public void ImportOpenGenericType()
{
// class C<T, U> { void M<X>() {} }
var c = new DefaultUnresolvedTypeDefinition(string.Empty, "C");
c.TypeParameters.Add(new DefaultUnresolvedTypeParameter(EntityType.TypeDefinition, 0, "T"));
c.TypeParameters.Add(new DefaultUnresolvedTypeParameter(EntityType.TypeDefinition, 1, "U"));
var m = new DefaultUnresolvedMethod(c, "M");
m.TypeParameters.Add(new DefaultUnresolvedTypeParameter(EntityType.Method, 0, "X"));
c.Members.Add(m);
var resolvedC1 = TypeSystemHelper.CreateCompilationAndResolve(c);
var resolvedM1 = resolvedC1.Methods.Single(method => method.Name == "M");
var resolvedC2 = TypeSystemHelper.CreateCompilationAndResolve(c);
var resolvedM2 = resolvedC2.Methods.Single(method => method.Name == "M");
// the types, methods and type parameters differ in the two compilations:
Assert.AreNotEqual(resolvedC1, resolvedC2);
Assert.AreNotEqual(resolvedM1, resolvedM2);
Assert.AreNotEqual(resolvedC1.TypeParameters[1], resolvedC2.TypeParameters[1]);
Assert.AreNotEqual(resolvedM1.TypeParameters[0], resolvedM2.TypeParameters[0]);
// C<U, X>
var pt1 = new ParameterizedType(resolvedC1, new[] { resolvedC1.TypeParameters[1], resolvedM1.TypeParameters[0] });
var pt2 = (ParameterizedType)resolvedC2.Compilation.Import(pt1);
// importing resulted in C<U, X> in the new compilation:
Assert.AreEqual(resolvedC2, pt2.GetDefinition());
Assert.AreEqual(resolvedC2.TypeParameters[1], pt2.TypeArguments[0]);
Assert.AreEqual(resolvedM2.TypeParameters[0], pt2.TypeArguments[1]);
}
static IUnresolvedMethod CreateDummyConstructor()
{
var m = new DefaultUnresolvedMethod {
EntityType = EntityType.Constructor,
Name = ".ctor",
Accessibility = Accessibility.Public,
IsSynthetic = true,
ReturnType = KnownTypeReference.Void
};
m.Freeze();
return(m);
}
DefaultUnresolvedMethod MakeUnresolvedMethod(params object[] parameterTypesOrDefaultValues)
{
var m = new DefaultUnresolvedMethod();
m.Name = "Method";
foreach (var typeOrDefaultValue in parameterTypesOrDefaultValues) {
Type type = typeOrDefaultValue as Type;
if (type != null)
m.Parameters.Add(new DefaultUnresolvedParameter(type.ToTypeReference(), string.Empty));
else if (Type.GetTypeCode(typeOrDefaultValue.GetType()) > TypeCode.Object)
m.Parameters.Add(new DefaultUnresolvedParameter(typeOrDefaultValue.GetType().ToTypeReference(), string.Empty) {
DefaultValue = new SimpleConstantValue(typeOrDefaultValue.GetType().ToTypeReference(), typeOrDefaultValue)
});
else
throw new ArgumentException(typeOrDefaultValue.ToString());
}
return m;
}
void UpdateMethodRegions(DefaultUnresolvedMethod method, NavigationBarItem item, IDocument document)
{
DomRegion region = item.ToRegionStartingFromOpeningCurlyBrace(document);
method.Region = new DomRegion(
region.BeginLine,
region.BeginColumn,
region.BeginLine,
region.BeginColumn);
method.BodyRegion = region;
}
void AddMethod(TypeScriptUnresolvedTypeDefinition parent, NavigationBarItem item, IDocument document)
{
var method = new DefaultUnresolvedMethod(parent, item.text);
UpdateMethodRegions(method, item, document);
parent.Members.Add(method);
}
MemberList GetMemberList()
{
var result = LazyInit.VolatileRead(ref this.memberList);
if (result != null)
{
return(result);
}
List <IUnresolvedMember> unresolvedMembers = new List <IUnresolvedMember>();
List <ITypeResolveContext> contextPerMember = new List <ITypeResolveContext>();
List <PartialMethodInfo> partialMethodInfos = null;
bool addDefaultConstructorIfRequired = false;
foreach (IUnresolvedTypeDefinition part in parts)
{
ITypeResolveContext parentContextForPart = part.CreateResolveContext(parentContext);
ITypeResolveContext contextForPart = parentContextForPart.WithCurrentTypeDefinition(this);
foreach (var member in part.Members)
{
IUnresolvedMethod method = member as IUnresolvedMethod;
if (method != null && method.IsPartial)
{
// Merge partial method declaration and implementation
if (partialMethodInfos == null)
{
partialMethodInfos = new List <PartialMethodInfo>();
}
PartialMethodInfo newInfo = new PartialMethodInfo(method, contextForPart);
PartialMethodInfo existingInfo = null;
foreach (var info in partialMethodInfos)
{
if (newInfo.IsSameSignature(info, Compilation.NameComparer))
{
existingInfo = info;
break;
}
}
if (existingInfo != null)
{
// Add the unresolved method to the PartialMethodInfo:
existingInfo.AddPart(method, contextForPart);
}
else
{
partialMethodInfos.Add(newInfo);
}
}
else
{
unresolvedMembers.Add(member);
contextPerMember.Add(contextForPart);
}
}
addDefaultConstructorIfRequired |= part.AddDefaultConstructorIfRequired;
}
if (addDefaultConstructorIfRequired)
{
TypeKind kind = this.Kind;
if (kind == TypeKind.Class && !this.IsStatic && !unresolvedMembers.Any(m => m.SymbolKind == SymbolKind.Constructor && !m.IsStatic) ||
kind == TypeKind.Enum || kind == TypeKind.Struct)
{
contextPerMember.Add(parts[0].CreateResolveContext(parentContext).WithCurrentTypeDefinition(this));
unresolvedMembers.Add(DefaultUnresolvedMethod.CreateDefaultConstructor(parts[0]));
}
}
result = new MemberList(contextPerMember, unresolvedMembers, partialMethodInfos);
return(LazyInit.GetOrSet(ref this.memberList, result));
}
static void GenerateCU (XmlParsedDocument doc)
{
if (doc.XDocument == null || doc.XDocument.RootElement == null) {
doc.Add (new Error (ErrorType.Error, "No root node found.", 1, 1));
return;
}
XAttribute rootClass = doc.XDocument.RootElement.Attributes [new XName ("x", "Class")];
if (rootClass == null) {
doc.Add (new Error (ErrorType.Error, "Root node does not contain an x:Class attribute.", 1, 1));
return;
}
bool isApplication = doc.XDocument.RootElement.Name.Name == "Application";
string rootNamespace, rootType, rootAssembly;
XamlG.ParseXmlns (rootClass.Value, out rootType, out rootNamespace, out rootAssembly);
var cu = new DefaultParsedDocument (doc.FileName);
DomRegion rootRegion = doc.XDocument.RootElement.Region;
if (doc.XDocument.RootElement.IsClosed)
rootRegion = new DomRegion (doc.XDocument.RootElement.Region.FileName, doc.XDocument.RootElement.Region.Begin, doc.XDocument.RootElement.ClosingTag.Region.End);
var declType = new DefaultUnresolvedTypeDefinition (rootNamespace, rootType) {
Kind = TypeKind.Class,
Accessibility = Accessibility.Public,
Region = rootRegion
};
cu.TopLevelTypeDefinitions.Add (declType);
var initcomp = new DefaultUnresolvedMethod (declType, "InitializeComponent") {
ReturnType = KnownTypeReference.Void,
Accessibility = Accessibility.Public
};
declType.Members.Add (initcomp);
var _contentLoaded = new DefaultUnresolvedField (declType, "_contentLoaded") {
ReturnType = KnownTypeReference.Boolean
};
// was missing in the original code: correct ?
// declType.Fields.Add (_contentLoaded);
if (isApplication)
return;
// cu.Add (new DomUsing (DomRegion.Empty, "System"));
// cu.Add (new DomUsing (DomRegion.Empty, "System.Windows"));
// cu.Add (new DomUsing (DomRegion.Empty, "System.Windows.Controls"));
// cu.Add (new DomUsing (DomRegion.Empty, "System.Windows.Documents"));
// cu.Add (new DomUsing (DomRegion.Empty, "System.Windows.Input"));
// cu.Add (new DomUsing (DomRegion.Empty, "System.Windows.Media"));
// cu.Add (new DomUsing (DomRegion.Empty, "System.Windows.Media.Animation"));
// cu.Add (new DomUsing (DomRegion.Empty, "System.Windows.Shapes"));
// cu.Add (new DomUsing (DomRegion.Empty, "System.Windows.Controls.Primitives"));
// Dictionary<string,string> namespaceMap = new Dictionary<string, string> ();
// namespaceMap["x"] = "http://schemas.microsoft.com/winfx/2006/xaml";
XName nameAtt = new XName ("x", "Name");
foreach (XElement el in doc.XDocument.RootElement.AllDescendentElements) {
XAttribute name = el.Attributes [nameAtt];
if (name != null && name.IsComplete) {
string type = ResolveType (el);
if (type == null || type.Length == 0)
cu.Add (new Error (ErrorType.Error, "Could not find namespace for '" + el.Name.FullName + "'.", el.Region.Begin));
else
declType.Members.Add (new DefaultUnresolvedField (declType, name.Value) {
Accessibility = Accessibility.Internal,
Region = el.Region,
ReturnType = new DefaultUnresolvedTypeDefinition (type)
});
}
}
}
public DefaultResolvedMethod(DefaultUnresolvedMethod unresolved, ITypeResolveContext parentContext)
: this(unresolved, parentContext, unresolved.IsExtensionMethod)
{
}
//TODO: handle generics
public static IUnresolvedMethod CodeDomToMDDomMethod (CodeMemberMethod method)
{
var meth = new DefaultUnresolvedMethod (null, method.Name);
meth.ReturnType = new DefaultUnresolvedTypeDefinition (method.ReturnType.BaseType);
CodeDomModifiersToMDDom (meth, method.Attributes);
foreach (CodeParameterDeclarationExpression dec in method.Parameters) {
var paramType = new DefaultUnresolvedTypeDefinition (dec.Type.BaseType);
var par = new DefaultUnresolvedParameter (paramType, dec.Name);
if (dec.Direction == FieldDirection.Ref)
par.IsRef = true;
else if (dec.Direction == FieldDirection.Out)
par.IsOut = true;
meth.Parameters.Add (par);
}
return meth;
}
protected IMethod GenerateDefaultConstructor(ITypeDefinition ce)
{
var compilerGeneratedCtor = ce.GetConstructors(true, false).FirstOrDefault(t => t.GetDeclarationBody() == null); //TODO: where is this phantom ctor coming from??? (dan-el)
if (compilerGeneratedCtor == null)
{
var cePart = ce.Parts.First();
var me2 = new DefaultUnresolvedMethod(cePart, ".ctor");
me2.SymbolKind = SymbolKind.Constructor;
me2.IsSynthetic = true;
me2.UnresolvedFile = cePart.UnresolvedFile;
var x = new DefaultResolvedMethod(me2, Compiler.Project.Compilation.TypeResolveContext.WithCurrentTypeDefinition(ce));
compilerGeneratedCtor = x;
}
return compilerGeneratedCtor;
}
internal static Task<IUnresolvedAssembly> LoadModuleAsync(Module module, ICorDebugModule corModule)
{
string name = corModule.GetName();
if (corModule.IsDynamic() == 1 || corModule.IsInMemory() == 1) {
var defaultUnresolvedAssembly = new DefaultUnresolvedAssembly(name);
var defaultUnresolvedTypeDefinition = new DefaultUnresolvedTypeDefinition("UnknownDynamicType");
var defaultUnresolvedMethod = new DefaultUnresolvedMethod(defaultUnresolvedTypeDefinition, "UnknownMethod");
var defaultUnresolvedField = new DefaultUnresolvedField(defaultUnresolvedTypeDefinition, "UnknownField");
defaultUnresolvedTypeDefinition.Members.Add(defaultUnresolvedMethod);
defaultUnresolvedTypeDefinition.Members.Add(defaultUnresolvedField);
defaultUnresolvedAssembly.AddTypeDefinition(defaultUnresolvedTypeDefinition);
weakTable.Add(defaultUnresolvedAssembly, new ModuleMetadataInfo(module, null));
return Task.FromResult<IUnresolvedAssembly>(defaultUnresolvedAssembly);
}
//return Task.FromResult(LoadModule(module, name));
return Task.Run(() => LoadModule(module, name));
}
public static IMethod CreateDummyMethodForFieldInitialization(IMember member, ICompilation compilation) {
var unresolved = new DefaultUnresolvedMethod(member.DeclaringTypeDefinition.Parts[0], "initialization for " + member.Name) {
Parameters = { new DefaultUnresolvedParameter(member.ReturnType.ToTypeReference(), "value") },
IsStatic = member.IsStatic,
};
IMethod method = new DefaultResolvedMethod(unresolved, compilation.TypeResolveContext.WithCurrentTypeDefinition(member.DeclaringTypeDefinition));
if (member.DeclaringType is ParameterizedType)
method = new SpecializedMethod(method, new TypeParameterSubstitution(classTypeArguments: ((ParameterizedType)member.DeclaringType).TypeArguments, methodTypeArguments: null));
return method;
}
static void InitTypeDefinition(Dictionary<string, MemberAnnotation[]> typeSemanticInfo, DefaultUnresolvedTypeDefinition typeDef)
{
foreach(var method_name in typeSemanticInfo.Keys){
var method_info = typeSemanticInfo[method_name];
EntityType type = EntityType.Method;
foreach(var method_overload in method_info){
var m = new DefaultUnresolvedMethod(typeDef, method_name);
m.EntityType = type;
m.HasBody = false;
m.ReturnType = PrimitiveTypeReference.Void; //All BVE5 methods have the return type 'void'
if(method_overload.Args.Length > 0){
foreach(var arg_annot in method_overload.Args)
m.Parameters.Add(TransformParameterInfo(arg_annot));
}
typeDef.Members.Add(m);
}
}
}
public override void VisitDocument(AXmlDocument document)
{
currentDocument = document;
AXmlElement rootElement = currentDocument.Children.OfType<AXmlElement>().FirstOrDefault();
if (rootElement != null) {
string className = rootElement.GetAttributeValue(XamlConst.XamlNamespace, "Class");
string modifier = rootElement.GetAttributeValue(XamlConst.XamlNamespace, "ClassModifier");
if (className != null) {
TypeDefinition = new DefaultUnresolvedTypeDefinition(className) {
Kind = TypeKind.Class,
UnresolvedFile = file,
Accessibility = Accessibility.Public,
Region = new DomRegion(file.FileName, textDocument.GetLocation(rootElement.StartOffset), textDocument.GetLocation(rootElement.EndOffset))
};
TypeDefinition.Members.Add(
new DefaultUnresolvedMethod(TypeDefinition, "InitializeComponent") {
Accessibility = Accessibility.Public,
ReturnType = KnownTypeReference.Void
});
TypeDefinition.Members.Add(
new DefaultUnresolvedField(TypeDefinition, "_contentLoaded") {
Accessibility = Accessibility.Private,
ReturnType = KnownTypeReference.Boolean
});
var connectMember =
new DefaultUnresolvedMethod(TypeDefinition, "Connect") {
Accessibility = Accessibility.Private,
ReturnType = KnownTypeReference.Void
};
connectMember.Parameters.Add(new DefaultUnresolvedParameter(KnownTypeReference.Int32, "connectionId"));
connectMember.Parameters.Add(new DefaultUnresolvedParameter(KnownTypeReference.Object, "target"));
TypeDefinition.Members.Add(connectMember);
connectMember.ExplicitInterfaceImplementations.Add(
new DefaultMemberReference(SymbolKind.Method, new GetClassTypeReference(new FullTypeName(typeof(System.Windows.Markup.IComponentConnector).FullName)), "Connect"));
var browsableAttribute = new DefaultUnresolvedAttribute(new GetClassTypeReference(new FullTypeName(typeof(System.ComponentModel.EditorBrowsableAttribute).FullName)));
browsableAttribute.PositionalArguments.Add(
new SimpleConstantValue(
new GetClassTypeReference(new FullTypeName(typeof(System.ComponentModel.EditorBrowsableAttribute).FullName)), System.ComponentModel.EditorBrowsableState.Never
));
connectMember.Attributes.Add(browsableAttribute);
TypeDefinition.BaseTypes.Add(CreateTypeReference(rootElement.Namespace, rootElement.LocalName));
TypeDefinition.BaseTypes.Add(new GetClassTypeReference(new FullTypeName(typeof(System.Windows.Markup.IComponentConnector).FullName)));
if (modifier != null)
TypeDefinition.Accessibility = ParseAccessibility(modifier);
}
}
base.VisitDocument(document);
}
public void TestMethodSpecifiedInInitialize()
{
var method = new DefaultUnresolvedMethod(new DefaultUnresolvedTypeDefinition("TestFixture"), "Test");
var testMethod = new NUnitTestMethod(testProject, method);
NUnitConsoleApplication app = new NUnitConsoleApplication(new[] { testMethod });
app.NoLogo = false;
app.ShadowCopy = true;
app.NoXmlOutputFile = false;
string expectedCommandLine = "\"C:\\Projects\\MyTests\\MyTests.dll\" /run=\"TestFixture.Test\"";
Assert.AreEqual(expectedCommandLine, app.GetArguments());
}
bool isSynthetic = true; // true if all parts are synthetic
public DefaultResolvedTypeDefinition(ITypeResolveContext parentContext, params IUnresolvedTypeDefinition[] parts)
{
if (parentContext == null || parentContext.CurrentAssembly == null)
{
throw new ArgumentException("Parent context does not specify any assembly", "parentContext");
}
if (parts == null || parts.Length == 0)
{
throw new ArgumentException("No parts were specified", "parts");
}
this.parentContext = parentContext;
this.parts = parts;
ITypeResolveContext contextForTypeParameters = parts[0].CreateResolveContext(parentContext);
contextForTypeParameters = contextForTypeParameters.WithCurrentTypeDefinition(this);
this.TypeParameters = parts[0].TypeParameters.CreateResolvedTypeParameters(contextForTypeParameters);
List <IUnresolvedAttribute> unresolvedAttributes = new List <IUnresolvedAttribute>();
List <ITypeResolveContext> contextPerAttribute = new List <ITypeResolveContext>();
List <ITypeResolveContext> contextPerMember = new List <ITypeResolveContext>();
bool addDefaultConstructorIfRequired = false;
foreach (IUnresolvedTypeDefinition part in parts)
{
ITypeResolveContext parentContextForPart = part.CreateResolveContext(parentContext);
ITypeResolveContext contextForPart = parentContextForPart.WithCurrentTypeDefinition(this);
foreach (var attr in part.Attributes)
{
unresolvedAttributes.Add(attr);
contextPerAttribute.Add(parentContextForPart);
}
foreach (var member in part.Members)
{
unresolvedMembers.Add(member);
contextPerMember.Add(contextForPart);
}
isAbstract |= part.IsAbstract;
isSealed |= part.IsSealed;
isShadowing |= part.IsShadowing;
isSynthetic &= part.IsSynthetic; // true if all parts are synthetic
DefaultUnresolvedTypeDefinition dutd = part as DefaultUnresolvedTypeDefinition;
if (dutd != null)
{
addDefaultConstructorIfRequired |= dutd.AddDefaultConstructorIfRequired;
}
// internal is the default, so use another part's accessibility until we find a non-internal accessibility
if (accessibility == Accessibility.Internal)
{
accessibility = part.Accessibility;
}
}
if (addDefaultConstructorIfRequired)
{
TypeKind kind = this.Kind;
if (kind == TypeKind.Class && !this.IsStatic && !unresolvedMembers.Any(m => m.EntityType == EntityType.Constructor && !m.IsStatic) ||
kind == TypeKind.Enum || kind == TypeKind.Struct)
{
contextPerMember.Add(parts[0].CreateResolveContext(parentContext).WithCurrentTypeDefinition(this));
unresolvedMembers.Add(DefaultUnresolvedMethod.CreateDefaultConstructor(parts[0]));
}
}
this.Attributes = new ProjectedListWithContextPerElement <ITypeResolveContext, IUnresolvedAttribute, IAttribute>(contextPerAttribute, unresolvedAttributes, (c, a) => a.CreateResolvedAttribute(c));
this.resolvedMembers = new ProjectedListWithContextPerElement <ITypeResolveContext, IUnresolvedMember, IMember>(contextPerMember, unresolvedMembers, (c, m) => m.CreateResolved(c));
}
public DefaultResolvedMethod(DefaultUnresolvedMethod unresolved, ITypeResolveContext parentContext)
: this(unresolved, parentContext, unresolved.IsExtensionMethod)
{
}
static void CodeDomModifiersToMDDom (DefaultUnresolvedMethod method, MemberAttributes modifiers)
{
if ((modifiers & MemberAttributes.FamilyOrAssembly) != 0) {
method.Accessibility = Accessibility.ProtectedOrInternal;
}
else if ((modifiers & MemberAttributes.FamilyOrAssembly) != 0) {
method.Accessibility = Accessibility.ProtectedAndInternal;
}
else if ((modifiers & MemberAttributes.Family) != 0) {
method.Accessibility = Accessibility.Protected;
}
else if ((modifiers & MemberAttributes.Assembly) != 0) {
method.Accessibility = Accessibility.Internal;
}
else if ((modifiers & MemberAttributes.Public) != 0) {
method.Accessibility = Accessibility.Public;
}
else if ((modifiers & MemberAttributes.Private) != 0) {
method.Accessibility = Accessibility.Private;
}
if ((modifiers & MemberAttributes.Abstract) != 0) {
method.IsAbstract = true;
}
else if ((modifiers & MemberAttributes.Final) != 0) {
method.IsSealed = true;
}
else if ((modifiers & MemberAttributes.Static) != 0) {
method.IsStatic = true;
}
else if ((modifiers & MemberAttributes.Override) != 0) {
method.IsOverride = true;
}
// else if ((modifiers & MemberAttributes.Const) != 0) { // methods are never const.
// initialState = (initialState & ~ScopeMask) | Modifiers.Const;
// }
}
/// Adds a signal handler to the class
public void BindSignal (Stetic.Signal signal)
{
if (targetObject == null)
return;
var cls = GetClass ();
if (cls == null)
return;
if (FindSignalHandler (cls.Resolve (project), signal) != null)
return;
var met = new DefaultUnresolvedMethod (cls, signal.Handler) {
Accessibility = Accessibility.Protected,
ReturnType = ReflectionHelper.ParseReflectionName (signal.SignalDescriptor.HandlerReturnTypeName)
};
foreach (Stetic.ParameterDescriptor pinfo in signal.SignalDescriptor.HandlerParameters)
met.Parameters.Add (new DefaultUnresolvedParameter (ReflectionHelper.ParseReflectionName (pinfo.TypeName), pinfo.Name));
var resolvedCls = cls.Resolve (cls.UnresolvedFile.GetTypeResolveContext (TypeSystemService.GetCompilation (project), cls.Region.Begin)).GetDefinition ();
CodeGenerationService.AddNewMember (resolvedCls, cls, met);
}
IUnresolvedMethod ReadConstructor(ConstructorInfo method, IUnresolvedTypeDefinition parentType, EntityType methodType, IUnresolvedMember accessorOwner)
{
if (method == null)
return null;
var m = new DefaultUnresolvedMethod(parentType, method.Name);
m.EntityType = methodType;
m.AccessorOwner = accessorOwner;
m.HasBody = method.GetMethodBody () != null;
var genericArguments = method.GetGenericArguments ();
if (genericArguments != null) {
for (int i = 0; i < genericArguments.Length; i++) {
if (genericArguments[i].GenericParameterPosition != i)
throw new InvalidOperationException("g.Position != i");
m.TypeParameters.Add(new DefaultUnresolvedTypeParameter(
EntityType.Method, i, genericArguments[i].Name));
}
for (int i = 0; i < genericArguments.Length; i++) {
var tp = (DefaultUnresolvedTypeParameter)m.TypeParameters[i];
AddConstraints(tp, genericArguments[i]);
tp.ApplyInterningProvider(interningProvider);
}
}
m.ReturnType = KnownTypeReference.Void;
if (HasAnyAttributes(method))
AddAttributes(method, m.Attributes, m.ReturnTypeAttributes);
TranslateModifiers(method, m);
foreach (var p in method.GetParameters ()) {
m.Parameters.Add(ReadParameter(p));
}
FinishReadMember(m, method);
return m;
}
static IUnresolvedMethod CreateDummyConstructor()
{
var m = new DefaultUnresolvedMethod {
EntityType = EntityType.Constructor,
Name = ".ctor",
Accessibility = Accessibility.Public,
IsSynthetic = true,
ReturnType = KnownTypeReference.Void
};
m.Freeze();
return m;
}
IUnresolvedMethod ReadMethod(MethodInfo method, IUnresolvedTypeDefinition parentType, EntityType methodType, IUnresolvedMember accessorOwner)
{
if (method == null)
return null;
var m = new DefaultUnresolvedMethod(parentType, method.Name);
m.EntityType = methodType;
m.AccessorOwner = accessorOwner;
m.HasBody = method.GetMethodBody () != null;
var genericArguments = method.GetGenericArguments ();
if (genericArguments != null) {
for (int i = 0; i < genericArguments.Length; i++) {
if (genericArguments[i].GenericParameterPosition != i)
throw new InvalidOperationException("g.Position != i");
m.TypeParameters.Add(new DefaultUnresolvedTypeParameter(
EntityType.Method, i, genericArguments[i].Name));
}
for (int i = 0; i < genericArguments.Length; i++) {
var tp = (DefaultUnresolvedTypeParameter)m.TypeParameters[i];
AddConstraints(tp, genericArguments[i]);
tp.ApplyInterningProvider(interningProvider);
}
}
m.ReturnType = ReadTypeReference(method.ReturnType, typeAttributes: method.ReturnParameter.CustomAttributes);
if (HasAnyAttributes(method))
AddAttributes(method, m.Attributes, m.ReturnTypeAttributes);
TranslateModifiers(method, m);
foreach (var p in method.GetParameters ()) {
m.Parameters.Add(ReadParameter(p));
}
// mark as extension method if the attribute is set
if (method.IsStatic && HasExtensionAttribute(method)) {
m.IsExtensionMethod = true;
}
int lastDot = method.Name.LastIndexOf('.');
if (lastDot >= 0 /*&& method.HasOverrides*/) {
// To be consistent with the parser-initialized type system, shorten the method name:
m.Name = method.Name.Substring(lastDot + 1);
m.IsExplicitInterfaceImplementation = true;
foreach (var or in method.__GetMethodImpls ()) {
m.ExplicitInterfaceImplementations.Add(new DefaultMemberReference(
accessorOwner != null ? EntityType.Accessor : EntityType.Method,
ReadTypeReference(or.DeclaringType),
or.Name, or.GetGenericArguments ().Length, m.Parameters.Select(p => p.Type).ToList()));
}
}
FinishReadMember(m, method);
return m;
}
static IUnresolvedMethod FunctionToIMethod (ProjectInformation pi, IUnresolvedTypeDefinition type, Function function, string[] contentLines)
{
var method = new DefaultUnresolvedMethod (type, function.Name);
method.Region = new DomRegion ((int)function.Line, 1, FindFunctionEnd (contentLines, (int)function.Line-1)+2, 1);
Match match;
bool abort = false;
var parameters = new List<IUnresolvedParameter> ();
foreach (string parameter in function.Parameters) {
match = paramExpression.Match (parameter);
if (null == match) {
abort = true;
break;
}
var typeRef = new DefaultUnresolvedTypeDefinition (string.Format ("{0}{1}{2}", match.Groups["type"].Value, match.Groups["subtype"].Value, match.Groups["array"].Value));
var p = new DefaultUnresolvedParameter (typeRef, match.Groups["name"].Value);
parameters.Add (p);
}
if (!abort)
parameters.ForEach (p => method.Parameters.Add (p));
return method;
}
ICodeContext CreateContext(ITextEditor editor)
{
var compilation = SD.ParserService.GetCompilationForFile(editor.FileName);
var project = SD.ProjectService.FindProjectContainingFile(editor.FileName);
var resolveContext = new SimpleTypeResolveContext(compilation.MainAssembly);
var currentTypeDefinition = new DefaultUnresolvedTypeDefinition(project.RootNamespace, Path.GetFileNameWithoutExtension(editor.FileName));
ITypeReference baseTypeReference = new GetClassTypeReference("System.Web.Mvc", "WebViewPage", 1);
baseTypeReference = new ParameterizedTypeReference(baseTypeReference, new[] { FindModelType(editor) });
currentTypeDefinition.BaseTypes.Add(baseTypeReference);
var currentMethod = new DefaultUnresolvedMethod(currentTypeDefinition, "__ContextStub__");
currentMethod.ReturnType = KnownTypeReference.Void;
currentTypeDefinition.Members.Add(currentMethod);
var currentResolvedTypeDef = new DefaultResolvedTypeDefinition(resolveContext, currentTypeDefinition);
var projectContent = compilation.MainAssembly.UnresolvedAssembly as IProjectContent;
var currentFile = new CSharpUnresolvedFile();
currentFile.RootUsingScope.AddSimpleUsing("System.Web.Mvc");
currentFile.RootUsingScope.AddSimpleUsing("System.Web.Mvc.Ajax");
currentFile.RootUsingScope.AddSimpleUsing("System.Web.Mvc.Html");
currentFile.RootUsingScope.AddSimpleUsing("System.Web.Routing");
currentFile.TopLevelTypeDefinitions.Add(currentTypeDefinition);
if (projectContent != null) {
compilation = projectContent.AddOrUpdateFiles(currentFile).CreateCompilation(SD.ParserService.GetCurrentSolutionSnapshot());
}
var context = new CSharpTypeResolveContext(compilation.MainAssembly,
currentFile.RootUsingScope.Resolve(compilation),
currentResolvedTypeDef,
currentMethod.CreateResolved(resolveContext.WithCurrentTypeDefinition(currentResolvedTypeDef)));
return new CSharpResolver(context);
}
