public sealed override async Task RegisterCodeFixesAsync(CodeFixContext context) { SyntaxNode root = await context.Document .GetSyntaxRootAsync(context.CancellationToken) .ConfigureAwait(false); StatementSyntax statement = root .FindNode(context.Span, getInnermostNodeForTie: true)? .FirstAncestorOrSelf <StatementSyntax>(); if (statement == null) { return; } CodeAction codeAction = CodeAction.Create( "Add empty line", cancellationToken => { return(AddEmptyLineAfterLastStatementInDoStatementRefactoring.RefactorAsync( context.Document, statement, cancellationToken)); }, DiagnosticIdentifiers.AddEmptyLineAfterLastStatementInDoStatement + EquivalenceKeySuffix); context.RegisterCodeFix(codeAction, context.Diagnostics); }
public sealed override async Task RegisterCodeFixesAsync(CodeFixContext context) { SyntaxNode root = await context.GetSyntaxRootAsync().ConfigureAwait(false); StatementSyntax statement = root .FindNode(context.Span, getInnermostNodeForTie: true)? .FirstAncestorOrSelf <StatementSyntax>(); Debug.Assert(statement != null, $"{nameof(statement)} is null"); if (statement == null) { return; } foreach (Diagnostic diagnostic in context.Diagnostics) { switch (diagnostic.Id) { case DiagnosticIdentifiers.AddEmptyLineAfterLastStatementInDoStatement: { CodeAction codeAction = CodeAction.Create( "Add empty line", cancellationToken => { return(AddEmptyLineAfterLastStatementInDoStatementRefactoring.RefactorAsync( context.Document, statement, cancellationToken)); }, diagnostic.Id + EquivalenceKeySuffix); context.RegisterCodeFix(codeAction, diagnostic); break; } case DiagnosticIdentifiers.ReplaceReturnStatementWithExpressionStatement: { switch (statement.Kind()) { case SyntaxKind.ReturnStatement: { CodeAction codeAction = CodeAction.Create( "Remove 'return'", cancellationToken => ReplaceReturnStatementWithExpressionStatementRefactoring.RefactorAsync(context.Document, (ReturnStatementSyntax)statement, cancellationToken), diagnostic.Id + EquivalenceKeySuffix); context.RegisterCodeFix(codeAction, diagnostic); break; } case SyntaxKind.YieldReturnStatement: { CodeAction codeAction = CodeAction.Create( "Remove 'yield return'", cancellationToken => ReplaceReturnStatementWithExpressionStatementRefactoring.RefactorAsync(context.Document, (YieldStatementSyntax)statement, cancellationToken), diagnostic.Id + EquivalenceKeySuffix); context.RegisterCodeFix(codeAction, diagnostic); break; } default: { Debug.Assert(false, statement.Kind().ToString()); break; } } break; } case DiagnosticIdentifiers.UseCoalesceExpression: { CodeAction codeAction = CodeAction.Create( "Use coalesce expression", cancellationToken => { return(UseCoalesceExpressionRefactoring.RefactorAsync( context.Document, statement, cancellationToken)); }, diagnostic.Id + EquivalenceKeySuffix); context.RegisterCodeFix(codeAction, diagnostic); break; } case DiagnosticIdentifiers.RemoveRedundantDisposeOrCloseCall: { var expressionStatement = (ExpressionStatementSyntax)statement; var invocation = (InvocationExpressionSyntax)expressionStatement.Expression; var memberAccess = (MemberAccessExpressionSyntax)invocation.Expression; CodeAction codeAction = CodeAction.Create( $"Remove redundant '{memberAccess.Name?.Identifier.ValueText}' call", cancellationToken => RemoveRedundantDisposeOrCloseCallRefactoring.RefactorAsync(context.Document, expressionStatement, cancellationToken), diagnostic.Id + EquivalenceKeySuffix); context.RegisterCodeFix(codeAction, diagnostic); break; } case DiagnosticIdentifiers.RemoveRedundantContinueStatement: { CodeAction codeAction = CodeAction.Create( "Remove continue;", cancellationToken => RemoveRedundantContinueStatementRefactoring.RefactorAsync(context.Document, (ContinueStatementSyntax)statement, cancellationToken), diagnostic.Id + EquivalenceKeySuffix); 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 StatementSyntax statement)) { return; } foreach (Diagnostic diagnostic in context.Diagnostics) { switch (diagnostic.Id) { case DiagnosticIdentifiers.AddEmptyLineAfterLastStatementInDoStatement: { CodeAction codeAction = CodeAction.Create( "Add empty line", cancellationToken => { return(AddEmptyLineAfterLastStatementInDoStatementRefactoring.RefactorAsync( context.Document, statement, cancellationToken)); }, GetEquivalenceKey(diagnostic)); context.RegisterCodeFix(codeAction, diagnostic); break; } case DiagnosticIdentifiers.InlineLazyInitialization: { CodeAction codeAction = CodeAction.Create( "Inline lazy initialization", cancellationToken => { return(InlineLazyInitializationRefactoring.RefactorAsync( context.Document, (IfStatementSyntax)statement, cancellationToken)); }, GetEquivalenceKey(diagnostic)); context.RegisterCodeFix(codeAction, diagnostic); break; } case DiagnosticIdentifiers.RemoveRedundantDisposeOrCloseCall: { var expressionStatement = (ExpressionStatementSyntax)statement; var invocation = (InvocationExpressionSyntax)expressionStatement.Expression; var memberAccess = (MemberAccessExpressionSyntax)invocation.Expression; CodeAction codeAction = CodeAction.Create( $"Remove redundant '{memberAccess.Name?.Identifier.ValueText}' call", cancellationToken => RemoveRedundantDisposeOrCloseCallRefactoring.RefactorAsync(context.Document, expressionStatement, cancellationToken), GetEquivalenceKey(diagnostic)); context.RegisterCodeFix(codeAction, diagnostic); break; } case DiagnosticIdentifiers.RemoveRedundantStatement: { CodeAction codeAction = CodeAction.Create( $"Remove redundant {CSharpFacts.GetTitle(statement)}", cancellationToken => RemoveRedundantStatementRefactoring.RefactorAsync(context.Document, statement, cancellationToken), GetEquivalenceKey(diagnostic)); context.RegisterCodeFix(codeAction, diagnostic); break; } case DiagnosticIdentifiers.UseMethodChaining: { var expressionStatement = (ExpressionStatementSyntax)statement; UseMethodChainingAnalysis analysis; if (expressionStatement.Expression.Kind() == SyntaxKind.InvocationExpression) { analysis = UseMethodChainingAnalysis.WithoutAssignmentAnalysis; } else { analysis = UseMethodChainingAnalysis.WithAssignmentAnalysis; } CodeAction codeAction = CodeAction.Create( "Use method chaining", cancellationToken => UseMethodChainingRefactoring.RefactorAsync(context.Document, analysis, expressionStatement, cancellationToken), GetEquivalenceKey(diagnostic)); context.RegisterCodeFix(codeAction, diagnostic); break; } } } }