internal static async Task ChangeTypeAsync(
RefactoringContext context,
ForEachStatementSyntax forEachStatement)
{
TypeSyntax type = forEachStatement.Type;
if (type?.Span.Contains(context.Span) != true)
{
return;
}
SemanticModel semanticModel = await context.GetSemanticModelAsync().ConfigureAwait(false);
TypeAnalysis analysis = CSharpTypeAnalysis.AnalyzeType(forEachStatement, semanticModel);
if (analysis.IsExplicit)
{
if (analysis.SupportsImplicit &&
context.IsRefactoringEnabled(RefactoringDescriptors.UseImplicitType))
{
context.RegisterRefactoring(CodeActionFactory.ChangeTypeToVar(context.Document, type, equivalenceKey: EquivalenceKey.Create(RefactoringDescriptors.UseImplicitType)));
}
if (!forEachStatement.ContainsDiagnostics &&
context.IsRefactoringEnabled(RefactoringDescriptors.ChangeTypeAccordingToExpression))
{
ChangeTypeAccordingToExpression(context, forEachStatement, semanticModel);
}
}
else if (analysis.SupportsExplicit &&
context.IsRefactoringEnabled(RefactoringDescriptors.UseExplicitType))
{
context.RegisterRefactoring(CodeActionFactory.UseExplicitType(context.Document, type, analysis.Symbol, semanticModel, equivalenceKey: EquivalenceKey.Create(RefactoringDescriptors.UseExplicitType)));
}
}
private static void ChangeTypeAccordingToExpression(
RefactoringContext context,
ForEachStatementSyntax forEachStatement,
SemanticModel semanticModel)
{
ForEachStatementInfo info = semanticModel.GetForEachStatementInfo(forEachStatement);
ITypeSymbol elementType = info.ElementType;
if (elementType?.IsErrorType() != false)
{
return;
}
Conversion conversion = info.ElementConversion;
if (conversion.IsIdentity)
{
return;
}
if (!conversion.IsImplicit)
{
return;
}
context.RegisterRefactoring(CodeActionFactory.UseExplicitType(context.Document, forEachStatement.Type, elementType, semanticModel, equivalenceKey: EquivalenceKey.Create(RefactoringDescriptors.ChangeTypeAccordingToExpression)));
}
public override async Task RegisterCodeFixesAsync(CodeFixContext context)
{
SyntaxNode root = await context.GetSyntaxRootAsync().ConfigureAwait(false);
if (!TryFindFirstAncestorOrSelf(
root,
context.Span,
out SyntaxNode node,
predicate: f => f.IsKind(SyntaxKind.ForEachStatement, SyntaxKind.ForEachVariableStatement, SyntaxKind.DeclarationExpression)))
{
return;
}
Document document = context.Document;
Diagnostic diagnostic = context.Diagnostics[0];
SemanticModel semanticModel = await context.GetSemanticModelAsync().ConfigureAwait(false);
TypeSyntax type;
ITypeSymbol typeSymbol;
switch (node)
{
case ForEachStatementSyntax forEachStatement:
{
type = forEachStatement.Type;
typeSymbol = semanticModel.GetForEachStatementInfo((CommonForEachStatementSyntax)node).ElementType;
break;
}
case ForEachVariableStatementSyntax forEachVariableStatement:
{
var declarationExpression = (DeclarationExpressionSyntax)forEachVariableStatement.Variable;
type = declarationExpression.Type;
typeSymbol = semanticModel.GetForEachStatementInfo((CommonForEachStatementSyntax)node).ElementType;
break;
}
case DeclarationExpressionSyntax declarationExpression:
{
type = declarationExpression.Type;
typeSymbol = semanticModel.GetTypeSymbol(declarationExpression, context.CancellationToken);
break;
}
default:
{
throw new InvalidOperationException();
}
}
CodeAction codeAction = CodeActionFactory.UseExplicitType(document, type, typeSymbol, semanticModel, equivalenceKey: GetEquivalenceKey(diagnostic));
context.RegisterCodeFix(codeAction, diagnostic);
}
private void RegisterCodeFix(CodeFixContext context, TypeSyntax type, ITypeSymbol typeSymbol, SemanticModel semanticModel)
{
foreach (Diagnostic diagnostic in context.Diagnostics)
{
CodeAction codeAction = CodeActionFactory.UseExplicitType(context.Document, type, typeSymbol, semanticModel, equivalenceKey: GetEquivalenceKey(diagnostic));
context.RegisterCodeFix(codeAction, diagnostic);
}
}
private static void ChangeTypeAccordingToExpression(
RefactoringContext context,
VariableDeclarationSyntax variableDeclaration,
ITypeSymbol typeSymbol,
SemanticModel semanticModel)
{
foreach (VariableDeclaratorSyntax variableDeclarator in variableDeclaration.Variables)
{
ExpressionSyntax value = variableDeclarator.Initializer?.Value;
if (value == null)
{
return;
}
Conversion conversion = semanticModel.ClassifyConversion(value, typeSymbol);
if (conversion.IsIdentity)
{
return;
}
if (!conversion.IsImplicit)
{
return;
}
}
ITypeSymbol newTypeSymbol = semanticModel.GetTypeSymbol(variableDeclaration.Variables[0].Initializer.Value, context.CancellationToken);
if (newTypeSymbol == null)
{
return;
}
context.RegisterRefactoring(CodeActionFactory.UseExplicitType(context.Document, variableDeclaration.Type, newTypeSymbol, semanticModel, equivalenceKey: EquivalenceKey.Create(RefactoringDescriptors.ChangeTypeAccordingToExpression)));
}
public static async Task ComputeRefactoringsAsync(RefactoringContext context, VariableDeclarationSyntax variableDeclaration)
{
TypeSyntax type = variableDeclaration.Type;
if (type?.Span.Contains(context.Span) == true &&
context.IsAnyRefactoringEnabled(
RefactoringDescriptors.UseImplicitType,
RefactoringDescriptors.UseExplicitType,
RefactoringDescriptors.ChangeTypeAccordingToExpression))
{
SemanticModel semanticModel = await context.GetSemanticModelAsync().ConfigureAwait(false);
TypeAnalysis analysis = CSharpTypeAnalysis.AnalyzeType(variableDeclaration, semanticModel, context.CancellationToken);
if (analysis.IsExplicit)
{
if (analysis.SupportsImplicit &&
context.IsRefactoringEnabled(RefactoringDescriptors.UseImplicitType))
{
context.RegisterRefactoring(CodeActionFactory.ChangeTypeToVar(context.Document, type, equivalenceKey: EquivalenceKey.Create(RefactoringDescriptors.UseImplicitType)));
}
if (!variableDeclaration.ContainsDiagnostics &&
context.IsRefactoringEnabled(RefactoringDescriptors.ChangeTypeAccordingToExpression))
{
ChangeTypeAccordingToExpression(context, variableDeclaration, analysis.Symbol, semanticModel);
}
}
else if (analysis.SupportsExplicit &&
context.IsRefactoringEnabled(RefactoringDescriptors.UseExplicitType))
{
ITypeSymbol typeSymbol = analysis.Symbol;
VariableDeclaratorSyntax variableDeclarator = variableDeclaration.Variables.SingleOrDefault(shouldThrow: false);
if (variableDeclarator?.Initializer?.Value != null)
{
if (typeSymbol.OriginalDefinition.EqualsOrInheritsFromTaskOfT())
{
Func <CancellationToken, Task <Document> > createChangedDocument = DocumentRefactoringFactory.ChangeTypeAndAddAwait(
context.Document,
variableDeclaration,
variableDeclarator,
typeSymbol,
semanticModel,
context.CancellationToken);
if (createChangedDocument != null)
{
context.RegisterRefactoring(
"Use explicit type (and add 'await')",
createChangedDocument,
RefactoringDescriptors.UseExplicitType,
"AddAwait");
}
}
typeSymbol = semanticModel.GetTypeSymbol(variableDeclarator.Initializer.Value, context.CancellationToken);
if (typeSymbol != null)
{
context.RegisterRefactoring(CodeActionFactory.UseExplicitType(context.Document, type, typeSymbol, semanticModel, equivalenceKey: EquivalenceKey.Create(RefactoringDescriptors.UseExplicitType)));
}
}
}
}
}