public static async Task ComputeRefactoringsAsync(RefactoringContext context, ForEachStatementSyntax forEachStatement)
{
if (context.IsAnyRefactoringEnabled(
RefactoringDescriptors.UseImplicitType,
RefactoringDescriptors.UseExplicitType,
RefactoringDescriptors.ChangeTypeAccordingToExpression))
{
await ChangeTypeAsync(context, forEachStatement).ConfigureAwait(false);
}
if (context.IsRefactoringEnabled(RefactoringDescriptors.RenameIdentifierAccordingToTypeName))
{
await RenameIdentifierAccordingToTypeNameAsync(context, forEachStatement).ConfigureAwait(false);
}
SemanticModel semanticModel = null;
if (context.IsAnyRefactoringEnabled(RefactoringDescriptors.ConvertForEachToFor, RefactoringDescriptors.ConvertForEachToForAndReverseLoop) &&
context.Span.IsEmptyAndContainedInSpanOrBetweenSpans(forEachStatement))
{
semanticModel = await context.GetSemanticModelAsync().ConfigureAwait(false);
ITypeSymbol typeSymbol = semanticModel.GetTypeSymbol(forEachStatement.Expression, context.CancellationToken);
if (SymbolUtility.HasAccessibleIndexer(typeSymbol, semanticModel, forEachStatement.SpanStart))
{
if (context.IsRefactoringEnabled(RefactoringDescriptors.ConvertForEachToFor))
{
context.RegisterRefactoring(
"Convert to 'for'",
ct => ConvertForEachToForRefactoring.RefactorAsync(context.Document, forEachStatement, semanticModel: semanticModel, reverseLoop: false, cancellationToken: ct),
RefactoringDescriptors.ConvertForEachToFor);
}
if (context.IsRefactoringEnabled(RefactoringDescriptors.ConvertForEachToForAndReverseLoop))
{
context.RegisterRefactoring(
"Convert to 'for' and reverse loop",
ct => ConvertForEachToForRefactoring.RefactorAsync(context.Document, forEachStatement, semanticModel: semanticModel, reverseLoop: true, cancellationToken: ct),
RefactoringDescriptors.ConvertForEachToForAndReverseLoop);
}
}
}
if (context.IsRefactoringEnabled(RefactoringDescriptors.DeconstructForeachVariable) &&
TextSpan.FromBounds(forEachStatement.Type.SpanStart, forEachStatement.Identifier.Span.End).Contains(context.Span))
{
semanticModel ??= await context.GetSemanticModelAsync().ConfigureAwait(false);
DeconstructForeachVariableRefactoring.ComputeRefactoring(context, forEachStatement, semanticModel);
}
if (context.IsRefactoringEnabled(RefactoringDescriptors.UseEnumeratorExplicitly) &&
context.Span.IsEmptyAndContainedInSpan(forEachStatement.ForEachKeyword))
{
UseEnumeratorExplicitlyRefactoring.ComputeRefactoring(context, forEachStatement);
}
}
public static async Task ComputeRefactoringsAsync(RefactoringContext context, ForEachStatementSyntax forEachStatement)
{
if (context.IsAnyRefactoringEnabled(
RefactoringIdentifiers.ChangeExplicitTypeToVar,
RefactoringIdentifiers.ChangeVarToExplicitType,
RefactoringIdentifiers.ChangeTypeAccordingToExpression))
{
await ChangeTypeAsync(context, forEachStatement).ConfigureAwait(false);
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.RenameIdentifierAccordingToTypeName))
{
await RenameIdentifierAccordingToTypeNameAsync(context, forEachStatement).ConfigureAwait(false);
}
if (context.IsAnyRefactoringEnabled(RefactoringIdentifiers.ReplaceForEachWithFor, RefactoringIdentifiers.ReplaceForEachWithForAndReverseLoop) &&
context.Span.IsEmptyAndContainedInSpanOrBetweenSpans(forEachStatement))
{
SemanticModel semanticModel = await context.GetSemanticModelAsync().ConfigureAwait(false);
ITypeSymbol typeSymbol = semanticModel.GetTypeSymbol(forEachStatement.Expression, context.CancellationToken);
if (SymbolUtility.HasAccessibleIndexer(typeSymbol, semanticModel, forEachStatement.SpanStart))
{
if (context.IsRefactoringEnabled(RefactoringIdentifiers.ReplaceForEachWithFor))
{
context.RegisterRefactoring(
"Replace foreach with for",
cancellationToken => ReplaceForEachWithForRefactoring.RefactorAsync(context.Document, forEachStatement, semanticModel: semanticModel, reverseLoop: false, cancellationToken: cancellationToken),
RefactoringIdentifiers.ReplaceForEachWithFor);
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.ReplaceForEachWithForAndReverseLoop))
{
context.RegisterRefactoring(
"Replace foreach with for and reverse loop",
cancellationToken => ReplaceForEachWithForRefactoring.RefactorAsync(context.Document, forEachStatement, semanticModel: semanticModel, reverseLoop: true, cancellationToken: cancellationToken),
RefactoringIdentifiers.ReplaceForEachWithForAndReverseLoop);
}
}
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.ReplaceForEachWithEnumerator) &&
context.Span.IsEmptyAndContainedInSpan(forEachStatement.ForEachKeyword))
{
ReplaceForEachWithEnumeratorRefactoring.ComputeRefactoring(context, forEachStatement);
}
}
public static async Task ComputeRefactoringsAsync(RefactoringContext context, IfStatementSyntax ifStatement)
{
if (context.IsAnyRefactoringEnabled(
RefactoringIdentifiers.UseCoalesceExpressionInsteadOfIf,
RefactoringIdentifiers.UseConditionalExpressionInsteadOfIf,
RefactoringIdentifiers.SimplifyIf,
RefactoringIdentifiers.SwapStatementsInIfElse,
RefactoringIdentifiers.ReplaceIfElseWithSwitch) &&
ifStatement.IsTopmostIf() &&
context.Span.IsBetweenSpans(ifStatement))
{
if (context.IsAnyRefactoringEnabled(
RefactoringIdentifiers.UseCoalesceExpressionInsteadOfIf,
RefactoringIdentifiers.UseConditionalExpressionInsteadOfIf,
RefactoringIdentifiers.SimplifyIf,
RefactoringIdentifiers.SplitIfStatement))
{
SemanticModel semanticModel = await context.GetSemanticModelAsync().ConfigureAwait(false);
var options = new IfAnalysisOptions(
useCoalesceExpression: context.IsRefactoringEnabled(RefactoringIdentifiers.UseCoalesceExpressionInsteadOfIf),
useConditionalExpression: context.IsRefactoringEnabled(RefactoringIdentifiers.UseConditionalExpressionInsteadOfIf),
useBooleanExpression: context.IsRefactoringEnabled(RefactoringIdentifiers.SimplifyIf));
foreach (IfRefactoring refactoring in IfRefactoring.Analyze(ifStatement, options, semanticModel, context.CancellationToken))
{
context.RegisterRefactoring(
refactoring.Title,
cancellationToken => refactoring.RefactorAsync(context.Document, cancellationToken));
}
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.SwapStatementsInIfElse))
{
SwapStatementInIfElseRefactoring.ComputeRefactoring(context, ifStatement);
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.ReplaceIfElseWithSwitch))
{
await ReplaceIfElseWithSwitchRefactoring.ComputeRefactoringAsync(context, ifStatement).ConfigureAwait(false);
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.SplitIfStatement))
{
SplitIfStatementRefactoring.ComputeRefactoring(context, ifStatement);
}
}
}
public static async Task ComputeRefactoringsAsync(RefactoringContext context, ConstructorDeclarationSyntax constructorDeclaration)
{
if (context.IsAnyRefactoringEnabled(RefactoringIdentifiers.MarkMemberAsStatic, RefactoringIdentifiers.MarkAllMembersAsStatic) &&
constructorDeclaration.Span.Contains(context.Span) &&
MarkMemberAsStaticRefactoring.CanRefactor(constructorDeclaration))
{
if (context.IsRefactoringEnabled(RefactoringIdentifiers.MarkMemberAsStatic))
{
context.RegisterRefactoring(
"Mark constructor as static",
cancellationToken => MarkMemberAsStaticRefactoring.RefactorAsync(context.Document, constructorDeclaration, cancellationToken));
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.MarkAllMembersAsStatic))
{
MarkAllMembersAsStaticRefactoring.RegisterRefactoring(context, (ClassDeclarationSyntax)constructorDeclaration.Parent);
}
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.UseExpressionBodiedMember) &&
constructorDeclaration.Body?.Span.Contains(context.Span) == true &&
context.SupportsCSharp6 &&
UseExpressionBodiedMemberRefactoring.CanRefactor(constructorDeclaration))
{
context.RegisterRefactoring(
"Use expression-bodied member",
cancellationToken => UseExpressionBodiedMemberRefactoring.RefactorAsync(context.Document, constructorDeclaration, cancellationToken));
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.CopyDocumentationCommentFromBaseMember) &&
constructorDeclaration.HeaderSpanIncludingInitializer().Contains(context.Span))
{
await CopyDocumentationCommentFromBaseMemberRefactoring.ComputeRefactoringAsync(context, constructorDeclaration).ConfigureAwait(false);
}
}
private static void ComputeRefactoring(RefactoringContext context, BlockSyntax block)
{
if (context.IsAnyRefactoringEnabled(
RefactoringIdentifiers.RemoveBraces,
RefactoringIdentifiers.RemoveBracesFromIfElse) &&
CanRefactor(context, block))
{
if (context.IsRefactoringEnabled(RefactoringIdentifiers.RemoveBraces))
{
context.RegisterRefactoring(
"Remove braces",
cancellationToken => RefactorAsync(context.Document, block, cancellationToken));
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.RemoveBracesFromIfElse))
{
IfStatementSyntax topmostIf = GetTopmostIf(block);
if (topmostIf?.Else != null &&
CanRefactorIfElse(block, topmostIf))
{
context.RegisterRefactoring(
"Remove braces from if-else",
cancellationToken =>
{
return(RemoveBracesFromIfElseElseRefactoring.RefactorAsync(
context.Document,
topmostIf,
cancellationToken));
});
}
}
}
}
public static async Task ComputeRefactoringsAsync(RefactoringContext context, ReturnStatementSyntax returnStatement)
{
if (context.SupportsSemanticModel)
{
if (returnStatement.Expression != null)
{
if (context.IsAnyRefactoringEnabled(
RefactoringIdentifiers.AddBooleanComparison,
RefactoringIdentifiers.ChangeMemberTypeAccordingToReturnExpression,
RefactoringIdentifiers.AddCastExpression,
RefactoringIdentifiers.CallToMethod))
{
await ReturnExpressionRefactoring.ComputeRefactoringsAsync(context, returnStatement.Expression).ConfigureAwait(false);
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.CreateConditionFromBooleanExpression))
{
await CreateConditionFromBooleanExpressionRefactoring.ComputeRefactoringAsync(context, returnStatement.Expression).ConfigureAwait(false);
}
}
else if (context.IsRefactoringEnabled(RefactoringIdentifiers.AddDefaultValueToReturnStatement))
{
await AddDefaultValueToReturnStatementRefactoring.ComputeRefactoringsAsync(context, returnStatement).ConfigureAwait(false);
}
}
}
public static async Task ComputeRefactoringsAsync(RefactoringContext context, ReturnStatementSyntax returnStatement)
{
ExpressionSyntax expression = returnStatement.Expression;
if (expression != null)
{
if (context.IsAnyRefactoringEnabled(
RefactoringIdentifiers.AddBooleanComparison,
RefactoringIdentifiers.ChangeMemberTypeAccordingToReturnExpression,
RefactoringIdentifiers.AddCastExpression,
RefactoringIdentifiers.CallToMethod))
{
await ReturnExpressionRefactoring.ComputeRefactoringsAsync(context, expression).ConfigureAwait(false);
}
if (context.Span.IsBetweenSpans(returnStatement))
{
if (context.IsRefactoringEnabled(RefactoringIdentifiers.ReplaceStatementWithIfStatement))
{
var refactoring = new ReplaceReturnStatementWithIfStatementRefactoring();
await refactoring.ComputeRefactoringAsync(context, returnStatement).ConfigureAwait(false);
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.WrapInElseClause))
{
WrapInElseClauseRefactoring.ComputeRefactoring(context, returnStatement);
}
}
}
else if (context.IsRefactoringEnabled(RefactoringIdentifiers.AddDefaultValueToReturnStatement))
{
await AddDefaultValueToReturnStatementRefactoring.ComputeRefactoringsAsync(context, returnStatement).ConfigureAwait(false);
}
}
public static async Task ComputeRefactoringsAsync(RefactoringContext context, IfStatementSyntax ifStatement)
{
if (context.IsAnyRefactoringEnabled(
RefactoringIdentifiers.SwapStatementsInIfElse,
RefactoringIdentifiers.ReplaceIfElseWithAssignment,
RefactoringIdentifiers.ReplaceIfStatementWithReturnStatement,
RefactoringIdentifiers.ReplaceIfElseWithSwitch) &&
IfElseChain.IsTopmostIf(ifStatement) &&
context.Span.IsBetweenSpans(ifStatement))
{
if (context.IsRefactoringEnabled(RefactoringIdentifiers.ReplaceIfStatementWithReturnStatement))
{
await ReplaceIfWithStatementRefactoring.ComputeRefactoringAsync(context, ifStatement).ConfigureAwait(false);
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.ReplaceIfElseWithAssignment))
{
ReplaceIfElseWithAssignmentRefactoring.ComputeRefactoring(context, ifStatement);
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.SwapStatementsInIfElse))
{
SwapStatementInIfElseRefactoring.ComputeRefactoring(context, ifStatement);
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.ReplaceIfElseWithSwitch))
{
await ReplaceIfElseWithSwitchRefactoring.ComputeRefactoringAsync(context, ifStatement).ConfigureAwait(false);
}
}
}
public static async Task ComputeRefactoringsAsync(RefactoringContext context, CaseSwitchLabelSyntax caseLabel)
{
if (context.IsAnyRefactoringEnabled(RefactoringIdentifiers.AddCastExpression, RefactoringIdentifiers.CallToMethod))
{
ExpressionSyntax value = caseLabel.Value;
if (value?.Span.Contains(context.Span) == true)
{
var switchStatement = caseLabel.Parent?.Parent as SwitchStatementSyntax;
if (switchStatement != null)
{
ExpressionSyntax expression = switchStatement.Expression;
if (expression?.IsMissing == false)
{
SemanticModel semanticModel = await context.GetSemanticModelAsync().ConfigureAwait(false);
ITypeSymbol typeSymbol = semanticModel.GetTypeSymbol(expression, context.CancellationToken);
if (typeSymbol?.IsErrorType() == false)
{
ModifyExpressionRefactoring.ComputeRefactoring(context, value, typeSymbol, semanticModel);
}
}
}
}
}
}
public static async Task ComputeRefactoringsAsync(
RefactoringContext context,
DeclarationExpressionSyntax declarationExpression)
{
if (declarationExpression.Type?.Span.Contains(context.Span) == true &&
context.IsAnyRefactoringEnabled(
RefactoringIdentifiers.ChangeExplicitTypeToVar,
RefactoringIdentifiers.ChangeVarToExplicitType))
{
SemanticModel semanticModel = await context.GetSemanticModelAsync().ConfigureAwait(false);
TypeAnalysis analysis = CSharpTypeAnalysis.AnalyzeType(declarationExpression, semanticModel, context.CancellationToken);
if (analysis.IsExplicit)
{
if (analysis.SupportsImplicit &&
context.IsRefactoringEnabled(RefactoringIdentifiers.ChangeExplicitTypeToVar))
{
context.RegisterRefactoring(CodeActionFactory.ChangeTypeToVar(context.Document, declarationExpression.Type, equivalenceKey: RefactoringIdentifiers.ChangeExplicitTypeToVar));
}
}
else if (analysis.SupportsExplicit &&
context.IsRefactoringEnabled(RefactoringIdentifiers.ChangeVarToExplicitType))
{
TypeSyntax type = declarationExpression.Type;
var localSymbol = (ILocalSymbol)semanticModel.GetDeclaredSymbol(declarationExpression.Designation, context.CancellationToken);
ITypeSymbol typeSymbol = localSymbol.Type;
context.RegisterRefactoring(CodeActionFactory.ChangeType(context.Document, type, typeSymbol, semanticModel, equivalenceKey: RefactoringIdentifiers.ChangeVarToExplicitType));
}
}
}
public static async Task ComputeRefactoringsAsync(RefactoringContext context, AttributeArgumentListSyntax argumentList)
{
if (context.IsAnyRefactoringEnabled(
RefactoringIdentifiers.AddParameterNameToArgument,
RefactoringIdentifiers.RemoveParameterNameFromArgument) &&
!context.Span.IsEmpty &&
context.SupportsSemanticModel)
{
List <AttributeArgumentSyntax> arguments = null;
foreach (AttributeArgumentSyntax argument in argumentList.Arguments)
{
if (argument.Expression != null && context.Span.Contains(argument.Expression.Span))
{
if (arguments == null)
{
arguments = new List <AttributeArgumentSyntax>();
}
arguments.Add(argument);
}
}
if (arguments?.Count > 0)
{
await AddOrRemoveParameterNameAsync(context, argumentList, arguments.ToArray()).ConfigureAwait(false);
}
}
}
public static async Task ComputeRefactoringsAsync(RefactoringContext context, ParameterSyntax parameter)
{
if (!context.IsAnyRefactoringEnabled(
RefactoringIdentifiers.AddIdentifierToParameter,
RefactoringIdentifiers.RenameParameterAccordingToTypeName))
{
return;
}
SemanticModel semanticModel = await context.GetSemanticModelAsync().ConfigureAwait(false);
IParameterSymbol parameterSymbol = semanticModel.GetDeclaredSymbol(parameter, context.CancellationToken);
if (parameterSymbol?.Type == null)
{
return;
}
if (parameter.Identifier.IsMissing)
{
if (context.IsRefactoringEnabled(RefactoringIdentifiers.AddIdentifierToParameter))
{
TextSpan span = (parameter.Type != null)
? TextSpan.FromBounds(parameter.Type.Span.End, parameter.Span.End)
: parameter.Span;
if (span.Contains(context.Span))
{
string name = NameGenerator.CreateName(parameterSymbol.Type, firstCharToLower: true);
if (!string.IsNullOrEmpty(name))
{
context.RegisterRefactoring(
$"Add identifier '{name}'",
cancellationToken => AddParameterNameToParameterAsync(context.Document, parameter, name, cancellationToken),
RefactoringIdentifiers.AddIdentifierToParameter);
}
}
}
}
else if (context.IsRefactoringEnabled(RefactoringIdentifiers.RenameParameterAccordingToTypeName) &&
parameter.Identifier.Span.Contains(context.Span))
{
string oldName = parameter.Identifier.ValueText;
string newName = NameGenerator.Default.CreateUniqueParameterName(
oldName,
parameterSymbol,
semanticModel,
cancellationToken: context.CancellationToken);
if (newName != null)
{
context.RegisterRefactoring(
$"Rename '{oldName}' to '{newName}'",
cancellationToken => Renamer.RenameSymbolAsync(context.Solution, parameterSymbol, newName, default(OptionSet), cancellationToken),
RefactoringIdentifiers.RenameParameterAccordingToTypeName);
}
}
}
public static async Task ComputeRefactoringsAsync(RefactoringContext context, ReturnStatementSyntax returnStatement)
{
ExpressionSyntax expression = returnStatement.Expression;
if (expression != null)
{
if (context.IsAnyRefactoringEnabled(
RefactoringIdentifiers.ChangeMemberTypeAccordingToReturnExpression,
RefactoringIdentifiers.AddCastExpression,
RefactoringIdentifiers.CallToMethod))
{
await ReturnExpressionRefactoring.ComputeRefactoringsAsync(context, expression).ConfigureAwait(false);
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.ReplaceStatementWithIfElse) &&
(context.Span.IsEmptyAndContainedInSpan(returnStatement.ReturnKeyword) ||
context.Span.IsBetweenSpans(returnStatement)))
{
await ReplaceStatementWithIfStatementRefactoring.ReplaceReturnWithIfElse.ComputeRefactoringAsync(context, returnStatement).ConfigureAwait(false);
}
}
else if (context.IsRefactoringEnabled(RefactoringIdentifiers.AddDefaultValueToReturnStatement))
{
await AddDefaultValueToReturnStatementRefactoring.ComputeRefactoringsAsync(context, returnStatement).ConfigureAwait(false);
}
}
public static void ComputeRefactorings(RefactoringContext context, MemberDeclarationSyntax member)
{
if (context.IsAnyRefactoringEnabled(
RefactoringIdentifiers.SplitAttributes,
RefactoringIdentifiers.MergeAttributes) &&
!member.IsKind(SyntaxKind.NamespaceDeclaration) &&
SyntaxListSelection <AttributeListSyntax> .TryCreate(member.GetAttributeLists(), context.Span, out SyntaxListSelection <AttributeListSyntax> selectedAttributeLists))
{
if (context.IsRefactoringEnabled(RefactoringIdentifiers.SplitAttributes) &&
selectedAttributeLists.Any(f => f.Attributes.Count > 1))
{
context.RegisterRefactoring(
"Split attributes",
ct => SplitAsync(context.Document, member, selectedAttributeLists.ToArray(), ct),
RefactoringIdentifiers.SplitAttributes);
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.MergeAttributes) &&
selectedAttributeLists.Count > 1)
{
context.RegisterRefactoring(
"Merge attributes",
ct => MergeAsync(context.Document, member, selectedAttributeLists.ToArray(), ct),
RefactoringIdentifiers.MergeAttributes);
}
}
}
public static async Task ComputeRefactoringsAsync(RefactoringContext context, ForEachStatementSyntax forEachStatement)
{
if (context.IsRefactoringEnabled(RefactoringIdentifiers.ChangeTypeAccordingToExpression))
{
await ChangeTypeAccordingToExpressionAsync(context, forEachStatement).ConfigureAwait(false);
}
if (context.IsAnyRefactoringEnabled(
RefactoringIdentifiers.ChangeExplicitTypeToVar,
RefactoringIdentifiers.ChangeVarToExplicitType))
{
await ChangeTypeAsync(context, forEachStatement).ConfigureAwait(false);
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.RenameIdentifierAccordingToTypeName))
{
await RenameIdentifierAccordingToTypeNameAsync(context, forEachStatement).ConfigureAwait(false);
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.ReplaceForEachWithFor) &&
context.Span.IsEmpty &&
ReplaceForEachWithForRefactoring.CanRefactor(forEachStatement, await context.GetSemanticModelAsync().ConfigureAwait(false), context.CancellationToken))
{
context.RegisterRefactoring(
"Replace foreach with for",
cancellationToken => ReplaceForEachWithForRefactoring.RefactorAsync(context.Document, forEachStatement, cancellationToken));
}
}
public static async Task ComputeRefactoringsAsync(RefactoringContext context, ArgumentSyntax argument)
{
if (context.IsAnyRefactoringEnabled(RefactoringIdentifiers.AddCastExpression, RefactoringIdentifiers.CallToMethod))
{
ExpressionSyntax expression = argument.Expression;
if (expression?.IsMissing == false)
{
SemanticModel semanticModel = await context.GetSemanticModelAsync().ConfigureAwait(false);
ITypeSymbol typeSymbol = semanticModel.GetTypeInfo(expression).ConvertedType;
if (typeSymbol?.IsErrorType() == false)
{
IEnumerable <ITypeSymbol> newTypes = DetermineParameterTypes(argument, semanticModel, context.CancellationToken)
.Where(f => !typeSymbol.Equals(f));
ModifyExpressionRefactoring.ComputeRefactoring(context, expression, newTypes, semanticModel);
}
}
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.ReplaceMethodGroupWithLambda))
{
await ReplaceMethodGroupWithLambdaRefactoring.ComputeRefactoringAsync(context, argument).ConfigureAwait(false);
}
}
public static void ComputeRefactoring(RefactoringContext context, StatementSyntax statement)
{
if (context.IsAnyRefactoringEnabled(
RefactoringIdentifiers.AddBraces,
RefactoringIdentifiers.AddBracesToIfElse) &&
CanRefactor(context, statement))
{
if (context.IsRefactoringEnabled(RefactoringIdentifiers.AddBraces))
{
RegisterRefactoring(context, statement);
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.AddBracesToIfElse))
{
IfStatementSyntax topmostIf = GetTopmostIf(statement);
if (topmostIf?.Else != null &&
GetEmbeddedStatements(topmostIf).Any(f => f != statement))
{
context.RegisterRefactoring(
"Add braces to if-else",
cancellationToken =>
{
return(AddBracesToIfElseRefactoring.RefactorAsync(
context.Document,
topmostIf,
cancellationToken));
});
}
}
}
}
public static async Task ComputeRefactoringsAsync(RefactoringContext context, SyntaxNode node)
{
if (context.IsAnyRefactoringEnabled(
RefactoringIdentifiers.WrapInRegion,
RefactoringIdentifiers.WrapInIfDirective))
{
//XPERF:
TextLineCollectionSelection selectedLines = await SelectedLinesRefactoring.GetSelectedLinesAsync(context).ConfigureAwait(false);
if (selectedLines != null)
{
if (context.IsRefactoringEnabled(RefactoringIdentifiers.WrapInRegion))
{
context.RegisterRefactoring(
"Wrap in region",
ct => WrapInRegionRefactoring.Instance.RefactorAsync(context.Document, selectedLines, ct));
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.WrapInIfDirective))
{
context.RegisterRefactoring(
"Wrap in #if",
ct => WrapInIfDirectiveRefactoring.Instance.RefactorAsync(context.Document, selectedLines, ct));
}
}
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.RemoveEmptyLines) &&
await RemoveEmptyLinesRefactoring.CanRefactorAsync(context, node).ConfigureAwait(false))
{
context.RegisterRefactoring(
"Remove empty lines",
ct => RemoveEmptyLinesRefactoring.RefactorAsync(context.Document, context.Span, ct));
}
}
public static async Task ComputeRefactoringsAsync(RefactoringContext context, VariableDeclarationSyntax variableDeclaration)
{
if (context.IsRefactoringEnabled(RefactoringIdentifiers.RenameIdentifierAccordingToTypeName))
{
await RenameVariableAccordingToTypeNameAsync(context, variableDeclaration).ConfigureAwait(false);
}
await ChangeVariableDeclarationTypeRefactoring.ComputeRefactoringsAsync(context, variableDeclaration).ConfigureAwait(false);
if (context.IsAnyRefactoringEnabled(RefactoringIdentifiers.AddCastExpression, RefactoringIdentifiers.CallToMethod))
{
await AddCastExpressionAsync(context, variableDeclaration).ConfigureAwait(false);
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.CheckExpressionForNull))
{
await CheckExpressionForNullRefactoring.ComputeRefactoringAsync(context, variableDeclaration).ConfigureAwait(false);
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.SplitVariableDeclaration) &&
SplitVariableDeclarationRefactoring.CanRefactor(variableDeclaration))
{
context.RegisterRefactoring(
SplitVariableDeclarationRefactoring.GetTitle(variableDeclaration),
cancellationToken => SplitVariableDeclarationRefactoring.RefactorAsync(context.Document, variableDeclaration, cancellationToken));
}
}
public static async Task ComputeRefactoringsAsync(RefactoringContext context, SyntaxToken token)
{
if (context.IsAnyRefactoringEnabled(
RefactoringDescriptors.JoinStringExpressions,
RefactoringDescriptors.UseStringBuilderInsteadOfConcatenation) &&
context.Span.IsEmptyAndContainedInSpan(token) &&
token.IsParentKind(SyntaxKind.AddExpression))
{
var addExpression = (BinaryExpressionSyntax)token.Parent;
while (addExpression.IsParentKind(SyntaxKind.AddExpression))
{
addExpression = (BinaryExpressionSyntax)addExpression.Parent;
}
SemanticModel semanticModel = await context.GetSemanticModelAsync().ConfigureAwait(false);
StringConcatenationExpressionInfo concatenationInfo = SyntaxInfo.StringConcatenationExpressionInfo(addExpression, semanticModel, context.CancellationToken);
if (concatenationInfo.Success)
{
if (context.IsRefactoringEnabled(RefactoringDescriptors.JoinStringExpressions))
{
JoinStringExpressionsRefactoring.ComputeRefactoring(context, concatenationInfo);
}
if (context.IsRefactoringEnabled(RefactoringDescriptors.UseStringBuilderInsteadOfConcatenation))
{
UseStringBuilderInsteadOfConcatenationRefactoring.ComputeRefactoring(context, concatenationInfo);
}
}
}
}
public static async Task ComputeRefactoringsAsync(RefactoringContext context, EventDeclarationSyntax eventDeclaration)
{
if (context.IsAnyRefactoringEnabled(RefactoringIdentifiers.MarkMemberAsStatic, RefactoringIdentifiers.MarkAllMembersAsStatic) &&
eventDeclaration.Span.Contains(context.Span) &&
MarkMemberAsStaticRefactoring.CanRefactor(eventDeclaration))
{
if (context.IsRefactoringEnabled(RefactoringIdentifiers.MarkMemberAsStatic))
{
context.RegisterRefactoring(
"Mark event as static",
cancellationToken => MarkMemberAsStaticRefactoring.RefactorAsync(context.Document, eventDeclaration, cancellationToken));
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.MarkAllMembersAsStatic))
{
MarkAllMembersAsStaticRefactoring.RegisterRefactoring(context, (ClassDeclarationSyntax)eventDeclaration.Parent);
}
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.CopyDocumentationCommentFromBaseMember) &&
eventDeclaration.HeaderSpan().Contains(context.Span))
{
await CopyDocumentationCommentFromBaseMemberRefactoring.ComputeRefactoringAsync(context, eventDeclaration).ConfigureAwait(false);
}
}
public static async Task ComputeRefactoringsAsync(RefactoringContext context, IfStatementSyntax ifStatement)
{
if (ifStatement.IsTopmostIf() &&
(context.Span.IsEmptyAndContainedInSpan(ifStatement.IfKeyword) || context.Span.IsBetweenSpans(ifStatement)))
{
if (context.IsAnyRefactoringEnabled(
RefactoringIdentifiers.UseCoalesceExpressionInsteadOfIf,
RefactoringIdentifiers.UseConditionalExpressionInsteadOfIf,
RefactoringIdentifiers.SimplifyIf))
{
SemanticModel semanticModel = await context.GetSemanticModelAsync().ConfigureAwait(false);
var options = new IfAnalysisOptions(
useCoalesceExpression: context.IsRefactoringEnabled(RefactoringIdentifiers.UseCoalesceExpressionInsteadOfIf),
useConditionalExpression: context.IsRefactoringEnabled(RefactoringIdentifiers.UseConditionalExpressionInsteadOfIf),
useBooleanExpression: context.IsRefactoringEnabled(RefactoringIdentifiers.SimplifyIf));
foreach (IfRefactoring refactoring in IfRefactoring.Analyze(ifStatement, options, semanticModel, context.CancellationToken))
{
context.RegisterRefactoring(
refactoring.Title,
cancellationToken => refactoring.RefactorAsync(context.Document, cancellationToken));
}
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.SwapStatementsInIfElse))
{
SwapStatementInIfElseRefactoring.ComputeRefactoring(context, ifStatement);
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.ReplaceIfElseWithSwitch))
{
await ReplaceIfElseWithSwitchRefactoring.ComputeRefactoringAsync(context, ifStatement).ConfigureAwait(false);
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.SplitIfStatement))
{
SplitIfStatementRefactoring.ComputeRefactoring(context, ifStatement);
}
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.ReduceIfNesting) &&
context.Span.IsEmptyAndContainedInSpanOrBetweenSpans(ifStatement.IfKeyword))
{
SemanticModel semanticModel = await context.GetSemanticModelAsync().ConfigureAwait(false);
if (ReduceIfNestingRefactoring.IsFixable(
ifStatement,
semanticModel,
semanticModel.GetTypeByMetadataName(MetadataNames.System_Threading_Tasks_Task),
context.CancellationToken,
topLevelOnly: false))
{
context.RegisterRefactoring(
"Reduce if nesting",
cancellationToken => ReduceIfNestingRefactoring.RefactorAsync(context.Document, ifStatement, context.CancellationToken));
}
}
}
public static async Task ComputeRefactoringsAsync(RefactoringContext context, InvocationExpressionSyntax invocationExpression)
{
if (context.IsAnyRefactoringEnabled(
RefactoringIdentifiers.ReplaceMethodInvocationWithElementAccess,
RefactoringIdentifiers.ReplaceAnyWithAllOrAllWithAny,
RefactoringIdentifiers.CallConfigureAwait) &&
invocationExpression.Expression != null &&
invocationExpression.ArgumentList != null &&
context.SupportsSemanticModel)
{
ExpressionSyntax expression = invocationExpression.Expression;
if (expression.IsKind(SyntaxKind.SimpleMemberAccessExpression) &&
((MemberAccessExpressionSyntax)expression).Name?.Span.Contains(context.Span) == true)
{
if (context.IsRefactoringEnabled(RefactoringIdentifiers.ReplaceMethodInvocationWithElementAccess))
{
await ReplaceMethodInvocationWithElementAccessRefactoring.ComputeRefactoringsAsync(context, invocationExpression).ConfigureAwait(false);
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.ReplaceAnyWithAllOrAllWithAny))
{
await ReplaceAnyWithAllOrAllWithAnyRefactoring.ComputeRefactoringAsync(context, invocationExpression).ConfigureAwait(false);
}
}
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.ReplaceStringFormatWithInterpolatedString) &&
context.SupportsCSharp6)
{
await ReplaceStringFormatWithInterpolatedStringRefactoring.ComputeRefactoringsAsync(context, invocationExpression).ConfigureAwait(false);
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.ReplaceHasFlagWithBitwiseOperation) &&
context.SupportsSemanticModel)
{
SemanticModel semanticModel = await context.GetSemanticModelAsync().ConfigureAwait(false);
if (ReplaceHasFlagWithBitwiseOperationRefactoring.CanRefactor(invocationExpression, semanticModel, context.CancellationToken))
{
context.RegisterRefactoring(
ReplaceHasFlagWithBitwiseOperationRefactoring.Title,
cancellationToken =>
{
return(ReplaceHasFlagWithBitwiseOperationRefactoring.RefactorAsync(
context.Document,
invocationExpression,
cancellationToken));
});
}
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.InlineMethod) &&
context.SupportsSemanticModel)
{
await InlineMethodRefactoring.ComputeRefactoringsAsync(context, invocationExpression).ConfigureAwait(false);
}
}
public static async Task ComputeRefactoringsAsync(RefactoringContext context, ParameterSyntax parameter)
{
if (!context.IsAnyRefactoringEnabled(
RefactoringIdentifiers.AddParameterNameToParameter,
RefactoringIdentifiers.RenameParameterAccordingToTypeName))
{
return;
}
SemanticModel semanticModel = await context.GetSemanticModelAsync().ConfigureAwait(false);
IParameterSymbol parameterSymbol = semanticModel.GetDeclaredSymbol(parameter, context.CancellationToken);
if (parameterSymbol?.Type == null)
{
return;
}
if (parameter.Identifier.IsMissing)
{
if (context.IsRefactoringEnabled(RefactoringIdentifiers.AddParameterNameToParameter))
{
TextSpan span = (parameter.Type != null)
? TextSpan.FromBounds(parameter.Type.Span.End, parameter.Span.End)
: parameter.Span;
if (span.Contains(context.Span))
{
string name = SyntaxUtility.CreateIdentifier(parameterSymbol.Type, firstCharToLower: true);
if (!string.IsNullOrEmpty(name))
{
context.RegisterRefactoring(
$"Add parameter name '{name}'",
cancellationToken => AddParameterNameToParameterAsync(context.Document, parameter, name, cancellationToken));
}
}
}
}
else if (context.IsRefactoringEnabled(RefactoringIdentifiers.RenameParameterAccordingToTypeName) &&
parameter.Identifier.Span.Contains(context.Span))
{
string name = parameter.Identifier.ValueText;
string newName = SyntaxUtility.CreateIdentifier(parameterSymbol.Type, firstCharToLower: true);
if (!string.IsNullOrEmpty(newName) &&
!string.Equals(name, newName, StringComparison.Ordinal))
{
ISymbol symbol = semanticModel.GetDeclaredSymbol(parameter, context.CancellationToken);
context.RegisterRefactoring(
$"Rename parameter to '{newName}'",
cancellationToken => SymbolRenamer.RenameAsync(context.Document, symbol, newName, cancellationToken));
}
}
}
public static async Task ComputeRefactoringsAsync(
RefactoringContext context,
DeclarationExpressionSyntax declarationExpression)
{
if (declarationExpression.Type?.Span.Contains(context.Span) == true &&
context.IsAnyRefactoringEnabled(
RefactoringIdentifiers.ChangeExplicitTypeToVar,
RefactoringIdentifiers.ChangeVarToExplicitType))
{
SemanticModel semanticModel = await context.GetSemanticModelAsync().ConfigureAwait(false);
switch (CSharpAnalysis.AnalyzeType(
declarationExpression,
semanticModel,
context.CancellationToken))
{
case TypeAnalysisResult.Explicit:
case TypeAnalysisResult.ExplicitButShouldBeImplicit:
{
if (context.IsRefactoringEnabled(RefactoringIdentifiers.ChangeExplicitTypeToVar))
{
context.RegisterRefactoring(
"Change type to 'var'",
cancellationToken =>
{
return(ChangeTypeRefactoring.ChangeTypeToVarAsync(
context.Document,
declarationExpression.Type,
cancellationToken));
});
}
break;
}
case TypeAnalysisResult.Implicit:
case TypeAnalysisResult.ImplicitButShouldBeExplicit:
{
if (context.IsRefactoringEnabled(RefactoringIdentifiers.ChangeVarToExplicitType))
{
TypeSyntax type = declarationExpression.Type;
var localSymbol = semanticModel.GetDeclaredSymbol(declarationExpression.Designation, context.CancellationToken) as ILocalSymbol;
ITypeSymbol typeSymbol = localSymbol.Type;
context.RegisterRefactoring(
$"Change type to '{SymbolDisplay.GetMinimalDisplayString(typeSymbol, type.Span.Start, semanticModel)}'",
cancellationToken => ChangeTypeRefactoring.ChangeTypeAsync(context.Document, type, typeSymbol, cancellationToken));
}
break;
}
}
}
}
public static async Task ComputeRefactoringsAsync(RefactoringContext context, VariableDeclarationSyntax variableDeclaration)
{
if (variableDeclaration.Type?.Span.Contains(context.Span) == true &&
context.IsAnyRefactoringEnabled(
RefactoringIdentifiers.ChangeExplicitTypeToVar,
RefactoringIdentifiers.ChangeVarToExplicitType))
{
await ChangeTypeAsync(context, variableDeclaration).ConfigureAwait(false);
}
}
public static async Task ComputeRefactoringsAsync(RefactoringContext context, ForEachStatementSyntax forEachStatement)
{
if (context.IsRefactoringEnabled(RefactoringIdentifiers.ChangeTypeAccordingToExpression))
{
await ChangeTypeAccordingToExpressionAsync(context, forEachStatement).ConfigureAwait(false);
}
if (context.IsAnyRefactoringEnabled(
RefactoringIdentifiers.ChangeExplicitTypeToVar,
RefactoringIdentifiers.ChangeVarToExplicitType))
{
await ChangeTypeAsync(context, forEachStatement).ConfigureAwait(false);
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.RenameIdentifierAccordingToTypeName))
{
await RenameIdentifierAccordingToTypeNameAsync(context, forEachStatement).ConfigureAwait(false);
}
if (context.IsAnyRefactoringEnabled(RefactoringIdentifiers.ReplaceForEachWithFor, RefactoringIdentifiers.ReplaceForEachWithForAndReverseLoop) &&
context.Span.IsEmptyAndContainedInSpanOrBetweenSpans(forEachStatement))
{
SemanticModel semanticModel = await context.GetSemanticModelAsync().ConfigureAwait(false);
if (ReplaceForEachWithForRefactoring.CanRefactor(forEachStatement, semanticModel, context.CancellationToken))
{
if (context.IsRefactoringEnabled(RefactoringIdentifiers.ReplaceForEachWithFor))
{
context.RegisterRefactoring(
"Replace foreach with for",
cancellationToken => ReplaceForEachWithForRefactoring.RefactorAsync(context.Document, forEachStatement, reverseLoop: false, semanticModel: semanticModel, cancellationToken: cancellationToken));
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.ReplaceForEachWithForAndReverseLoop))
{
context.RegisterRefactoring(
"Replace foreach with for and reverse loop",
cancellationToken => ReplaceForEachWithForRefactoring.RefactorAsync(context.Document, forEachStatement, reverseLoop: true, semanticModel: semanticModel, cancellationToken: cancellationToken));
}
}
}
}
public static async Task ComputeRefactoringsAsync(RefactoringContext context, EventFieldDeclarationSyntax eventFieldDeclaration)
{
if (context.IsAnyRefactoringEnabled(RefactoringIdentifiers.MarkMemberAsStatic, RefactoringIdentifiers.MarkAllMembersAsStatic) &&
eventFieldDeclaration.Span.Contains(context.Span) &&
MarkMemberAsStaticRefactoring.CanRefactor(eventFieldDeclaration))
{
if (context.IsRefactoringEnabled(RefactoringIdentifiers.MarkMemberAsStatic))
{
context.RegisterRefactoring(
"Mark event as static",
cancellationToken => MarkMemberAsStaticRefactoring.RefactorAsync(context.Document, eventFieldDeclaration, cancellationToken));
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.MarkAllMembersAsStatic))
{
MarkAllMembersAsStaticRefactoring.RegisterRefactoring(context, (ClassDeclarationSyntax)eventFieldDeclaration.Parent);
}
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.MarkContainingClassAsAbstract) &&
eventFieldDeclaration.Span.Contains(context.Span))
{
MarkContainingClassAsAbstractRefactoring.ComputeRefactoring(context, eventFieldDeclaration);
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.GenerateEventInvokingMethod))
{
await GenerateOnEventMethodRefactoring.ComputeRefactoringAsync(context, eventFieldDeclaration).ConfigureAwait(false);
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.ExpandEvent) &&
eventFieldDeclaration.Span.Contains(context.Span) &&
ExpandEventRefactoring.CanRefactor(eventFieldDeclaration))
{
context.RegisterRefactoring(
"Expand event",
cancellationToken =>
{
return(ExpandEventRefactoring.RefactorAsync(
context.Document,
eventFieldDeclaration,
cancellationToken));
});
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.CopyDocumentationCommentFromBaseMember) &&
eventFieldDeclaration.Span.Contains(context.Span))
{
await CopyDocumentationCommentFromBaseMemberRefactoring.ComputeRefactoringAsync(context, eventFieldDeclaration).ConfigureAwait(false);
}
}
public static async Task ComputeRefactoringsAsync(RefactoringContext context, SyntaxNode node)
{
if (context.IsAnyRefactoringEnabled(
RefactoringIdentifiers.WrapInRegion,
RefactoringIdentifiers.WrapInIfDirective))
{
SelectedTextLineCollection lines = await SelectedLinesRefactoring.GetSelectedLinesAsync(context, node).ConfigureAwait(false);
if (lines?.Any() == true)
{
if (context.IsRefactoringEnabled(RefactoringIdentifiers.WrapInRegion))
{
context.RegisterRefactoring(
"Wrap in region",
cancellationToken =>
{
var refactoring = new WrapInRegionRefactoring();
return(refactoring.RefactorAsync(context.Document, lines, cancellationToken));
});
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.WrapInIfDirective))
{
context.RegisterRefactoring(
"Wrap in #if",
cancellationToken =>
{
var refactoring = new WrapInIfDirectiveRefactoring();
return(refactoring.RefactorAsync(context.Document, lines, cancellationToken));
});
}
}
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.RemoveEmptyLines) &&
await RemoveEmptyLinesRefactoring.CanRefactorAsync(context, node).ConfigureAwait(false))
{
context.RegisterRefactoring(
"Remove empty lines",
cancellationToken =>
{
return(RemoveEmptyLinesRefactoring.RefactorAsync(
context.Document,
node,
context.Span,
cancellationToken));
});
}
}
public static async Task ComputeRefactoringsAsync(RefactoringContext context, ParameterListSyntax parameterList)
{
SeparatedSyntaxList <ParameterSyntax> parameters = parameterList.Parameters;
if (parameters.Count == 0)
{
return;
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.DuplicateParameter))
{
var refactoring = new DuplicateParameterRefactoring(parameterList);
refactoring.ComputeRefactoring(context);
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.CheckParameterForNull))
{
await CheckParameterForNullRefactoring.ComputeRefactoringAsync(context, parameterList).ConfigureAwait(false);
}
if (context.IsAnyRefactoringEnabled(
RefactoringIdentifiers.IntroduceAndInitializeField,
RefactoringIdentifiers.IntroduceAndInitializeProperty))
{
IntroduceAndInitializeRefactoring.ComputeRefactoring(context, parameterList);
}
if (context.IsRefactoringEnabled(RefactoringIdentifiers.FormatParameterList) &&
(context.Span.IsEmpty || context.Span.IsBetweenSpans(parameterList)))
{
if (parameterList.IsSingleLine())
{
if (parameters.Count > 1)
{
context.RegisterRefactoring(
"Format each parameter on a separate line",
cancellationToken => FormatParameterListRefactoring.FormatEachParameterOnSeparateLineAsync(context.Document, parameterList, cancellationToken));
}
}
else
{
string title = parameters.Count == 1
? "Format parameter on a single line"
: "Format all parameters on a single line";
context.RegisterRefactoring(
title,
cancellationToken => FormatParameterListRefactoring.FormatAllParametersOnSingleLineAsync(context.Document, parameterList, cancellationToken));
}
}
}
