public sealed override async Task RegisterCodeFixesAsync(CodeFixContext context) { if (!Settings.IsCodeFixEnabled(CodeFixIdentifiers.RemoveDuplicateModifier)) { return; } SyntaxNode root = await context.GetSyntaxRootAsync().ConfigureAwait(false); if (!TryFindToken(root, context.Span.Start, out SyntaxToken token)) { return; } foreach (Diagnostic diagnostic in context.Diagnostics) { switch (diagnostic.Id) { case CompilerDiagnosticIdentifiers.DuplicateModifier: { ModifiersCodeFixes.RemoveModifier( context, diagnostic, token.Parent, token, additionalKey: CodeFixIdentifiers.RemoveDuplicateModifier); break; } } } }
public sealed override async Task RegisterCodeFixesAsync(CodeFixContext context) { if (!Settings.IsCodeFixEnabled(CodeFixIdentifiers.RemoveNewModifier)) { return; } SyntaxNode root = await context.GetSyntaxRootAsync().ConfigureAwait(false); if (!TryFindFirstAncestorOrSelf(root, context.Span, out MemberDeclarationSyntax memberDeclaration)) { return; } foreach (Diagnostic diagnostic in context.Diagnostics) { switch (diagnostic.Id) { case CompilerDiagnosticIdentifiers.MemberDoesNotHideAccessibleMember: { ModifiersCodeFixes.RemoveModifier(context, diagnostic, memberDeclaration, SyntaxKind.NewKeyword); break; } } } }
public sealed override async Task RegisterCodeFixesAsync(CodeFixContext context) { if (!Settings.IsAnyCodeFixEnabled( CodeFixIdentifiers.AddOverrideModifier, CodeFixIdentifiers.AddNewModifier, CodeFixIdentifiers.RemoveMemberDeclaration)) { return; } SyntaxNode root = await context.GetSyntaxRootAsync().ConfigureAwait(false); if (!TryFindFirstAncestorOrSelf(root, context.Span, out MemberDeclarationSyntax memberDeclaration)) { return; } foreach (Diagnostic diagnostic in context.Diagnostics) { switch (diagnostic.Id) { case CompilerDiagnosticIdentifiers.MemberHidesInheritedMemberUseNewKeywordIfHidingWasIntended: { if (Settings.IsCodeFixEnabled(CodeFixIdentifiers.AddNewModifier)) { ModifiersCodeFixes.AddModifier(context, diagnostic, memberDeclaration, SyntaxKind.NewKeyword, additionalKey: nameof(SyntaxKind.NewKeyword)); } if (Settings.IsCodeFixEnabled(CodeFixIdentifiers.RemoveMemberDeclaration)) { RemoveMember(context, diagnostic, memberDeclaration); } break; } case CompilerDiagnosticIdentifiers.MemberHidesInheritedMemberToMakeCurrentMethodOverrideThatImplementationAddOverrideKeyword: { if (Settings.IsCodeFixEnabled(CodeFixIdentifiers.AddOverrideModifier) && !memberDeclaration.GetModifiers().Contains(SyntaxKind.StaticKeyword)) { ModifiersCodeFixes.AddModifier(context, diagnostic, memberDeclaration, SyntaxKind.OverrideKeyword, additionalKey: nameof(SyntaxKind.OverrideKeyword)); } if (Settings.IsCodeFixEnabled(CodeFixIdentifiers.AddNewModifier)) { ModifiersCodeFixes.AddModifier(context, diagnostic, memberDeclaration, SyntaxKind.NewKeyword, additionalKey: nameof(SyntaxKind.NewKeyword)); } if (Settings.IsCodeFixEnabled(CodeFixIdentifiers.RemoveMemberDeclaration)) { RemoveMember(context, diagnostic, memberDeclaration); } break; } } } }
private void AddStaticModifier(CodeFixContext context, Diagnostic diagnostic, SyntaxNode node, string additionalKey = null) { if (node.IsKind(SyntaxKind.ConstructorDeclaration) && ((ConstructorDeclarationSyntax)node).ParameterList?.Parameters.Any() == true) { return; } ModifiersCodeFixes.AddModifier(context, diagnostic, node, SyntaxKind.StaticKeyword, additionalKey: additionalKey); }
public sealed override async Task RegisterCodeFixesAsync(CodeFixContext context) { SyntaxNode root = await context.GetSyntaxRootAsync().ConfigureAwait(false); if (!TryFindFirstAncestorOrSelf(root, context.Span, out TypeDeclarationSyntax typeDeclaration)) { return; } ModifiersCodeFixes.RemoveModifier(context, context.Diagnostics[0], typeDeclaration, SyntaxKind.PartialKeyword); }
public sealed override async Task RegisterCodeFixesAsync(CodeFixContext context) { if (!Settings.IsCodeFixEnabled(CodeFixIdentifiers.MakeClassNonStatic)) { return; } SyntaxNode root = await context.GetSyntaxRootAsync().ConfigureAwait(false); if (!TryFindFirstAncestorOrSelf(root, context.Span, out TypeSyntax type)) { return; } foreach (Diagnostic diagnostic in context.Diagnostics) { switch (diagnostic.Id) { case CompilerDiagnosticIdentifiers.StaticTypesCannotBeUsedAsTypeArguments: { SemanticModel semanticModel = await context.GetSemanticModelAsync().ConfigureAwait(false); ITypeSymbol typeSymbol = semanticModel.GetTypeSymbol(type, context.CancellationToken)?.OriginalDefinition; if (typeSymbol == null) { break; } if (!typeSymbol.IsClass()) { break; } ImmutableArray <SyntaxReference> syntaxReferences = typeSymbol.DeclaringSyntaxReferences; if (!syntaxReferences.Any()) { break; } ModifiersCodeFixes.RemoveModifier( context, diagnostic, ImmutableArray.CreateRange(syntaxReferences, f => f.GetSyntax()), SyntaxKind.StaticKeyword, title: "Make class non-static"); break; } } } }
public sealed override async Task RegisterCodeFixesAsync(CodeFixContext context) { SyntaxNode root = await context.GetSyntaxRootAsync().ConfigureAwait(false); if (!TryFindFirstAncestorOrSelf(root, context.Span, out ParameterSyntax parameter)) { return; } foreach (Diagnostic diagnostic in context.Diagnostics) { switch (diagnostic.Id) { case DiagnosticIdentifiers.AddParameterToDocumentationComment: { var refactoring = new AddParameterToDocumentationCommentRefactoring(); CodeAction codeAction = CodeAction.Create( "Add parameter to documentation comment", cancellationToken => refactoring.RefactorAsync(context.Document, parameter, cancellationToken), GetEquivalenceKey(diagnostic)); context.RegisterCodeFix(codeAction, diagnostic); break; } case DiagnosticIdentifiers.OverridingMemberCannotChangeParamsModifier: { if (parameter.IsParams()) { ModifiersCodeFixes.RemoveModifier(context, diagnostic, parameter, SyntaxKind.ParamsKeyword); } else { ModifiersCodeFixes.AddModifier(context, diagnostic, parameter, SyntaxKind.ParamsKeyword); } break; } } } }
public sealed override async Task RegisterCodeFixesAsync(CodeFixContext context) { if (!Settings.IsCodeFixEnabled(CodeFixIdentifiers.AddComparisonWithBooleanLiteral) && !Settings.IsCodeFixEnabled(CodeFixIdentifiers.CreateSingletonArray) && !Settings.IsCodeFixEnabled(CodeFixIdentifiers.UseUncheckedExpression) && !Settings.IsCodeFixEnabled(CodeFixIdentifiers.RemoveConstModifier) && !Settings.IsCodeFixEnabled(CodeFixIdentifiers.ReplaceNullLiteralExpressionWithDefaultValue) && !Settings.IsCodeFixEnabled(CodeFixIdentifiers.UseCoalesceExpression) && !Settings.IsCodeFixEnabled(CodeFixIdentifiers.RemoveConditionThatIsAlwaysEqualToTrueOrFalse)) { return; } SyntaxNode root = await context.GetSyntaxRootAsync().ConfigureAwait(false); if (!TryFindNode(root, context.Span, out ExpressionSyntax expression)) { return; } foreach (Diagnostic diagnostic in context.Diagnostics) { switch (diagnostic.Id) { case CompilerDiagnosticIdentifiers.CannotImplicitlyConvertTypeExplicitConversionExists: { SemanticModel semanticModel = await context.GetSemanticModelAsync().ConfigureAwait(false); TypeInfo typeInfo = semanticModel.GetTypeInfo(expression, context.CancellationToken); ITypeSymbol type = typeInfo.Type; ITypeSymbol convertedType = typeInfo.ConvertedType; if (type?.IsNamedType() == true) { var namedType = (INamedTypeSymbol)type; if (namedType.ConstructedFrom.SpecialType == SpecialType.System_Nullable_T) { if (convertedType?.IsBoolean() == true || AddComparisonWithBooleanLiteralRefactoring.IsCondition(expression)) { if (Settings.IsCodeFixEnabled(CodeFixIdentifiers.AddComparisonWithBooleanLiteral)) { CodeAction codeAction = CodeAction.Create( AddComparisonWithBooleanLiteralRefactoring.GetTitle(expression), cancellationToken => AddComparisonWithBooleanLiteralRefactoring.RefactorAsync(context.Document, expression, cancellationToken), GetEquivalenceKey(diagnostic, CodeFixIdentifiers.AddComparisonWithBooleanLiteral)); context.RegisterCodeFix(codeAction, diagnostic); } } else if (namedType.TypeArguments[0].Equals(convertedType)) { if (Settings.IsCodeFixEnabled(CodeFixIdentifiers.UseCoalesceExpression)) { CodeAction codeAction = CodeAction.Create( "Use coalesce expression", cancellationToken => { ExpressionSyntax defaultValue = convertedType.ToDefaultValueSyntax(semanticModel, expression.SpanStart); ExpressionSyntax newNode = CoalesceExpression(expression.WithoutTrivia(), defaultValue) .WithTriviaFrom(expression) .Parenthesize() .WithFormatterAnnotation(); return(context.Document.ReplaceNodeAsync(expression, newNode, cancellationToken)); }, GetEquivalenceKey(diagnostic, CodeFixIdentifiers.UseCoalesceExpression)); context.RegisterCodeFix(codeAction, diagnostic); } } } } if (Settings.IsCodeFixEnabled(CodeFixIdentifiers.CreateSingletonArray) && type?.IsErrorType() == false && !type.Equals(convertedType) && convertedType.IsArrayType()) { var arrayType = (IArrayTypeSymbol)convertedType; if (semanticModel.IsImplicitConversion(expression, arrayType.ElementType)) { CodeAction codeAction = CodeAction.Create( "Create singleton array", cancellationToken => CreateSingletonArrayRefactoring.RefactorAsync(context.Document, expression, arrayType.ElementType, semanticModel, cancellationToken), GetEquivalenceKey(diagnostic, CodeFixIdentifiers.CreateSingletonArray)); context.RegisterCodeFix(codeAction, diagnostic); } } break; } case CompilerDiagnosticIdentifiers.ConstantValueCannotBeConverted: { if (!Settings.IsCodeFixEnabled(CodeFixIdentifiers.UseUncheckedExpression)) { break; } CodeAction codeAction = CodeAction.Create( "Use 'unchecked'", cancellationToken => { CheckedExpressionSyntax newNode = CSharpFactory.UncheckedExpression(expression.WithoutTrivia()); newNode = newNode.WithTriviaFrom(expression); return(context.Document.ReplaceNodeAsync(expression, newNode, cancellationToken)); }, GetEquivalenceKey(diagnostic)); context.RegisterCodeFix(codeAction, diagnostic); break; } case CompilerDiagnosticIdentifiers.ExpressionBeingAssignedMustBeConstant: { if (!Settings.IsCodeFixEnabled(CodeFixIdentifiers.RemoveConstModifier)) { break; } LocalDeclarationStatementSyntax localDeclarationStatement = GetLocalDeclarationStatement(expression); if (localDeclarationStatement == null) { break; } SyntaxTokenList modifiers = localDeclarationStatement.Modifiers; if (!modifiers.Contains(SyntaxKind.ConstKeyword)) { break; } ModifiersCodeFixes.RemoveModifier(context, diagnostic, localDeclarationStatement, SyntaxKind.ConstKeyword); break; } case CompilerDiagnosticIdentifiers.CannotConvertNullToTypeBecauseItIsNonNullableValueType: { if (!Settings.IsCodeFixEnabled(CodeFixIdentifiers.ReplaceNullLiteralExpressionWithDefaultValue)) { break; } SemanticModel semanticModel = await context.GetSemanticModelAsync().ConfigureAwait(false); ITypeSymbol typeSymbol = semanticModel.GetTypeInfo(expression, context.CancellationToken).ConvertedType; if (typeSymbol?.SupportsExplicitDeclaration() == true) { CodeAction codeAction = CodeAction.Create( "Replace 'null' with default value", cancellationToken => { ExpressionSyntax newNode = typeSymbol.ToDefaultValueSyntax(semanticModel, expression.SpanStart); return(context.Document.ReplaceNodeAsync(expression, newNode, cancellationToken)); }, GetEquivalenceKey(diagnostic)); context.RegisterCodeFix(codeAction, diagnostic); } break; } case CompilerDiagnosticIdentifiers.ResultOfExpressionIsAlwaysConstantSinceValueIsNeverEqualToNull: { if (!Settings.IsCodeFixEnabled(CodeFixIdentifiers.RemoveConditionThatIsAlwaysEqualToTrueOrFalse)) { break; } SemanticModel semanticModel = await context.GetSemanticModelAsync().ConfigureAwait(false); if (!NullCheckExpression.TryCreate(expression, semanticModel, out NullCheckExpression nullCheck, context.CancellationToken)) { break; } if (nullCheck.Kind != NullCheckKind.EqualsToNull && nullCheck.Kind != NullCheckKind.NotEqualsToNull) { break; } CodeAction codeAction = CodeAction.Create( "Remove condition", cancellationToken => { SyntaxNode newRoot = RemoveHelper.RemoveCondition(root, expression, nullCheck.Kind == NullCheckKind.NotEqualsToNull); return(Task.FromResult(context.Document.WithSyntaxRoot(newRoot))); }, GetEquivalenceKey(diagnostic)); context.RegisterCodeFix(codeAction, diagnostic); break; } } } }
public sealed override async Task RegisterCodeFixesAsync(CodeFixContext context) { SyntaxNode root = await context.GetSyntaxRootAsync().ConfigureAwait(false); if (!TryFindFirstAncestorOrSelf(root, context.Span, out MemberDeclarationSyntax memberDeclaration)) { return; } foreach (Diagnostic diagnostic in context.Diagnostics) { switch (diagnostic.Id) { case DiagnosticIdentifiers.FormatDeclarationBraces: { CodeAction codeAction = CodeAction.Create( "Format braces", cancellationToken => FormatDeclarationBracesRefactoring.RefactorAsync(context.Document, memberDeclaration, cancellationToken), GetEquivalenceKey(diagnostic)); context.RegisterCodeFix(codeAction, diagnostic); break; } case DiagnosticIdentifiers.RemoveRedundantOverridingMember: { CodeAction codeAction = CodeAction.Create( $"Remove redundant overridding {memberDeclaration.GetTitle()}", cancellationToken => context.Document.RemoveMemberAsync(memberDeclaration, cancellationToken), GetEquivalenceKey(diagnostic)); context.RegisterCodeFix(codeAction, diagnostic); break; } case DiagnosticIdentifiers.AddDefaultAccessModifier: { var accessibility = (Accessibility)Enum.Parse( typeof(Accessibility), context.Diagnostics[0].Properties[nameof(Accessibility)]); CodeAction codeAction = CodeAction.Create( "Add default access modifier", cancellationToken => AddDefaultAccessModifierRefactoring.RefactorAsync(context.Document, memberDeclaration, accessibility, cancellationToken), GetEquivalenceKey(diagnostic)); context.RegisterCodeFix(codeAction, diagnostic); break; } case DiagnosticIdentifiers.AddEmptyLineBetweenDeclarations: { CodeAction codeAction = CodeAction.Create( "Add empty line", cancellationToken => AddEmptyLineBetweenDeclarationsRefactoring.RefactorAsync(context.Document, memberDeclaration, cancellationToken), GetEquivalenceKey(diagnostic)); context.RegisterCodeFix(codeAction, diagnostic); break; } case DiagnosticIdentifiers.RemoveRedundantSealedModifier: { ModifiersCodeFixes.RemoveModifier(context, diagnostic, memberDeclaration, SyntaxKind.SealedKeyword); break; } case DiagnosticIdentifiers.AvoidSemicolonAtEndOfDeclaration: { CodeAction codeAction = CodeAction.Create( "Remove unnecessary semicolon", cancellationToken => AvoidSemicolonAtEndOfDeclarationRefactoring.RefactorAsync(context.Document, memberDeclaration, cancellationToken), GetEquivalenceKey(diagnostic)); context.RegisterCodeFix(codeAction, diagnostic); break; } case DiagnosticIdentifiers.ReorderModifiers: { CodeAction codeAction = CodeAction.Create( "Reorder modifiers", cancellationToken => ReorderModifiersRefactoring.RefactorAsync(context.Document, memberDeclaration, cancellationToken), GetEquivalenceKey(diagnostic)); context.RegisterCodeFix(codeAction, diagnostic); break; } case DiagnosticIdentifiers.MarkFieldAsReadOnly: { var fieldDeclaration = (FieldDeclarationSyntax)memberDeclaration; SeparatedSyntaxList <VariableDeclaratorSyntax> declarators = fieldDeclaration.Declaration.Variables; string title = (declarators.Count == 1) ? $"Mark '{declarators[0].Identifier.ValueText}' as read-only" : "Mark fields as read-only"; ModifiersCodeFixes.AddModifier(context, diagnostic, fieldDeclaration, SyntaxKind.ReadOnlyKeyword, title: title); break; } case DiagnosticIdentifiers.UseConstantInsteadOfField: { CodeAction codeAction = CodeAction.Create( "Use constant instead of field", cancellationToken => UseConstantInsteadOfFieldRefactoring.RefactorAsync(context.Document, (FieldDeclarationSyntax)memberDeclaration, cancellationToken), GetEquivalenceKey(diagnostic)); context.RegisterCodeFix(codeAction, diagnostic); break; } case DiagnosticIdentifiers.UseReadOnlyAutoProperty: { CodeAction codeAction = CodeAction.Create( "Use read-only auto-property", cancellationToken => UseReadOnlyAutoPropertyRefactoring.RefactorAsync(context.Document, (PropertyDeclarationSyntax)memberDeclaration, cancellationToken), GetEquivalenceKey(diagnostic)); context.RegisterCodeFix(codeAction, diagnostic); break; } case DiagnosticIdentifiers.ReplaceCommentWithDocumentationComment: { CodeAction codeAction = CodeAction.Create( "Replace comment with documentation comment", cancellationToken => ReplaceCommentWithDocumentationCommentRefactoring.RefactorAsync(context.Document, memberDeclaration, cancellationToken), GetEquivalenceKey(diagnostic)); context.RegisterCodeFix(codeAction, diagnostic); break; } } } }
public sealed override async Task RegisterCodeFixesAsync(CodeFixContext context) { if (!Settings.IsCodeFixEnabled(CodeFixIdentifiers.AddComparisonWithBooleanLiteral) && !Settings.IsCodeFixEnabled(CodeFixIdentifiers.CreateSingletonArray) && !Settings.IsCodeFixEnabled(CodeFixIdentifiers.UseUncheckedExpression) && !Settings.IsCodeFixEnabled(CodeFixIdentifiers.RemoveConstModifier) && !Settings.IsCodeFixEnabled(CodeFixIdentifiers.ReplaceNullLiteralExpressionWithDefaultValue) && !Settings.IsCodeFixEnabled(CodeFixIdentifiers.UseCoalesceExpression) && !Settings.IsCodeFixEnabled(CodeFixIdentifiers.RemoveConditionThatIsAlwaysEqualToTrueOrFalse) && !Settings.IsCodeFixEnabled(CodeFixIdentifiers.IntroduceLocalVariable) && !Settings.IsCodeFixEnabled(CodeFixIdentifiers.IntroduceField) && !Settings.IsCodeFixEnabled(CodeFixIdentifiers.ReplaceStringLiteralWithCharacterLiteral) && !Settings.IsCodeFixEnabled(CodeFixIdentifiers.UseYieldReturnInsteadOfReturn) && !Settings.IsCodeFixEnabled(CodeFixIdentifiers.ChangeMemberTypeAccordingToReturnExpression) ) { return; } SyntaxNode root = await context.GetSyntaxRootAsync().ConfigureAwait(false); if (!TryFindNode(root, context.Span, out ExpressionSyntax expression)) { return; } foreach (Diagnostic diagnostic in context.Diagnostics) { switch (diagnostic.Id) { case CompilerDiagnosticIdentifiers.CannotImplicitlyConvertTypeExplicitConversionExists: { SemanticModel semanticModel = await context.GetSemanticModelAsync().ConfigureAwait(false); TypeInfo typeInfo = semanticModel.GetTypeInfo(expression, context.CancellationToken); ITypeSymbol type = typeInfo.Type; ITypeSymbol convertedType = typeInfo.ConvertedType; if ((type is INamedTypeSymbol namedType) && namedType.ConstructedFrom.SpecialType == SpecialType.System_Nullable_T) { if (convertedType?.IsBoolean() == true || AddComparisonWithBooleanLiteralRefactoring.IsCondition(expression)) { if (Settings.IsCodeFixEnabled(CodeFixIdentifiers.AddComparisonWithBooleanLiteral)) { CodeAction codeAction = CodeAction.Create( AddComparisonWithBooleanLiteralRefactoring.GetTitle(expression), cancellationToken => AddComparisonWithBooleanLiteralRefactoring.RefactorAsync(context.Document, expression, cancellationToken), GetEquivalenceKey(diagnostic, CodeFixIdentifiers.AddComparisonWithBooleanLiteral)); context.RegisterCodeFix(codeAction, diagnostic); } } else if (namedType.TypeArguments[0].Equals(convertedType)) { if (Settings.IsCodeFixEnabled(CodeFixIdentifiers.UseCoalesceExpression)) { CodeAction codeAction = CodeAction.Create( "Use coalesce expression", cancellationToken => { ExpressionSyntax defaultValue = convertedType.ToDefaultValueSyntax(semanticModel, expression.SpanStart); ExpressionSyntax newNode = CoalesceExpression(expression.WithoutTrivia(), defaultValue) .WithTriviaFrom(expression) .Parenthesize() .WithFormatterAnnotation(); return(context.Document.ReplaceNodeAsync(expression, newNode, cancellationToken)); }, GetEquivalenceKey(diagnostic, CodeFixIdentifiers.UseCoalesceExpression)); context.RegisterCodeFix(codeAction, diagnostic); } } } if (Settings.IsCodeFixEnabled(CodeFixIdentifiers.ChangeMemberTypeAccordingToReturnExpression)) { ChangeMemberTypeRefactoring.ComputeCodeFix(context, diagnostic, expression, semanticModel); } if (Settings.IsCodeFixEnabled(CodeFixIdentifiers.AddCastExpression)) { CodeFixRegistrator.AddCastExpression(context, diagnostic, expression, convertedType, semanticModel); } if (Settings.IsCodeFixEnabled(CodeFixIdentifiers.CreateSingletonArray) && type?.IsErrorType() == false && !type.Equals(convertedType) && (convertedType is IArrayTypeSymbol arrayType) && semanticModel.IsImplicitConversion(expression, arrayType.ElementType)) { CodeAction codeAction = CodeAction.Create( "Create singleton array", cancellationToken => CreateSingletonArrayRefactoring.RefactorAsync(context.Document, expression, arrayType.ElementType, semanticModel, cancellationToken), GetEquivalenceKey(diagnostic, CodeFixIdentifiers.CreateSingletonArray)); context.RegisterCodeFix(codeAction, diagnostic); } break; } case CompilerDiagnosticIdentifiers.ConstantValueCannotBeConverted: { if (!Settings.IsCodeFixEnabled(CodeFixIdentifiers.UseUncheckedExpression)) { break; } CodeAction codeAction = CodeAction.Create( "Use 'unchecked'", cancellationToken => { CheckedExpressionSyntax newNode = CSharpFactory.UncheckedExpression(expression.WithoutTrivia()); newNode = newNode.WithTriviaFrom(expression); return(context.Document.ReplaceNodeAsync(expression, newNode, cancellationToken)); }, GetEquivalenceKey(diagnostic)); context.RegisterCodeFix(codeAction, diagnostic); break; } case CompilerDiagnosticIdentifiers.ExpressionBeingAssignedMustBeConstant: { if (!Settings.IsCodeFixEnabled(CodeFixIdentifiers.RemoveConstModifier)) { break; } LocalDeclarationStatementSyntax localDeclarationStatement = GetLocalDeclarationStatement(expression); if (localDeclarationStatement == null) { break; } SyntaxTokenList modifiers = localDeclarationStatement.Modifiers; if (!modifiers.Contains(SyntaxKind.ConstKeyword)) { break; } ModifiersCodeFixes.RemoveModifier(context, diagnostic, localDeclarationStatement, SyntaxKind.ConstKeyword); break; } case CompilerDiagnosticIdentifiers.CannotConvertNullToTypeBecauseItIsNonNullableValueType: case CompilerDiagnosticIdentifiers.CannotConvertNullToTypeParameterBecauseItCouldBeNonNullableValueType: { if (!Settings.IsCodeFixEnabled(CodeFixIdentifiers.ReplaceNullLiteralExpressionWithDefaultValue)) { break; } SemanticModel semanticModel = await context.GetSemanticModelAsync().ConfigureAwait(false); ITypeSymbol typeSymbol = semanticModel.GetTypeInfo(expression, context.CancellationToken).ConvertedType; if (typeSymbol?.SupportsExplicitDeclaration() != true) { break; } CodeAction codeAction = CodeAction.Create( "Replace 'null' with default value", cancellationToken => { ExpressionSyntax newNode = typeSymbol.ToDefaultValueSyntax(semanticModel, expression.SpanStart); return(context.Document.ReplaceNodeAsync(expression, newNode, cancellationToken)); }, GetEquivalenceKey(diagnostic)); context.RegisterCodeFix(codeAction, diagnostic); break; } case CompilerDiagnosticIdentifiers.ResultOfExpressionIsAlwaysConstantSinceValueIsNeverEqualToNull: { if (!Settings.IsCodeFixEnabled(CodeFixIdentifiers.RemoveConditionThatIsAlwaysEqualToTrueOrFalse)) { break; } SemanticModel semanticModel = await context.GetSemanticModelAsync().ConfigureAwait(false); if (!NullCheckExpression.TryCreate(expression, semanticModel, out NullCheckExpression nullCheck, context.CancellationToken)) { break; } if (nullCheck.Kind != NullCheckKind.EqualsToNull && nullCheck.Kind != NullCheckKind.NotEqualsToNull) { break; } CodeAction codeAction = CodeAction.Create( "Remove condition", cancellationToken => { SyntaxNode newRoot = RemoveHelper.RemoveCondition(root, expression, nullCheck.Kind == NullCheckKind.NotEqualsToNull); return(Task.FromResult(context.Document.WithSyntaxRoot(newRoot))); }, GetEquivalenceKey(diagnostic)); context.RegisterCodeFix(codeAction, diagnostic); break; } case CompilerDiagnosticIdentifiers.OnlyAssignmentCallIncrementDecrementAndNewObjectExpressionsCanBeUsedAsStatement: { SemanticModel semanticModel = await context.GetSemanticModelAsync().ConfigureAwait(false); if (expression.Parent is ArrowExpressionClauseSyntax arrowExpresssionClause) { if (!Settings.IsCodeFixEnabled(CodeFixIdentifiers.ChangeMemberTypeAccordingToReturnExpression)) { break; } ChangeMemberTypeRefactoring.ComputeCodeFix(context, diagnostic, expression, semanticModel); } else if (expression.Parent is ExpressionStatementSyntax expressionStatement) { if (!Settings.IsAnyCodeFixEnabled( CodeFixIdentifiers.IntroduceLocalVariable, CodeFixIdentifiers.IntroduceField)) { break; } if (semanticModel.GetSymbol(expression, context.CancellationToken)?.IsErrorType() != false) { break; } ITypeSymbol typeSymbol = semanticModel.GetTypeSymbol(expression, context.CancellationToken); if (typeSymbol?.IsErrorType() != false) { break; } if (Settings.IsCodeFixEnabled(CodeFixIdentifiers.IntroduceLocalVariable) && !expressionStatement.IsEmbedded()) { bool addAwait = typeSymbol.IsConstructedFromTaskOfT(semanticModel) && semanticModel.GetEnclosingSymbol(expressionStatement.SpanStart, context.CancellationToken).IsAsyncMethod(); CodeAction codeAction = CodeAction.Create( IntroduceLocalVariableRefactoring.GetTitle(expression), cancellationToken => IntroduceLocalVariableRefactoring.RefactorAsync(context.Document, expressionStatement, typeSymbol, addAwait, semanticModel, cancellationToken), GetEquivalenceKey(diagnostic, CodeFixIdentifiers.IntroduceLocalVariable)); context.RegisterCodeFix(codeAction, diagnostic); } if (Settings.IsCodeFixEnabled(CodeFixIdentifiers.IntroduceField)) { CodeAction codeAction = CodeAction.Create( $"Introduce field for '{expression}'", cancellationToken => IntroduceFieldRefactoring.RefactorAsync(context.Document, expressionStatement, typeSymbol, semanticModel, cancellationToken), GetEquivalenceKey(diagnostic, CodeFixIdentifiers.IntroduceField)); context.RegisterCodeFix(codeAction, diagnostic); } } break; } case CompilerDiagnosticIdentifiers.CannotImplicitlyConvertType: { if (Settings.IsCodeFixEnabled(CodeFixIdentifiers.ChangeMemberTypeAccordingToReturnExpression)) { SemanticModel semanticModel = await context.GetSemanticModelAsync().ConfigureAwait(false); ChangeMemberTypeRefactoring.ComputeCodeFix(context, diagnostic, expression, semanticModel); break; } if (Settings.IsCodeFixEnabled(CodeFixIdentifiers.ReplaceStringLiteralWithCharacterLiteral) && expression?.IsKind(SyntaxKind.StringLiteralExpression) == true) { var literalExpression = (LiteralExpressionSyntax)expression; if (literalExpression.Token.ValueText.Length == 1) { SemanticModel semanticModel = await context.GetSemanticModelAsync().ConfigureAwait(false); if (semanticModel.GetTypeInfo(expression, context.CancellationToken).ConvertedType?.IsChar() == true) { CodeAction codeAction = CodeAction.Create( "Replace string literal with character literal", cancellationToken => ReplaceStringLiteralWithCharacterLiteralRefactoring.RefactorAsync(context.Document, literalExpression, cancellationToken), GetEquivalenceKey(diagnostic, CodeFixIdentifiers.ReplaceStringLiteralWithCharacterLiteral)); context.RegisterCodeFix(codeAction, diagnostic); } } } if (Settings.IsCodeFixEnabled(CodeFixIdentifiers.UseYieldReturnInsteadOfReturn) && expression.IsParentKind(SyntaxKind.ReturnStatement)) { var returnStatement = (ReturnStatementSyntax)expression.Parent; SemanticModel semanticModel = await context.GetSemanticModelAsync().ConfigureAwait(false); ISymbol containingSymbol = semanticModel.GetEnclosingSymbol(returnStatement.SpanStart, context.CancellationToken); if (containingSymbol?.IsKind(SymbolKind.Method) == true && ((IMethodSymbol)containingSymbol).ReturnType?.IsIEnumerableOrConstructedFromIEnumerableOfT() == true) { CodeAction codeAction = CodeAction.Create( "Use yield return instead of return", cancellationToken => UseYieldReturnInsteadOfReturnRefactoring.RefactorAsync(context.Document, returnStatement, SyntaxKind.YieldReturnStatement, semanticModel, cancellationToken), GetEquivalenceKey(diagnostic, CodeFixIdentifiers.UseYieldReturnInsteadOfReturn)); context.RegisterCodeFix(codeAction, diagnostic); } } break; } } } }
public sealed override async Task RegisterCodeFixesAsync(CodeFixContext context) { SyntaxNode root = await context.GetSyntaxRootAsync().ConfigureAwait(false); if (!TryFindFirstAncestorOrSelf(root, context.Span, out ClassDeclarationSyntax classDeclaration)) { return; } foreach (Diagnostic diagnostic in context.Diagnostics) { switch (diagnostic.Id) { case DiagnosticIdentifiers.MakeClassStatic: { SemanticModel semanticModel = await context.GetSemanticModelAsync().ConfigureAwait(false); ISymbol symbol = semanticModel.GetDeclaredSymbol(classDeclaration, context.CancellationToken); ImmutableArray <SyntaxReference> syntaxReferences = symbol.DeclaringSyntaxReferences; if (!syntaxReferences.Any()) { break; } ModifiersCodeFixes.AddModifier( context, diagnostic, ImmutableArray.CreateRange(syntaxReferences, f => f.GetSyntax()), SyntaxKind.StaticKeyword, title: "Make class static"); break; } case DiagnosticIdentifiers.AddStaticModifierToAllPartialClassDeclarations: { ModifiersCodeFixes.AddModifier(context, diagnostic, classDeclaration, SyntaxKind.StaticKeyword); break; } case DiagnosticIdentifiers.ImplementExceptionConstructors: { CodeAction codeAction = CodeAction.Create( "Generate exception constructors", cancellationToken => { return(ImplementExceptionConstructorsRefactoring.RefactorAsync( context.Document, classDeclaration, cancellationToken)); }, GetEquivalenceKey(diagnostic)); context.RegisterCodeFix(codeAction, diagnostic); break; } case DiagnosticIdentifiers.UseAttributeUsageAttribute: { CodeAction codeAction = CodeAction.Create( "Use AttributeUsageAttribute", cancellationToken => { return(UseAttributeUsageAttributeRefactoring.RefactorAsync( context.Document, classDeclaration, cancellationToken)); }, GetEquivalenceKey(diagnostic)); context.RegisterCodeFix(codeAction, diagnostic); break; } } } }
public sealed override async Task RegisterCodeFixesAsync(CodeFixContext context) { if (!Settings.IsCodeFixEnabled(CodeFixIdentifiers.AddDocumentationComment) && !Settings.IsCodeFixEnabled(CodeFixIdentifiers.ChangeMethodReturnType) && !Settings.IsCodeFixEnabled(CodeFixIdentifiers.MemberTypeMustMatchOverriddenMemberType) && !Settings.IsCodeFixEnabled(CodeFixIdentifiers.AddPartialModifier) && !Settings.IsCodeFixEnabled(CodeFixIdentifiers.MakeContainingClassAbstract) && !Settings.IsCodeFixEnabled(CodeFixIdentifiers.MakeMemberNonStatic) && !Settings.IsCodeFixEnabled(CodeFixIdentifiers.RemoveParametersFromStaticConstructor)) { return; } SyntaxNode root = await context.GetSyntaxRootAsync().ConfigureAwait(false); if (!TryFindFirstAncestorOrSelf(root, context.Span, out MemberDeclarationSyntax memberDeclaration)) { return; } foreach (Diagnostic diagnostic in context.Diagnostics) { switch (diagnostic.Id) { case CompilerDiagnosticIdentifiers.MissingXmlCommentForPubliclyVisibleTypeOrMember: { if (!Settings.IsCodeFixEnabled(CodeFixIdentifiers.AddDocumentationComment)) { break; } CodeAction codeAction = CodeAction.Create( "Add documentation comment", cancellationToken => AddDocumentationCommentRefactoring.RefactorAsync(context.Document, memberDeclaration, false, cancellationToken), GetEquivalenceKey(diagnostic)); context.RegisterCodeFix(codeAction, diagnostic); CodeAction codeAction2 = CodeAction.Create( "Add documentation comment (copy from base if available)", cancellationToken => AddDocumentationCommentRefactoring.RefactorAsync(context.Document, memberDeclaration, true, cancellationToken), GetEquivalenceKey(diagnostic, "CopyFromBaseIfAvailable")); context.RegisterCodeFix(codeAction2, diagnostic); break; } case CompilerDiagnosticIdentifiers.MethodReturnTypeMustMatchOverriddenMethodReturnType: { if (!Settings.IsCodeFixEnabled(CodeFixIdentifiers.ChangeMethodReturnType)) { break; } SemanticModel semanticModel = await context.GetSemanticModelAsync().ConfigureAwait(false); var methodSymbol = (IMethodSymbol)semanticModel.GetDeclaredSymbol(memberDeclaration, context.CancellationToken); ITypeSymbol typeSymbol = methodSymbol.OverriddenMethod.ReturnType; if (typeSymbol?.IsErrorType() == false) { TypeSyntax newType = typeSymbol.ToMinimalTypeSyntax(semanticModel, memberDeclaration.SpanStart); CodeAction codeAction = CodeAction.Create( $"Change return type to '{SymbolDisplay.GetMinimalString(typeSymbol, semanticModel, memberDeclaration.SpanStart)}'", cancellationToken => MemberTypeMustMatchOverriddenMemberTypeRefactoring.RefactorAsync(context.Document, memberDeclaration, typeSymbol, semanticModel, cancellationToken), GetEquivalenceKey(diagnostic)); context.RegisterCodeFix(codeAction, diagnostic); } break; } case CompilerDiagnosticIdentifiers.PartialMethodsMustHaveVoidReturnType: { if (!Settings.IsCodeFixEnabled(CodeFixIdentifiers.ChangeMethodReturnType)) { break; } SemanticModel semanticModel = await context.GetSemanticModelAsync().ConfigureAwait(false); var methodDeclaration = (MethodDeclarationSyntax)memberDeclaration; MethodDeclarationSyntax otherPart = semanticModel.GetOtherPart(methodDeclaration, context.CancellationToken); if (otherPart == null) { break; } CodeAction codeAction = CodeAction.Create( "Change return type to 'void'", cancellationToken => { return(context.Document.Solution().ReplaceNodesAsync( new MethodDeclarationSyntax[] { methodDeclaration, otherPart }, (node, rewrittenNode) => node.WithReturnType(CSharpFactory.VoidType().WithTriviaFrom(node.ReturnType)), cancellationToken)); }, GetEquivalenceKey(diagnostic)); context.RegisterCodeFix(codeAction, diagnostic); break; } case CompilerDiagnosticIdentifiers.MemberTypeMustMatchOverriddenMemberType: { if (!Settings.IsCodeFixEnabled(CodeFixIdentifiers.MemberTypeMustMatchOverriddenMemberType)) { break; } SemanticModel semanticModel = await context.GetSemanticModelAsync().ConfigureAwait(false); ITypeSymbol typeSymbol = null; switch (memberDeclaration.Kind()) { case SyntaxKind.PropertyDeclaration: case SyntaxKind.IndexerDeclaration: { var propertySymbol = (IPropertySymbol)semanticModel.GetDeclaredSymbol(memberDeclaration, context.CancellationToken); typeSymbol = propertySymbol.OverriddenProperty.Type; break; } case SyntaxKind.EventDeclaration: { var eventSymbol = (IEventSymbol)semanticModel.GetDeclaredSymbol(memberDeclaration, context.CancellationToken); typeSymbol = eventSymbol.OverriddenEvent.Type; break; } case SyntaxKind.EventFieldDeclaration: { VariableDeclaratorSyntax declarator = ((EventFieldDeclarationSyntax)memberDeclaration).Declaration.Variables.First(); var eventSymbol = (IEventSymbol)semanticModel.GetDeclaredSymbol(declarator, context.CancellationToken); typeSymbol = eventSymbol.OverriddenEvent.Type; break; } } if (typeSymbol?.IsErrorType() == false) { string title = $"Change type to '{SymbolDisplay.GetMinimalString(typeSymbol, semanticModel, memberDeclaration.SpanStart)}'"; CodeAction codeAction = CodeAction.Create( title, cancellationToken => MemberTypeMustMatchOverriddenMemberTypeRefactoring.RefactorAsync(context.Document, memberDeclaration, typeSymbol, semanticModel, cancellationToken), GetEquivalenceKey(diagnostic)); context.RegisterCodeFix(codeAction, diagnostic); } break; } case CompilerDiagnosticIdentifiers.MissingPartialModifier: case CompilerDiagnosticIdentifiers.PartialMethodMustBeDeclaredWithinPartialClassOrPartialStruct: { if (!Settings.IsCodeFixEnabled(CodeFixIdentifiers.AddPartialModifier)) { break; } SyntaxNode node = null; switch (memberDeclaration.Kind()) { case SyntaxKind.MethodDeclaration: { if (memberDeclaration.IsParentKind(SyntaxKind.ClassDeclaration, SyntaxKind.StructDeclaration)) { node = memberDeclaration.Parent; } break; } case SyntaxKind.ClassDeclaration: case SyntaxKind.StructDeclaration: case SyntaxKind.InterfaceDeclaration: { node = memberDeclaration; break; } } Debug.Assert(node != null, memberDeclaration.ToString()); if (node == null) { break; } ModifiersCodeFixes.AddModifier(context, diagnostic, node, SyntaxKind.PartialKeyword); break; } case CompilerDiagnosticIdentifiers.MemberIsAbstractButItIsContainedInNonAbstractClass: { if (!Settings.IsCodeFixEnabled(CodeFixIdentifiers.MakeContainingClassAbstract)) { break; } if (!memberDeclaration.IsParentKind(SyntaxKind.ClassDeclaration)) { break; } ModifiersCodeFixes.AddModifier( context, diagnostic, memberDeclaration.Parent, SyntaxKind.AbstractKeyword, title: "Make containing class abstract"); break; } case CompilerDiagnosticIdentifiers.ObjectReferenceIsRequiredForNonStaticMember: { if (!Settings.IsCodeFixEnabled(CodeFixIdentifiers.MakeMemberNonStatic)) { break; } Debug.Assert(memberDeclaration.GetModifiers().Contains(SyntaxKind.StaticKeyword), memberDeclaration.ToString()); if (!memberDeclaration.GetModifiers().Contains(SyntaxKind.StaticKeyword)) { break; } ModifiersCodeFixes.RemoveModifier( context, diagnostic, memberDeclaration, SyntaxKind.StaticKeyword, title: $"Make containing {memberDeclaration.GetTitle()} non-static"); break; } case CompilerDiagnosticIdentifiers.StaticConstructorMustBeParameterless: { if (!Settings.IsCodeFixEnabled(CodeFixIdentifiers.RemoveParametersFromStaticConstructor)) { break; } var constructorDeclaration = (ConstructorDeclarationSyntax)memberDeclaration; CodeAction codeAction = CodeAction.Create( "Remove parameters", cancellationToken => { ParameterListSyntax parameterList = constructorDeclaration.ParameterList; ParameterListSyntax newParameterList = parameterList .WithParameters(default(SeparatedSyntaxList <ParameterSyntax>)) .WithOpenParenToken(parameterList.OpenParenToken.WithoutTrailingTrivia()) .WithCloseParenToken(parameterList.CloseParenToken.WithoutLeadingTrivia()); ConstructorDeclarationSyntax newNode = constructorDeclaration.WithParameterList(newParameterList); return(context.Document.ReplaceNodeAsync(constructorDeclaration, newNode, cancellationToken)); }, GetEquivalenceKey(diagnostic)); context.RegisterCodeFix(codeAction, diagnostic); break; } } } }
public sealed override async Task RegisterCodeFixesAsync(CodeFixContext context) { if (!Settings.IsAnyCodeFixEnabled( CodeFixIdentifiers.AddArgumentList, CodeFixIdentifiers.ReorderModifiers)) { return; } SyntaxNode root = await context.GetSyntaxRootAsync().ConfigureAwait(false); if (!TryFindToken(root, context.Span.Start, out SyntaxToken token)) { return; } SyntaxKind kind = token.Kind(); foreach (Diagnostic diagnostic in context.Diagnostics) { switch (diagnostic.Id) { case CompilerDiagnosticIdentifiers.OperatorCannotBeAppliedToOperandOfType: { if (!Settings.IsCodeFixEnabled(CodeFixIdentifiers.AddArgumentList)) { break; } if (kind != SyntaxKind.QuestionToken) { break; } if (!token.IsParentKind(SyntaxKind.ConditionalAccessExpression)) { break; } var conditionalAccess = (ConditionalAccessExpressionSyntax)token.Parent; SemanticModel semanticModel = await context.GetSemanticModelAsync().ConfigureAwait(false); ITypeSymbol typeSymbol = semanticModel.GetTypeSymbol(conditionalAccess.Expression, context.CancellationToken); if (typeSymbol == null || typeSymbol.IsErrorType() || !typeSymbol.IsValueType || typeSymbol.IsConstructedFrom(SpecialType.System_Nullable_T)) { break; } CodeAction codeAction = CodeAction.Create( "Remove '?' operator", cancellationToken => { var textChange = new TextChange(token.Span, ""); return(context.Document.WithTextChangeAsync(textChange, cancellationToken)); }, GetEquivalenceKey(diagnostic)); context.RegisterCodeFix(codeAction, diagnostic); break; } case CompilerDiagnosticIdentifiers.PartialModifierCanOnlyAppearImmediatelyBeforeClassStructInterfaceOrVoid: { if (!Settings.IsCodeFixEnabled(CodeFixIdentifiers.ReorderModifiers)) { break; } ModifiersCodeFixes.MoveModifier(context, diagnostic, token.Parent, token); break; } } } }
public sealed override async Task RegisterCodeFixesAsync(CodeFixContext context) { if (!Settings.IsCodeFixEnabled(CodeFixIdentifiers.RemoveInvalidModifier) && !Settings.IsCodeFixEnabled(CodeFixIdentifiers.ChangeAccessibility) && !Settings.IsCodeFixEnabled(CodeFixIdentifiers.AddStaticModifier) && !Settings.IsCodeFixEnabled(CodeFixIdentifiers.RemoveThisModifier) && !Settings.IsCodeFixEnabled(CodeFixIdentifiers.MakeContainingClassNonStatic) && !Settings.IsCodeFixEnabled(CodeFixIdentifiers.AddPartialModifier) && !Settings.IsCodeFixEnabled(CodeFixIdentifiers.RemoveOutModifier) && !Settings.IsCodeFixEnabled(CodeFixIdentifiers.RemoveRefModifier)) { return; } SyntaxNode root = await context.GetSyntaxRootAsync().ConfigureAwait(false); if (!TryFindToken(root, context.Span.Start, out SyntaxToken token)) { return; } SyntaxNode node = token.Parent; if (!node.Kind().SupportsModifiers()) { node = node.FirstAncestor(f => f.Kind().SupportsModifiers()); } Debug.Assert(node != null, $"{nameof(node)} is null"); if (node == null) { return; } foreach (Diagnostic diagnostic in context.Diagnostics) { switch (diagnostic.Id) { case CompilerDiagnosticIdentifiers.ModifierIsNotValidForThisItem: { if (!Settings.IsCodeFixEnabled(CodeFixIdentifiers.RemoveInvalidModifier)) { break; } SyntaxTokenList modifiers = node.GetModifiers(); if (modifiers.Contains(token)) { ModifiersCodeFixes.RemoveModifier(context, diagnostic, node, token); break; } else if (IsInterfaceMemberOrExplicitInterfaceImplementation(node)) { ModifiersCodeFixes.RemoveModifiers(context, diagnostic, node, modifiers, f => { switch (f.Kind()) { case SyntaxKind.PublicKeyword: case SyntaxKind.ProtectedKeyword: case SyntaxKind.InternalKeyword: case SyntaxKind.PrivateKeyword: case SyntaxKind.StaticKeyword: case SyntaxKind.VirtualKeyword: case SyntaxKind.OverrideKeyword: case SyntaxKind.AbstractKeyword: { return(true); } } return(false); }); } else if (node.IsKind(SyntaxKind.IndexerDeclaration)) { ModifiersCodeFixes.RemoveModifier(context, diagnostic, node, SyntaxKind.StaticKeyword); } else if (node.IsKind(SyntaxKind.PropertyDeclaration)) { ModifiersCodeFixes.RemoveModifier(context, diagnostic, node, SyntaxKind.AsyncKeyword); } break; } case CompilerDiagnosticIdentifiers.MoreThanOneProtectionModifier: { if (Settings.IsCodeFixEnabled(CodeFixIdentifiers.RemoveInvalidModifier)) { ModifiersCodeFixes.RemoveModifier(context, diagnostic, node, token); } break; } case CompilerDiagnosticIdentifiers.AccessibilityModifiersMayNotBeUsedOnAccessorsInInterface: case CompilerDiagnosticIdentifiers.AccessModifiersAreNotAllowedOnStaticConstructors: { if (Settings.IsCodeFixEnabled(CodeFixIdentifiers.RemoveInvalidModifier)) { ModifiersCodeFixes.RemoveAccessModifiers(context, diagnostic, node); } break; } case CompilerDiagnosticIdentifiers.ModifiersCannotBePlacedOnEventAccessorDeclarations: { if (Settings.IsCodeFixEnabled(CodeFixIdentifiers.RemoveInvalidModifier)) { ModifiersCodeFixes.RemoveModifiers(context, diagnostic, node); } break; } case CompilerDiagnosticIdentifiers.OnlyMethodsClassesStructsOrInterfacesMayBePartial: { if (Settings.IsCodeFixEnabled(CodeFixIdentifiers.RemoveInvalidModifier)) { ModifiersCodeFixes.RemoveModifier(context, diagnostic, node, SyntaxKind.PartialKeyword); } break; } case CompilerDiagnosticIdentifiers.ClassCannotBeBothStaticAndSealed: { if (!Settings.IsCodeFixEnabled(CodeFixIdentifiers.RemoveInvalidModifier)) { break; } SyntaxTokenList modifiers = node.GetModifiers(); ModifiersCodeFixes.RemoveModifier(context, diagnostic, node, SyntaxKind.StaticKeyword, additionalKey: nameof(SyntaxKind.StaticKeyword)); ModifiersCodeFixes.RemoveModifier(context, diagnostic, node, SyntaxKind.SealedKeyword, additionalKey: nameof(SyntaxKind.SealedKeyword)); break; } case CompilerDiagnosticIdentifiers.FieldCanNotBeBothVolatileAndReadOnly: { if (!Settings.IsCodeFixEnabled(CodeFixIdentifiers.RemoveInvalidModifier)) { break; } var fieldDeclaration = (FieldDeclarationSyntax)node; SyntaxTokenList modifiers = fieldDeclaration.Modifiers; ModifiersCodeFixes.RemoveModifier(context, diagnostic, fieldDeclaration, SyntaxKind.VolatileKeyword, additionalKey: nameof(SyntaxKind.VolatileKeyword)); ModifiersCodeFixes.RemoveModifier(context, diagnostic, fieldDeclaration, SyntaxKind.ReadOnlyKeyword, additionalKey: nameof(SyntaxKind.ReadOnlyKeyword)); break; } case CompilerDiagnosticIdentifiers.NewProtectedMemberDeclaredInSealedClass: case CompilerDiagnosticIdentifiers.StaticClassesCannotContainProtectedMembers: { if (Settings.IsCodeFixEnabled(CodeFixIdentifiers.ChangeAccessibility)) { ModifiersCodeFixes.ChangeAccessibility(context, diagnostic, node, _publicOrInternalOrPrivate); } break; } case CompilerDiagnosticIdentifiers.VirtualOrAbstractmembersCannotBePrivate: { if (Settings.IsCodeFixEnabled(CodeFixIdentifiers.ChangeAccessibility)) { ModifiersCodeFixes.ChangeAccessibility(context, diagnostic, node, _publicOrInternalOrProtected); } break; } case CompilerDiagnosticIdentifiers.AbstractPropertiesCannotHavePrivateAccessors: { if (Settings.IsCodeFixEnabled(CodeFixIdentifiers.RemoveInvalidModifier)) { ModifiersCodeFixes.RemoveAccessModifiers(context, diagnostic, node, additionalKey: CodeFixIdentifiers.RemoveInvalidModifier); } if (Settings.IsCodeFixEnabled(CodeFixIdentifiers.ChangeAccessibility)) { ModifiersCodeFixes.ChangeAccessibility(context, diagnostic, node, _publicOrInternalOrProtected); } break; } case CompilerDiagnosticIdentifiers.StaticMemberCannotBeMarkedOverrideVirtualOrAbstract: { if (!Settings.IsCodeFixEnabled(CodeFixIdentifiers.RemoveInvalidModifier)) { break; } SyntaxTokenList modifiers = node.GetModifiers(); if (!node.IsParentKind(SyntaxKind.ClassDeclaration) || !((ClassDeclarationSyntax)node.Parent).Modifiers.Contains(SyntaxKind.StaticKeyword)) { ModifiersCodeFixes.RemoveModifier(context, diagnostic, node, SyntaxKind.StaticKeyword, additionalKey: nameof(SyntaxKind.StaticKeyword)); } ModifiersCodeFixes.RemoveModifier(context, diagnostic, node, SyntaxKind.OverrideKeyword, additionalKey: nameof(SyntaxKind.OverrideKeyword)); ModifiersCodeFixes.RemoveModifier(context, diagnostic, node, SyntaxKind.VirtualKeyword, additionalKey: nameof(SyntaxKind.VirtualKeyword)); ModifiersCodeFixes.RemoveModifier(context, diagnostic, node, SyntaxKind.AbstractKeyword, additionalKey: nameof(SyntaxKind.AbstractKeyword)); break; } case CompilerDiagnosticIdentifiers.AsyncModifierCanOnlyBeUsedInMethodsThatHaveBody: { if (Settings.IsCodeFixEnabled(CodeFixIdentifiers.RemoveInvalidModifier)) { ModifiersCodeFixes.RemoveModifier(context, diagnostic, node, SyntaxKind.AsyncKeyword); } break; } case CompilerDiagnosticIdentifiers.PartialMethodCannotHaveAccessModifiersOrVirtualAbstractOverrideNewSealedOrExternModifiers: { if (!Settings.IsCodeFixEnabled(CodeFixIdentifiers.RemoveInvalidModifier)) { break; } ModifiersCodeFixes.RemoveModifiers(context, diagnostic, node, f => { switch (f.Kind()) { case SyntaxKind.PublicKeyword: case SyntaxKind.ProtectedKeyword: case SyntaxKind.InternalKeyword: case SyntaxKind.PrivateKeyword: case SyntaxKind.VirtualKeyword: case SyntaxKind.AbstractKeyword: case SyntaxKind.OverrideKeyword: case SyntaxKind.NewKeyword: case SyntaxKind.SealedKeyword: case SyntaxKind.ExternKeyword: { return(true); } } return(false); }); break; } case CompilerDiagnosticIdentifiers.ExtensionMethodMustBeStatic: { if (Settings.IsCodeFixEnabled(CodeFixIdentifiers.AddStaticModifier)) { AddStaticModifier(context, diagnostic, node, CodeFixIdentifiers.AddStaticModifier); } if (Settings.IsCodeFixEnabled(CodeFixIdentifiers.RemoveThisModifier)) { var methodDeclaration = (MethodDeclarationSyntax)node; ParameterSyntax parameter = methodDeclaration.ParameterList.Parameters.First(); SyntaxToken modifier = parameter.Modifiers.Find(SyntaxKind.ThisKeyword); ModifiersCodeFixes.RemoveModifier(context, diagnostic, parameter, modifier, additionalKey: CodeFixIdentifiers.RemoveThisModifier); } break; } case CompilerDiagnosticIdentifiers.ExtensionMethodMustBeDefinedInNonGenericStaticClass: { if (!node.IsKind(SyntaxKind.ClassDeclaration)) { return; } var classDeclaration = (ClassDeclarationSyntax)node; if (Settings.IsCodeFixEnabled(CodeFixIdentifiers.AddStaticModifier) && !classDeclaration.IsStatic()) { AddStaticModifier(context, diagnostic, node, CodeFixIdentifiers.AddStaticModifier); } if (Settings.IsCodeFixEnabled(CodeFixIdentifiers.RemoveThisModifier)) { IEnumerable <ParameterSyntax> thisParameters = classDeclaration.Members .Where(f => f.IsKind(SyntaxKind.MethodDeclaration)) .Cast <MethodDeclarationSyntax>() .Select(f => f.ParameterList?.Parameters.FirstOrDefault()) .Where(f => f?.Modifiers.Contains(SyntaxKind.ThisKeyword) == true); ModifiersCodeFixes.RemoveModifier( context, diagnostic, thisParameters, SyntaxKind.ThisKeyword, title: "Remove 'this' modifier from extension methods", additionalKey: CodeFixIdentifiers.RemoveThisModifier); } break; } case CompilerDiagnosticIdentifiers.NoDefiningDeclarationFoundForImplementingDeclarationOfPartialMethod: { if (Settings.IsCodeFixEnabled(CodeFixIdentifiers.RemoveInvalidModifier)) { ModifiersCodeFixes.RemoveModifier(context, diagnostic, node, SyntaxKind.PartialKeyword); } break; } case CompilerDiagnosticIdentifiers.MethodHasParameterModifierThisWhichIsNotOnFirstParameter: { if (Settings.IsCodeFixEnabled(CodeFixIdentifiers.RemoveThisModifier)) { ModifiersCodeFixes.RemoveModifier(context, diagnostic, token.Parent, token); } break; } case CompilerDiagnosticIdentifiers.CannotDeclareInstanceMembersInStaticClass: case CompilerDiagnosticIdentifiers.StaticClassesCannotHaveInstanceConstructors: { if (Settings.IsCodeFixEnabled(CodeFixIdentifiers.AddStaticModifier)) { AddStaticModifier(context, diagnostic, node, CodeFixIdentifiers.AddStaticModifier); } if (Settings.IsCodeFixEnabled(CodeFixIdentifiers.MakeContainingClassNonStatic)) { var classDeclaration = (ClassDeclarationSyntax)node.Parent; ModifiersCodeFixes.RemoveModifier( context, diagnostic, classDeclaration, classDeclaration.Modifiers.Find(SyntaxKind.StaticKeyword), title: "Make containing class non-static", additionalKey: CodeFixIdentifiers.MakeContainingClassNonStatic); } break; } case CompilerDiagnosticIdentifiers.ElementsDefinedInNamespaceCannotBeExplicitlyDeclaredAsPrivateProtectedOrProtectedInternal: { if (Settings.IsCodeFixEnabled(CodeFixIdentifiers.ChangeAccessibility)) { ModifiersCodeFixes.ChangeAccessibility(context, diagnostic, node, _publicOrInternal); } break; } case CompilerDiagnosticIdentifiers.NamespaceAlreadyContainsDefinition: case CompilerDiagnosticIdentifiers.TypeAlreadyContainsDefinition: { if (!Settings.IsCodeFixEnabled(CodeFixIdentifiers.AddPartialModifier)) { break; } if (!node.IsKind( SyntaxKind.ClassDeclaration, SyntaxKind.StructDeclaration, SyntaxKind.InterfaceDeclaration, SyntaxKind.MethodDeclaration)) { return; } SemanticModel semanticModel = await context.GetSemanticModelAsync().ConfigureAwait(false); ISymbol symbol = semanticModel.GetDeclaredSymbol(node, context.CancellationToken); ImmutableArray <SyntaxReference> syntaxReferences = symbol.DeclaringSyntaxReferences; if (syntaxReferences.Length <= 1) { break; } ModifiersCodeFixes.AddModifier( context, diagnostic, ImmutableArray.CreateRange(syntaxReferences, f => f.GetSyntax(context.CancellationToken)), SyntaxKind.PartialKeyword); break; } case CompilerDiagnosticIdentifiers.NoSuitableMethodFoundToOverride: { if (Settings.IsCodeFixEnabled(CodeFixIdentifiers.RemoveInvalidModifier)) { ModifiersCodeFixes.RemoveModifier(context, diagnostic, node, SyntaxKind.OverrideKeyword); } break; } case CompilerDiagnosticIdentifiers.AsyncMethodsCannotHaveRefOrOutParameters: case CompilerDiagnosticIdentifiers.IteratorsCannotHaveRefOrOutParameters: case CompilerDiagnosticIdentifiers.ReadOnlyFieldCannotBeUsedAsRefOrOutValue: { if (Settings.IsCodeFixEnabled(CodeFixIdentifiers.RemoveRefModifier)) { ModifiersCodeFixes.RemoveModifier(context, diagnostic, node, SyntaxKind.RefKeyword, additionalKey: nameof(SyntaxKind.RefKeyword)); } if (Settings.IsCodeFixEnabled(CodeFixIdentifiers.RemoveOutModifier)) { ModifiersCodeFixes.RemoveModifier(context, diagnostic, node, SyntaxKind.OutKeyword, additionalKey: nameof(SyntaxKind.OutKeyword)); } break; } case CompilerDiagnosticIdentifiers.CannotHaveInstancePropertyOrFieldInitializersInStruct: { if (Settings.IsCodeFixEnabled(CodeFixIdentifiers.AddStaticModifier)) { AddStaticModifier(context, diagnostic, node); } break; } } } }