is not PragmaWarningDirectiveTriviaSyntax nextDirective)
{
return;
}
SyntaxToken disableOrRestoreKeyword = directive.DisableOrRestoreKeyword;
SyntaxKind keywordKind = disableOrRestoreKeyword.Kind();
if (keywordKind != nextDirective.DisableOrRestoreKeyword.Kind())
{
return;
}
if (keywordKind == SyntaxKind.DisableKeyword &&
IsSuppressingThisAnalyzer(nextDirective.ErrorCodes))
{
return;
}
DiagnosticHelpers.ReportDiagnostic(context, DiagnosticRules.MergePreprocessorDirectives, directive);
}
private static void Analyze <TNode>(SyntaxNodeAnalysisContext context, SeparatedSyntaxList <TNode> nodes, SyntaxToken token) where TNode : SyntaxNode
{
int count = nodes.Count;
if (count <= 1)
{
return;
}
SyntaxTree syntaxTree = nodes[0].SyntaxTree;
bool isSingleLine = true;
for (int i = 1; i < count; i++)
{
TNode node1 = nodes[i - 1];
TNode node2 = nodes[i];
bool isSingleLine1 = IsSingleLine(node1.Span);
bool isSingleLine2 = IsSingleLine(node2.Span);
bool isSingleLineBetween = IsSingleLine(TextSpan.FromBounds(node1.Span.End, node2.SpanStart));
if (isSingleLine1)
{
if (isSingleLine2)
{
if (i > 1 &&
isSingleLineBetween != isSingleLine)
{
ReportDiagnostic();
return;
}
}
else if (isSingleLineBetween)
{
if (i < count - 1 ||
!(node2 is ArgumentSyntax argument) ||
!argument.Expression.IsKind(SyntaxKind.AnonymousMethodExpression, SyntaxKind.SimpleLambdaExpression, SyntaxKind.ParenthesizedLambdaExpression))
{
ReportDiagnostic();
return;
}
}
else if (i > 1 &&
isSingleLine)
{
ReportDiagnostic();
return;
}
}
else if (isSingleLine2)
{
if (isSingleLineBetween)
{
ReportDiagnostic();
return;
}
else if (i > 1 &&
isSingleLine)
{
ReportDiagnostic();
return;
}
}
else if (isSingleLineBetween)
{
ReportDiagnostic();
return;
}
else
{
isSingleLine = false;
}
if (isSingleLine)
{
isSingleLine = isSingleLine1 && isSingleLine2 && isSingleLineBetween;
}
}
bool IsSingleLine(TextSpan span)
{
return(syntaxTree.GetLineSpan(span, context.CancellationToken).IsSingleLine());
}
void ReportDiagnostic()
{
context.ReportDiagnostic(
DiagnosticDescriptors.WrapAndIndentEachNodeInList,
Location.Create(syntaxTree, TextSpan.FromBounds(nodes[0].SpanStart, nodes.Last().Span.End)));
}
}
public static Task <Document> ToSingleLineAsync(
Document document,
InitializerExpressionSyntax initializer,
bool removeTrailingComma = false,
CancellationToken cancellationToken = default(CancellationToken))
{
InitializerExpressionSyntax newInitializer = initializer
.ReplaceWhitespace(ElasticSpace, TextSpan.FromBounds(initializer.Span.Start, initializer.Span.End))
.WithFormatterAnnotation();
newInitializer = newInitializer.WithOpenBraceToken(newInitializer.OpenBraceToken.WithoutLeadingTrivia().WithTrailingTrivia(Space));
newInitializer = newInitializer.WithCloseBraceToken(newInitializer.CloseBraceToken.WithoutLeadingTrivia());
SeparatedSyntaxList <ExpressionSyntax> expressions = newInitializer.Expressions;
if (expressions.Any())
{
ExpressionSyntax firstExpression = expressions.First();
newInitializer = newInitializer.WithExpressions(expressions.Replace(firstExpression, firstExpression.WithoutLeadingTrivia()));
expressions = newInitializer.Expressions;
SyntaxToken trailingComma = expressions.GetTrailingSeparator();
if (trailingComma.IsKind(SyntaxKind.CommaToken))
{
if (removeTrailingComma)
{
expressions = expressions.ReplaceSeparator(trailingComma, MissingToken(SyntaxKind.CommaToken));
ExpressionSyntax lastExpression = expressions.Last();
expressions = expressions.Replace(lastExpression, lastExpression.WithTrailingTrivia(Space));
newInitializer = newInitializer.WithExpressions(expressions);
}
else
{
newInitializer = newInitializer.WithExpressions(expressions.ReplaceSeparator(trailingComma, trailingComma.WithTrailingTrivia(Space)));
}
}
else
{
ExpressionSyntax lastExpression = expressions.Last();
newInitializer = newInitializer.WithExpressions(expressions.Replace(lastExpression, lastExpression.WithTrailingTrivia(Space)));
}
}
SyntaxNode parent = initializer.Parent;
SyntaxNode newParent;
switch (parent.Kind())
{
case SyntaxKind.ObjectCreationExpression:
{
var expression = (ObjectCreationExpressionSyntax)parent;
expression = expression.WithInitializer(newInitializer);
ArgumentListSyntax argumentList = expression.ArgumentList;
if (argumentList != null)
{
newParent = expression.WithArgumentList(argumentList.WithTrailingTrivia(Space));
}
else
{
newParent = expression.WithType(expression.Type.WithTrailingTrivia(Space));
}
break;
}
case SyntaxKind.ArrayCreationExpression:
{
var expression = (ArrayCreationExpressionSyntax)parent;
newParent = expression
.WithInitializer(newInitializer)
.WithType(expression.Type.WithTrailingTrivia(Space));
break;
}
case SyntaxKind.ImplicitArrayCreationExpression:
{
var expression = (ImplicitArrayCreationExpressionSyntax)parent;
newParent = expression
.WithInitializer(newInitializer)
.WithCloseBracketToken(expression.CloseBracketToken.WithTrailingTrivia(Space));
break;
}
case SyntaxKind.EqualsValueClause:
{
var equalsValueClause = (EqualsValueClauseSyntax)parent;
newParent = equalsValueClause
.WithValue(newInitializer)
.WithEqualsToken(equalsValueClause.EqualsToken.WithTrailingTrivia(Space));
break;
}
case SyntaxKind.SimpleAssignmentExpression:
{
var simpleAssignment = (AssignmentExpressionSyntax)parent;
newParent = simpleAssignment
.WithRight(newInitializer)
.WithOperatorToken(simpleAssignment.OperatorToken.WithTrailingTrivia(Space));
break;
}
default:
{
Debug.Fail(parent.Kind().ToString());
return(document.ReplaceNodeAsync(initializer, newInitializer, cancellationToken));
}
}
return(document.ReplaceNodeAsync(parent, newParent, cancellationToken));
}
public override TNode Last() => SyntaxWrapper.Wrap(SyntaxList.Last());
