private static void AnalyzeFieldDeclaration(SyntaxNodeAnalysisContext context) { if (context.Node.ContainsDiagnostics) { return; } if (context.Node.SpanContainsDirectives()) { return; } var fieldDeclaration = (FieldDeclarationSyntax)context.Node; if (UseConstantInsteadOfFieldRefactoring.CanRefactor(fieldDeclaration, context.SemanticModel, context.CancellationToken)) { context.ReportDiagnostic(DiagnosticDescriptors.UseConstantInsteadOfField, fieldDeclaration); } }
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 {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: { ModifiersCodeFixRegistrator.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"; ModifiersCodeFixRegistrator.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( ReplaceCommentWithDocumentationCommentRefactoring.Title, cancellationToken => ReplaceCommentWithDocumentationCommentRefactoring.RefactorAsync(context.Document, memberDeclaration, cancellationToken), GetEquivalenceKey(diagnostic)); context.RegisterCodeFix(codeAction, diagnostic); break; } } } }
public 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.RemoveRedundantOverridingMember: { CodeAction codeAction = CodeActionFactory.RemoveMemberDeclaration(context.Document, memberDeclaration, equivalenceKey: GetEquivalenceKey(diagnostic)); context.RegisterCodeFix(codeAction, diagnostic); break; } case DiagnosticIdentifiers.AddAccessibilityModifiersOrViceVersa: { if (diagnostic.Properties.TryGetValue(nameof(Accessibility), out string accessibilityText)) { var accessibility = (Accessibility)Enum.Parse(typeof(Accessibility), accessibilityText); CodeAction codeAction = CodeAction.Create( "Add accessibility modifiers", ct => { MemberDeclarationSyntax newNode = SyntaxAccessibility.WithExplicitAccessibility(memberDeclaration, accessibility); return(context.Document.ReplaceNodeAsync(memberDeclaration, newNode, ct)); }, GetEquivalenceKey(diagnostic)); context.RegisterCodeFix(codeAction, diagnostic); } else { CodeAction codeAction = CodeAction.Create( "Remove accessibility modifiers", ct => { MemberDeclarationSyntax newNode = SyntaxAccessibility.WithoutExplicitAccessibility(memberDeclaration); return(context.Document.ReplaceNodeAsync(memberDeclaration, newNode, ct)); }, GetEquivalenceKey(diagnostic)); context.RegisterCodeFix(codeAction, diagnostic); } break; } case DiagnosticIdentifiers.RemoveRedundantSealedModifier: { ModifiersCodeFixRegistrator.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.OrderModifiers: { CodeAction codeAction = CodeAction.Create( "Order modifiers", ct => OrderModifiersAsync(context.Document, memberDeclaration, ct), GetEquivalenceKey(diagnostic)); context.RegisterCodeFix(codeAction, diagnostic); break; } case DiagnosticIdentifiers.MakeFieldReadOnly: { var fieldDeclaration = (FieldDeclarationSyntax)memberDeclaration; SeparatedSyntaxList <VariableDeclaratorSyntax> declarators = fieldDeclaration.Declaration.Variables; string title = (declarators.Count == 1) ? $"Make '{declarators[0].Identifier.ValueText}' read-only" : "Make fields read-only"; ModifiersCodeFixRegistrator.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 => UseReadOnlyAutoPropertyAsync(context.Document, (PropertyDeclarationSyntax)memberDeclaration, cancellationToken), GetEquivalenceKey(diagnostic)); context.RegisterCodeFix(codeAction, diagnostic); break; } case DiagnosticIdentifiers.ConvertCommentToDocumentationComment: { CodeAction codeAction = CodeAction.Create( ConvertCommentToDocumentationCommentRefactoring.Title, cancellationToken => ConvertCommentToDocumentationCommentRefactoring.RefactorAsync(context.Document, memberDeclaration, context.Span, cancellationToken), GetEquivalenceKey(diagnostic)); context.RegisterCodeFix(codeAction, diagnostic); break; } case DiagnosticIdentifiers.MakeMethodExtensionMethod: { var methodDeclaration = (MethodDeclarationSyntax)memberDeclaration; CodeAction codeAction = CodeAction.Create( "Make method an extension method", cancellationToken => { ParameterSyntax parameter = methodDeclaration.ParameterList.Parameters[0]; ParameterSyntax newParameter = ModifierList.Insert(parameter, SyntaxKind.ThisKeyword); return(context.Document.ReplaceNodeAsync(parameter, newParameter, cancellationToken)); }, GetEquivalenceKey(diagnostic)); context.RegisterCodeFix(codeAction, diagnostic); break; } } } }