void ConvertInterfaceImplementation(MethodDeclaration member)
{
// members without modifiers are already C# explicit interface implementations, do not convert them
if (member.Modifier == Modifiers.None)
return;
while (member.InterfaceImplementations.Count > 0) {
InterfaceImplementation impl = member.InterfaceImplementations[0];
member.InterfaceImplementations.RemoveAt(0);
if (member.Name != impl.MemberName) {
MethodDeclaration newMember = new MethodDeclaration {
Name = impl.MemberName,
TypeReference = member.TypeReference,
Parameters = member.Parameters,
Body = new BlockStatement()
};
InvocationExpression callExpression = new InvocationExpression(new IdentifierExpression(member.Name));
foreach (ParameterDeclarationExpression decl in member.Parameters) {
callExpression.Arguments.Add(new IdentifierExpression(decl.ParameterName));
}
if (member.TypeReference.Type == "System.Void") {
newMember.Body.AddChild(new ExpressionStatement(callExpression));
} else {
newMember.Body.AddChild(new ReturnStatement(callExpression));
}
newMember.InterfaceImplementations.Add(impl);
InsertAfterSibling(member, newMember);
}
}
}
protected override bool VerifyMethodCondition(TypeDeclaration typeDeclaration, MethodDeclaration methodDeclaration)
{
IList methods = AstUtil.GetChildrenWithType(typeDeclaration, typeof(MethodDeclaration));
string name = methodDeclaration.Name.Substring(3);
if (Contains(methods, methodDeclaration))
{
IList innerTypes = AstUtil.GetChildrenWithType(typeDeclaration, typeof(TypeDeclaration));
foreach (TypeDeclaration innerType in innerTypes)
{
if (innerType.Name == name)
return true;
}
IList constructors = AstUtil.GetChildrenWithType(typeDeclaration, typeof(ConstructorDeclaration));
foreach (ConstructorDeclaration constructorDeclaration in constructors)
{
if (constructorDeclaration.Name == name)
return true;
}
foreach (MethodDeclaration method in methods)
{
if (method.Name == name || char.ToUpper(method.Name[0]) + method.Name.Substring(1) == name)
return true;
}
}
else
{
IList properties = AstUtil.GetChildrenWithType(typeDeclaration, typeof(PropertyDeclaration));
return Contains(properties, name);
}
return false;
}
protected bool IsMethodInExternalTypes(TypeDeclaration typeDeclaration, MethodDeclaration methodDeclaration)
{
bool found = false;
foreach (TypeReference baseType in typeDeclaration.BaseTypes)
{
string fullName = GetFullName(baseType);
if (!found && CodeBase.Types.Contains(fullName))
{
TypeDeclaration baseTypeDeclaration = (TypeDeclaration) CodeBase.Types[fullName];
if (IsInExternalLibraries(fullName) || fullName.StartsWith("Helpers."))
{
IList methods = AstUtil.GetChildrenWithType(baseTypeDeclaration, typeof(MethodDeclaration));
if (ContainsMethod(methods, methodDeclaration))
found = true;
else
found = IsMethodInExternalTypes(baseTypeDeclaration, methodDeclaration);
}
else
found = IsMethodInExternalTypes(baseTypeDeclaration, methodDeclaration);
if (found)
break;
}
}
return found;
}
public override object VisitMethodDeclaration(MethodDeclaration declaration, object data)
{
if (!HasContainerType(declaration, ClassType.Interface) && declaration.InterfaceImplementations.Count == 0)
MakePublic(declaration);
return base.VisitMethodDeclaration(declaration, data);
}
public override object TrackedVisitTypeDeclaration(TypeDeclaration typeDeclaration, object data)
{
if (IsDerivedFrom(typeDeclaration, "Comparator"))
{
IList methods = AstUtil.GetChildrenWithType(typeDeclaration, typeof(MethodDeclaration));
MethodDeclaration equalsMethod = new MethodDeclaration("equals",
Modifiers.Public, AstUtil.GetTypeReference("bool", typeDeclaration), new List<ParameterDeclarationExpression>(), null);
equalsMethod.Parent = typeDeclaration;
TypeReference argTypeReference = AstUtil.GetTypeReference("java.lang.Object", equalsMethod);
argTypeReference.RankSpecifier = new int[] {};
equalsMethod.Parameters.Add(new ParameterDeclarationExpression(argTypeReference, "obj"));
if (Contains(methods, equalsMethod))
{
int index = IndexOf(methods, equalsMethod);
MethodDeclaration method = (MethodDeclaration) methods[index];
AstUtil.RemoveModifierFrom(method, Modifiers.Abstract);
method.TypeReference.Type = "bool";
CreateMethodImplementation(method);
}
else
{
CreateMethodImplementation(equalsMethod);
typeDeclaration.Children.Add(equalsMethod);
equalsMethod.Parent = typeDeclaration;
}
}
return base.TrackedVisitTypeDeclaration(typeDeclaration, data);
}
public override object TrackedVisitTypeDeclaration(TypeDeclaration typeDeclaration, object data)
{
if (IsAbstractClass(typeDeclaration))
{
IList currentClassMethods = AstUtil.GetChildrenWithType(typeDeclaration, typeof(MethodDeclaration));
currentClassMethods = GetMethodsInParents(typeDeclaration, currentClassMethods, true);
IList methodsInParents = new ArrayList();
methodsInParents = GetMethodsInParents(typeDeclaration, methodsInParents, false);
methodsInParents = FilterImplementedMethods(methodsInParents);
IList abstractMethods = GetDiffList(currentClassMethods, methodsInParents);
if (abstractMethods.Count > 0)
{
TypeDeclaration replacedTypeDeclaration = typeDeclaration;
foreach (MethodDeclaration method in abstractMethods)
{
MethodDeclaration newMethod;
newMethod = new MethodDeclaration(method.Name,
Modifiers.Public | Modifiers.Abstract,
method.TypeReference,
method.Parameters,
method.Attributes);
newMethod.Parent = replacedTypeDeclaration;
replacedTypeDeclaration.Children.Add(newMethod);
}
ReplaceCurrentNode(replacedTypeDeclaration);
}
}
return base.TrackedVisitTypeDeclaration(typeDeclaration, data);
}
public override object VisitMethodDeclaration(MethodDeclaration methodDeclaration, object data)
{
if (methodDeclaration.Modifier.HasFlag(Modifiers.Abstract))
UnlockWith(methodDeclaration);
return base.VisitMethodDeclaration(methodDeclaration, data);
}
public override object VisitMethodDeclaration(AST.MethodDeclaration methodDeclaration, object data)
{
DomRegion region = GetRegion(methodDeclaration.StartLocation, methodDeclaration.EndLocation);
DomRegion bodyRegion = GetRegion(methodDeclaration.EndLocation, methodDeclaration.Body != null ? methodDeclaration.Body.EndLocation : RefParser.Location.Empty);
DefaultClass c = GetCurrentClass();
DefaultMethod method = new DefaultMethod(methodDeclaration.Name, null, ConvertModifier(methodDeclaration.Modifier), region, bodyRegion, GetCurrentClass());
method.Documentation = GetDocumentation(region.BeginLine, methodDeclaration.Attributes);
ConvertTemplates(methodDeclaration.Templates, method);
method.ReturnType = CreateReturnType(methodDeclaration.TypeReference, method);
ConvertAttributes(methodDeclaration, method);
if (methodDeclaration.Parameters != null && methodDeclaration.Parameters.Count > 0)
{
foreach (AST.ParameterDeclarationExpression par in methodDeclaration.Parameters)
{
method.Parameters.Add(CreateParameter(par, method));
}
}
else
{
method.Parameters = DefaultParameter.EmptyParameterList;
}
c.Methods.Add(method);
return(null);
}
public static MethodDeclaration add_Method(this TypeDeclaration typeDeclaration, string methodName, Dictionary<string, object> invocationParameters, BlockStatement body)
{
var newMethod = new MethodDeclaration
{
Name = methodName,
//Modifier = Modifiers.None | Modifiers.Public | Modifiers.Static,
Modifier = Modifiers.None | Modifiers.Public,
Body = body
};
newMethod.setReturnType();
if (invocationParameters != null)
foreach (var invocationParameter in invocationParameters)
{
var parameterType = new TypeReference(
(invocationParameter.Value != null && invocationParameter.Key != "returnData")
? invocationParameter.Value.typeFullName()
: "System.Object", true);
var parameter = new ParameterDeclarationExpression(parameterType, invocationParameter.Key);
newMethod.Parameters.Add(parameter);
}
typeDeclaration.AddChild(newMethod);
return newMethod;
}
public override object VisitMethodDeclaration(MethodDeclaration methodDeclaration, object data)
{
if (methodDeclaration.Name.ToLower().Equals("main") && !methodDeclaration.Modifier.HasFlag(Modifiers.Constructors))
{
if (!methodDeclaration.IsExtensionMethod && !methodDeclaration.Modifier.HasFlag(Modifiers.Abstract))
{
if (methodDeclaration.Parameters.Count==1)
{
ParameterDeclarationExpression param = methodDeclaration.Parameters[0];
if(param.ParameterName.Equals("args") && param.TypeReference.ToString().Equals("System.String[]"))
{
//now check if body uses argsparam
//This is waaaaay to naive....
if(methodDeclaration.Body.ToString().Contains("args"))
{
UnlockWith(methodDeclaration);
}
}
}
}
}
return base.VisitMethodDeclaration(methodDeclaration, data);
}
public override void GenerateCode(List<AbstractNode> nodes, IList items)
{
TypeReference stringReference = new TypeReference("System.String");
MethodDeclaration method = new MethodDeclaration("ToString",
Modifiers.Public | Modifiers.Override,
stringReference,
null, null);
method.Body = new BlockStatement();
Expression target = new FieldReferenceExpression(new TypeReferenceExpression(stringReference),
"Format");
InvocationExpression methodCall = new InvocationExpression(target);
StringBuilder formatString = new StringBuilder();
formatString.Append('[');
formatString.Append(currentClass.Name);
for (int i = 0; i < items.Count; i++) {
formatString.Append(' ');
formatString.Append(codeGen.GetPropertyName(((FieldWrapper)items[i]).Field.Name));
formatString.Append("={");
formatString.Append(i);
formatString.Append('}');
}
formatString.Append(']');
methodCall.Arguments.Add(new PrimitiveExpression(formatString.ToString(), formatString.ToString()));
foreach (FieldWrapper w in items) {
methodCall.Arguments.Add(new FieldReferenceExpression(new ThisReferenceExpression(), w.Field.Name));
}
method.Body.AddChild(new ReturnStatement(methodCall));
nodes.Add(method);
}
public object VisitMethodDeclaration(MethodDeclaration methodDeclaration, object data)
{
B.Method m = new B.Method(GetLexicalInfo(methodDeclaration));
m.Name = methodDeclaration.Name;
m.Modifiers = ConvertModifier(methodDeclaration, B.TypeMemberModifiers.Private);
ConvertAttributes(methodDeclaration.Attributes, m.Attributes);
if (currentType != null) currentType.Members.Add(m);
if (methodDeclaration.HandlesClause.Count > 0) {
// TODO: Convert handles clauses to [Handles] attribute
AddError(methodDeclaration, "Handles-clause is not supported.");
}
m.ExplicitInfo = ConvertInterfaceImplementations(methodDeclaration.InterfaceImplementations, methodDeclaration, m);
if (methodDeclaration.Templates.Count > 0) {
AddError(methodDeclaration, "Declaring generic methods is not supported.");
}
ConvertParameters(methodDeclaration.Parameters, m.Parameters);
m.EndSourceLocation = GetEndLocation((INode)methodDeclaration.Body ?? methodDeclaration);
m.ReturnType = ConvertTypeReference(methodDeclaration.TypeReference);
m.Body = ConvertMethodBlock(methodDeclaration.Body);
if (m.Name == "Main" && m.IsStatic && m.Parameters.Count <= 1 &&
(methodDeclaration.TypeReference.Type == "System.Void" || methodDeclaration.TypeReference.Type == "System.Int32"))
{
entryPointMethod = m;
}
return m;
}
public override object TrackedVisitMethodDeclaration(MethodDeclaration methodDeclaration, object data)
{
TypeDeclaration typeDeclaration = (TypeDeclaration) methodDeclaration.Parent;
if (methodDeclaration.Name.Length > 3)
{
if (IsAccessor(methodDeclaration, fields)
|| IsInterfaceOrAbstract(typeDeclaration) && ImplementInheritors(typeDeclaration, methodDeclaration)
|| ImplementSiblings(typeDeclaration, methodDeclaration))
{
string name = GetPropertyName(methodDeclaration);
TypeReference typeReference = GetAccessorTypeReference(methodDeclaration);
IList properties = AstUtil.GetChildrenWithType(typeDeclaration, typeof(PropertyDeclaration));
PropertyDeclaration propertyDeclaration = GetProperty(properties, name, methodDeclaration.Modifier, typeReference);
if (methodDeclaration.Name.StartsWith("set"))
AddSetSection(propertyDeclaration, methodDeclaration, fields);
else if (methodDeclaration.Name.StartsWith("get"))
AddGetSection(propertyDeclaration, methodDeclaration, fields);
AddToReferences(typeDeclaration, methodDeclaration.Name, propertyDeclaration.Name);
if (!HasProperty(properties, name))
ReplaceCurrentNode(propertyDeclaration);
else
RemoveCurrentNode();
}
}
return base.TrackedVisitMethodDeclaration(methodDeclaration, data);
}
public override object VisitMethodDeclaration(MethodDeclaration md, object data)
{
Push();
object result = base.VisitMethodDeclaration(md, data);
Pop();
return result;
}
public override object TrackedVisitMethodDeclaration(MethodDeclaration methodDeclaration, object data)
{
TypeDeclaration typeDeclaration = (TypeDeclaration) methodDeclaration.Parent;
CheckForOverriding(typeDeclaration, methodDeclaration);
return null;
}
public IEnumerable<MethodDeclaration> FindCandidatesViaRefactoringPermutations(TargetInfo left, MethodDeclaration right)
{
right = right.DeepCopy();
/*
* Steps to change one to match the other.
* Get the lookup table for left.
* Get the lookup table for right.
* Loop through left, renaming the corresponding right var as you go (don't worry about collisions yet).
* Compare.
*
* This is essentially a normalization of one to the other.
*/
Dictionary<string, List<LocalLookupVariable>> left_table = left.GetLookupTableWithParams();
Dictionary<string, List<LocalLookupVariable>> right_table = right.GetLookupTableWithParams();
if (left_table.Keys.Count == right_table.Keys.Count)
{
IDictionary<string, string> renames = new Dictionary<string, string>();
for (int i = 0; i < left_table.Count; i++)
{
var left_var_name = left_table.Keys.ToArray()[i];
var right_var_name = right_table.Keys.ToArray()[i];
// current name => new name
renames.Add(right_var_name, left_var_name);
}
RenameLocalVariableRefactoring r = new RenameLocalVariableRefactoring(renames);
right.AcceptVisitor(r, null);
yield return right;
}
}
public void Equals()
{
string program = TestUtil.TypeMemberParse("public string Sentence(string title , string text);");
CompilationUnit cu = TestUtil.ParseProgram(program);
NamespaceDeclaration ns = (NamespaceDeclaration) cu.Children[0];
TypeDeclaration ty = (TypeDeclaration) ns.Children[0];
MethodDeclaration pgMethod = (MethodDeclaration) ty.Children[0];
ParameterDeclarationExpression p1 = new ParameterDeclarationExpression(new TypeReference("string"), "title");
p1.TypeReference.RankSpecifier = new int[] {};
ParameterDeclarationExpression p2 = new ParameterDeclarationExpression(new TypeReference("string"), "text");
p2.TypeReference.RankSpecifier = new int[] {};
List<ParameterDeclarationExpression> argList = new List<ParameterDeclarationExpression>();
argList.Add(p1);
argList.Add(p2);
MethodDeclaration exMethod = new MethodDeclaration("Sentence",
Modifiers.Public,
new TypeReference("string"),
argList, null);
Assert.IsTrue(Equals(exMethod, pgMethod));
string program2 = TestUtil.TypeMemberParse("public string Sentence(string title , string[] text);");
cu = TestUtil.ParseProgram(program2);
ns = (NamespaceDeclaration) cu.Children[0];
ty = (TypeDeclaration) ns.Children[0];
pgMethod = (MethodDeclaration) ty.Children[0];
Assert.IsFalse(Equals(exMethod, pgMethod));
}
public void HasReturnValue_HasNone()
{
var methodToTest = new MethodDeclaration();
var victim = new TestableMethodTemplate(methodToTest, null);
Assert.IsFalse(victim.HasReturnValue);
}
public override object VisitMethodDeclaration(MethodDeclaration methodDeclaration, object data)
{
if (methodDeclaration.IsExtensionMethod)
UnlockWith(methodDeclaration);
return base.VisitMethodDeclaration(methodDeclaration, data);
}
public bool Equals(MethodDeclaration firstMethod, MethodDeclaration secondMethod)
{
if (firstMethod.Name == secondMethod.Name)
{
if (firstMethod.Parameters.Count == secondMethod.Parameters.Count)
{
int index = 0;
foreach (ParameterDeclarationExpression parameter in firstMethod.Parameters)
{
TypeReference parameterTypeReference = ((ParameterDeclarationExpression) secondMethod.Parameters[index]).TypeReference;
string firstMethodParam = parameter.TypeReference.Type;
if (firstMethodParam.IndexOf('.') != -1)
firstMethodParam = firstMethodParam.Substring(firstMethodParam.LastIndexOf('.') + 1);
string secondMethodParam = parameterTypeReference.Type;
if (secondMethodParam.IndexOf('.') != -1)
secondMethodParam = secondMethodParam.Substring(secondMethodParam.LastIndexOf('.') + 1);
if ((firstMethodParam == secondMethodParam || AreEqualTypes(parameter.TypeReference, parameterTypeReference)) &&
parameter.TypeReference.RankSpecifier.Length == parameterTypeReference.RankSpecifier.Length)
index++;
else
return false;
}
return true;
}
}
return false;
}
public override object TrackedVisitMethodDeclaration(MethodDeclaration methodDeclaration, object data)
{
if (ShouldStubMember(methodDeclaration.Name))
return base.TrackedVisitMethodDeclaration(methodDeclaration, data);
else
return null;
}
public FindJumpInstructionsVisitor(MethodDeclaration method, ISelection selection)
{
this.method = method;
this.selection = selection;
this.labels = new List<LabelStatement>();
this.cases = new List<CaseLabel>();
}
public int CountAllExtractedMethods(MethodDeclaration right, int targetChildCount)
{
List<INode> children = right.Body.Children;
var windows = AstMatchHelper.OscillateWindows(children.Count);
return ProcessChildren(right, children, windows, targetChildCount);
}
public override object VisitMethodDeclaration(MethodDeclaration methodDeclaration, object data)
{
collectingUsedLabels = true;
base.VisitMethodDeclaration(methodDeclaration, data);
collectingUsedLabels = false;
base.VisitMethodDeclaration(methodDeclaration, data);
return null;
}
public IEnumerable<CloneDesc> GetAllPossibleExtractedMethods(MethodDeclaration right, int targetChildCount)
{
List<INode> children = right.Body.Children;
var windows = AstMatchHelper.OscillateWindows(children.Count);
return ProcessChildren(right, children, windows, targetChildCount);
}
public void GetTypeReference_Method()
{
var cut = AbstractMethodTemplate.CreateClassUnderTest();
var method = new MethodDeclaration
{ Name = "DoStuff", TypeReference = AbstractMethodTemplate.StringTypeReference };
var actual = Parent.RefactoryExtensions.GetTypeReference(method, cut);
Assert.AreEqual(AbstractMethodTemplate.StringTypeReference, actual);
}
/// <summary>
/// Shows that the other two parameters are not necessary to this object. Exposed for testing.
/// </summary>
/// <param name="right"></param>
/// <returns></returns>
public IEnumerable<CloneDesc> FindCandidatesViaRefactoringPermutations(MethodDeclaration right)
{
var md = FindCandidates(right, -1);
foreach (Holder h in md)
{
yield return new CloneDesc(h.md, Window.Null, new List<INode>());
}
}
public void HasReturnValue_HasOne()
{
var methodToTest = new MethodDeclaration();
var retval = new TypeReference("string", new[] { 0 });
methodToTest.TypeReference = retval;
var victim = new TestableMethodTemplate(methodToTest, null);
Assert.IsTrue(victim.HasReturnValue);
}
public void HasReturnValue_HasVoid()
{
var methodToTest = new MethodDeclaration();
var retval = new TypeReference("void");
methodToTest.TypeReference = retval;
var victim = new TestableMethodTemplate(methodToTest, null);
Assert.IsFalse(victim.HasReturnValue);
}
public bool Contains(IList methodsList, MethodDeclaration method)
{
foreach (MethodDeclaration methodDeclaration in methodsList)
{
if (Equals(methodDeclaration, method))
return true;
}
return false;
}
public override object VisitMethodDeclaration(MethodDeclaration methodDeclaration, object data)
{
if ((methodDeclaration.Body.StartLocation < new Location(startColumn + 1, startLine + 1)) &&
(methodDeclaration.Body.EndLocation > new Location(endColumn + 1, endLine + 1))) {
this.member = methodDeclaration;
}
return base.VisitMethodDeclaration(methodDeclaration, data);
}
public override object VisitMethodDeclaration(AST.MethodDeclaration methodDeclaration, object data)
{
DomRegion region = GetRegion(methodDeclaration.StartLocation, methodDeclaration.EndLocation);
DomRegion bodyRegion = GetRegion(methodDeclaration.EndLocation, methodDeclaration.Body != null ? methodDeclaration.Body.EndLocation : RefParser.Location.Empty);
DefaultClass currentClass = GetCurrentClass();
DefaultMethod method = new DefaultMethod(methodDeclaration.Name, null, ConvertModifier(methodDeclaration.Modifier), region, bodyRegion, currentClass);
method.Documentation = GetDocumentation(region.BeginLine, methodDeclaration.Attributes);
ConvertTemplates(methodDeclaration.Templates, method);
method.ReturnType = CreateReturnType(methodDeclaration.TypeReference, method, TypeVisitor.ReturnTypeOptions.None);
ConvertAttributes(methodDeclaration, method);
method.IsExtensionMethod = methodDeclaration.IsExtensionMethod ||
method.Attributes.Any(att => att.AttributeType != null && att.AttributeType.FullyQualifiedName == "System.Runtime.CompilerServices.ExtensionAttribute");
if (methodDeclaration.Parameters.Count > 0)
{
foreach (AST.ParameterDeclarationExpression par in methodDeclaration.Parameters)
{
method.Parameters.Add(CreateParameter(par, method));
}
}
else
{
method.Parameters = DefaultParameter.EmptyParameterList;
}
if (methodDeclaration.HandlesClause.Count > 0)
{
foreach (string handlesClause in methodDeclaration.HandlesClause)
{
if (handlesClause.ToLowerInvariant().StartsWith("me."))
{
method.HandlesClauses.Add(handlesClause.Substring(3));
}
else if (handlesClause.ToLowerInvariant().StartsWith("mybase."))
{
method.HandlesClauses.Add(handlesClause.Substring(7));
}
else
{
method.HandlesClauses.Add(handlesClause);
}
}
}
else
{
method.HandlesClauses = EmptyList <string> .Instance;
}
AddInterfaceImplementations(method, methodDeclaration);
currentClass.Methods.Add(method);
return(null);
}
public override object VisitMethodDeclaration(NR.MethodDeclaration methodDeclaration, object data)
{
this.VisitParametrizedNode(methodDeclaration, false);
return(base.VisitMethodDeclaration(methodDeclaration, data));
}
internal void ExecuteIntroduceMethod(UnknownMethodResolveResult rr, Ast.Expression invocationExpr, ITextEditor editor, bool isNew, object result)
{
IClass targetClass = IsEqualClass(rr.CallingClass, rr.Target.GetUnderlyingClass()) ? rr.CallingClass
: rr.Target.GetUnderlyingClass();
CodeGenerator gen = targetClass.ProjectContent.Language.CodeGenerator;
IAmbience ambience = targetClass.ProjectContent.Language.GetAmbience();
ClassFinder finder = new ClassFinder(rr.CallingMember);
ModifierEnum modifiers = ModifierEnum.None;
bool isExtension = !targetClass.IsUserCode();
if (IsEqualClass(rr.CallingClass, targetClass))
{
if (rr.CallingMember != null)
{
modifiers |= (rr.CallingMember.Modifiers & ModifierEnum.Static);
}
}
else
{
if (isExtension)
{
if (isNew)
{
targetClass = rr.CallingClass;
}
else
{
targetClass = result as IClass;
}
}
// exclude in Unit Test mode
if (WorkbenchSingleton.Workbench != null)
{
editor = (FileService.OpenFile(targetClass.CompilationUnit.FileName) as ITextEditorProvider).TextEditor;
}
if (targetClass.ClassType != ClassType.Interface)
{
modifiers |= ModifierEnum.Public;
}
if (rr.IsStaticContext)
{
modifiers |= ModifierEnum.Static;
}
}
NRefactoryResolver resolver = Extensions.CreateResolverForContext(targetClass.ProjectContent.Language, editor);
IReturnType type = resolver.GetExpectedTypeFromContext(invocationExpr);
Ast.TypeReference typeRef = CodeGenerator.ConvertType(type, finder);
if (typeRef.IsNull)
{
if (invocationExpr.Parent is Ast.ExpressionStatement)
{
typeRef = new Ast.TypeReference("void", true);
}
else
{
typeRef = new Ast.TypeReference("object", true);
}
}
Ast.MethodDeclaration method = new Ast.MethodDeclaration {
Name = rr.CallName,
Modifier = CodeGenerator.ConvertModifier(modifiers, finder),
TypeReference = typeRef,
Parameters = CreateParameters(rr, finder, invocationExpr as Ast.InvocationExpression).ToList(),
};
if (targetClass.ClassType != ClassType.Interface)
{
method.Body = CodeGenerator.CreateNotImplementedBlock();
}
RefactoringDocumentAdapter documentWrapper = new RefactoringDocumentAdapter(editor.Document);
if (isExtension)
{
method.Parameters.Insert(0, new Ast.ParameterDeclarationExpression(CodeGenerator.ConvertType(rr.Target, finder), "thisInstance"));
method.IsExtensionMethod = true;
method.Modifier |= Ast.Modifiers.Static;
}
if (isNew)
{
Ast.TypeDeclaration newType = new Ast.TypeDeclaration(isExtension ? Ast.Modifiers.Static : Ast.Modifiers.None, null);
newType.Name = result as string;
newType.AddChild(method);
gen.InsertCodeAfter(targetClass, documentWrapper, newType);
}
else
{
if (IsEqualClass(rr.CallingClass, targetClass))
{
gen.InsertCodeAfter(rr.CallingMember, documentWrapper, method);
}
else
{
gen.InsertCodeAtEnd(targetClass.BodyRegion, documentWrapper, method);
}
}
if (targetClass.ClassType == ClassType.Interface)
{
return;
}
ParseInformation info = ParserService.ParseFile(targetClass.CompilationUnit.FileName);
if (info != null)
{
IMember newMember;
if (isNew)
{
targetClass = info.CompilationUnit.Classes.FirstOrDefault(c => c.DotNetName == c.Namespace + "." + (result as string));
}
else
{
targetClass = info.CompilationUnit.Classes.Flatten(c => c.InnerClasses).FirstOrDefault(c => c.DotNetName == targetClass.DotNetName);
}
if (targetClass == null)
{
return;
}
if (IsEqualClass(rr.CallingClass, targetClass))
{
newMember = targetClass.GetInnermostMember(editor.Caret.Line, editor.Caret.Column);
newMember = targetClass.AllMembers
.OrderBy(m => m.BodyRegion.BeginLine)
.ThenBy(m2 => m2.BodyRegion.BeginColumn)
.First(m3 => m3.BodyRegion.BeginLine > newMember.BodyRegion.BeginLine);
}
else
{
newMember = targetClass.Methods.Last();
}
IDocumentLine line = editor.Document.GetLine(newMember.BodyRegion.BeginLine + 2);
int indentLength = DocumentUtilitites.GetWhitespaceAfter(editor.Document, line.Offset).Length;
editor.Select(line.Offset + indentLength, "throw new NotImplementedException();".Length);
}
}
//DC
public void mapMethod(NRefactoryAST.MethodDeclaration methodDeclaration, IMethod iMethod)
{
MethodDeclarationToIMethod.Add(methodDeclaration, iMethod);
IMethodToMethodDeclaration.Add(iMethod, methodDeclaration);
}
