// Copyright 2001 Ximian, Inc (http://www.ximian.com)
// Copyright 2004-2008 Novell, Inc
//
-// TODO: Move the method verification stuff from the class.cs and interface.cs here
//
using System;
namespace Mono.CSharp {
+ //
+ // Better name would be DottenName
+ //
public class MemberName {
public readonly string Name;
public readonly TypeArguments TypeArguments;
this.Left = (right.Left == null) ? left : new MemberName (left, right.Left);
}
+ // TODO: Remove
public string GetName ()
{
return GetName (false);
public string GetName (bool is_generic)
{
string name = is_generic ? Basename : Name;
- string connect = is_double_colon ? "::" : ".";
if (Left != null)
- return Left.GetName (is_generic) + connect + name;
- else
- return name;
- }
+ return Left.GetName (is_generic) + (is_double_colon ? "::" : ".") + name;
- public string GetTypeName ()
- {
- string connect = is_double_colon ? "::" : ".";
- if (Left != null)
- return Left.GetTypeName () + connect + MakeName (Name, TypeArguments);
- else
- return MakeName (Name, TypeArguments);
+ return name;
}
- public Expression GetTypeExpression ()
+ public ATypeNameExpression GetTypeExpression ()
{
if (Left == null) {
if (TypeArguments != null)
get {
if (TypeArguments != null)
return MakeName (Name, TypeArguments);
- else
- return Name;
- }
- }
-
- public string MethodName {
- get {
- string connect = is_double_colon ? "::" : ".";
- if (Left != null)
- return Left.FullyQualifiedName + connect + Name;
- else
- return Name;
+ return Name;
}
}
- // Please use this only for error reporting. For normal uses, just use the Equals and GetHashCode methods that make
- // MemberName a proper hash key, and avoid tons of memory allocations
- string FullyQualifiedName {
- get { return TypeArguments == null ? MethodName : MethodName + "<" + TypeArguments.GetSignatureForError () + ">"; }
- }
-
public string GetSignatureForError ()
{
string append = TypeArguments == null ? "" : "<" + TypeArguments.GetSignatureForError () + ">";
{
if (args == null)
return name;
- else
- return name + "`" + args.Count;
+
+ return name + "`" + args.Count;
}
public static string MakeName (string name, int count)
/// </summary>
protected string cached_name;
+ // TODO: Remove in favor of MemberName
public string Name {
get {
if (cached_name == null)
IsUsed = 1 << 11,
IsAssigned = 1 << 12, // Field is assigned
HasExplicitLayout = 1 << 13,
- PartialDefinitionExists = 1 << 14 // Set when corresponding partial method definition exists
+ PartialDefinitionExists = 1 << 14, // Set when corresponding partial method definition exists
+ HasStructLayout = 1 << 15 // Has StructLayoutAttribute
}
/// <summary>
}
} else {
if ((ModFlags & (Modifiers.ABSTRACT | Modifiers.EXTERN | Modifiers.PARTIAL)) == 0) {
- if (RootContext.Version >= LanguageVersion.LINQ && this is Property.PropertyMethod) {
+ if (RootContext.Version >= LanguageVersion.LINQ && this is Property.PropertyMethod &&
+ !(this is Indexer.GetIndexerMethod || this is Indexer.SetIndexerMethod)) {
Report.Error (840, Location, "`{0}' must have a body because it is not marked abstract or extern. The property can be automatically implemented when you define both accessors",
GetSignatureForError ());
} else {
if (!RootContext.VerifyClsCompliance)
return;
- VerifyClsCompliance ();
+ if (Report.WarningLevel > 0)
+ VerifyClsCompliance ();
+ }
+
+ public bool IsCompilerGenerated {
+ get {
+ if ((mod_flags & Modifiers.COMPILER_GENERATED) != 0)
+ return true;
+
+ return Parent == null ? false : Parent.IsCompilerGenerated;
+ }
}
public virtual bool IsUsed {
/// </summary>
public virtual ObsoleteAttribute GetObsoleteAttribute ()
{
- // ((flags & (Flags.Obsolete_Undetected | Flags.Obsolete)) == 0) is slower, but why ?
- if ((caching_flags & Flags.Obsolete_Undetected) == 0 && (caching_flags & Flags.Obsolete) == 0) {
+ if ((caching_flags & (Flags.Obsolete_Undetected | Flags.Obsolete)) == 0)
return null;
- }
caching_flags &= ~Flags.Obsolete_Undetected;
if (OptAttributes == null || TypeManager.obsolete_attribute_type == null)
return null;
- Attribute obsolete_attr = OptAttributes.Search (
- TypeManager.obsolete_attribute_type);
+ Attribute obsolete_attr = OptAttributes.Search (TypeManager.obsolete_attribute_type);
if (obsolete_attr == null)
return null;
+ caching_flags |= Flags.Obsolete;
+
ObsoleteAttribute obsolete = obsolete_attr.GetObsoleteAttribute ();
if (obsolete == null)
return null;
- caching_flags |= Flags.Obsolete;
return obsolete;
}
/// </summary>
public virtual void CheckObsoleteness (Location loc)
{
- if (Parent != null)
- Parent.CheckObsoleteness (loc);
-
ObsoleteAttribute oa = GetObsoleteAttribute ();
- if (oa == null) {
- return;
- }
-
- AttributeTester.Report_ObsoleteMessage (oa, GetSignatureForError (), loc);
+ if (oa != null)
+ AttributeTester.Report_ObsoleteMessage (oa, GetSignatureForError (), loc);
}
// Access level of a type.
if ((mod_flags & Modifiers.PRIVATE) != 0)
return true;
- while (p.IsArray || p.IsPointer || p.IsByRef)
+ while (TypeManager.HasElementType (p))
p = TypeManager.GetElementType (p);
#if GMCS_SOURCE
for (MemberCore mc = this; !same_access_restrictions && mc != null && mc.Parent != null; mc = mc.Parent) {
AccessLevel al = GetAccessLevelFromModifiers (mc.ModFlags);
switch (pAccess) {
- case AccessLevel.Internal:
- if (al == AccessLevel.Private || al == AccessLevel.Internal)
- same_access_restrictions = TypeManager.IsThisOrFriendAssembly (p.Assembly);
-
- break;
-
- case AccessLevel.Protected:
- if (al == AccessLevel.Protected) {
- same_access_restrictions = mc.Parent.IsBaseType (p_parent);
- break;
- }
-
- if (al == AccessLevel.Private) {
- //
- // When type is private and any of its parents derives from
- // protected type then the type is accessible
- //
- while (mc.Parent != null) {
- if (mc.Parent.IsBaseType (p_parent))
- same_access_restrictions = true;
- mc = mc.Parent;
- }
- }
-
- break;
-
- case AccessLevel.ProtectedOrInternal:
- if (al == AccessLevel.Protected)
- same_access_restrictions = mc.Parent.IsBaseType (p_parent);
- else if (al == AccessLevel.Internal)
- same_access_restrictions = TypeManager.IsThisOrFriendAssembly (p.Assembly);
- else if (al == AccessLevel.ProtectedOrInternal)
- same_access_restrictions = mc.Parent.IsBaseType (p_parent) &&
- TypeManager.IsThisOrFriendAssembly (p.Assembly);
-
+ case AccessLevel.Internal:
+ if (al == AccessLevel.Private || al == AccessLevel.Internal)
+ same_access_restrictions = TypeManager.IsThisOrFriendAssembly (p.Assembly);
+
+ break;
+
+ case AccessLevel.Protected:
+ if (al == AccessLevel.Protected) {
+ same_access_restrictions = mc.Parent.IsBaseType (p_parent);
break;
-
- case AccessLevel.Private:
+ }
+
+ if (al == AccessLevel.Private) {
//
- // Both are private and share same parent
+ // When type is private and any of its parents derives from
+ // protected type then the type is accessible
//
- if (al == AccessLevel.Private)
- same_access_restrictions = TypeManager.IsEqual (mc.Parent.TypeBuilder, p_parent);
-
- break;
-
- default:
- throw new InternalErrorException (al.ToString ());
+ while (mc.Parent != null) {
+ if (mc.Parent.IsBaseType (p_parent))
+ same_access_restrictions = true;
+ mc = mc.Parent;
+ }
+ }
+
+ break;
+
+ case AccessLevel.ProtectedOrInternal:
+ if (al == AccessLevel.Protected)
+ same_access_restrictions = mc.Parent.IsBaseType (p_parent);
+ else if (al == AccessLevel.Internal)
+ same_access_restrictions = TypeManager.IsThisOrFriendAssembly (p.Assembly);
+ else if (al == AccessLevel.ProtectedOrInternal)
+ same_access_restrictions = mc.Parent.IsBaseType (p_parent) &&
+ TypeManager.IsThisOrFriendAssembly (p.Assembly);
+
+ break;
+
+ case AccessLevel.Private:
+ //
+ // Both are private and share same parent
+ //
+ if (al == AccessLevel.Private)
+ same_access_restrictions = TypeManager.IsEqual (mc.Parent.TypeBuilder, p_parent);
+
+ break;
+
+ default:
+ throw new InternalErrorException (al.ToString ());
}
}
-
+
if (!same_access_restrictions)
return false;
}
if (HasClsCompliantAttribute) {
if (CodeGen.Assembly.ClsCompliantAttribute == null && !CodeGen.Assembly.IsClsCompliant) {
- Report.Error (3014, Location,
+ Report.Warning (3014, 1, Location,
"`{0}' cannot be marked as CLS-compliant because the assembly is not marked as CLS-compliant",
GetSignatureForError ());
return false;
}
if (member_name.Name [0] == '_') {
- Report.Error (3008, Location, "Identifier `{0}' is not CLS-compliant", GetSignatureForError () );
+ Report.Warning (3008, 1, Location, "Identifier `{0}' is not CLS-compliant", GetSignatureForError () );
}
return true;
}
protected readonly bool is_generic;
readonly int count_type_params;
+ protected TypeParameter[] type_params;
+ TypeParameter[] type_param_list;
//
// Whether we are Generic
((DeclSpace)symbol).NamespaceEntry.GetSignatureForError (), symbol.MemberName.Name);
} else if (symbol is TypeParameter) {
Report.Error (692, symbol.Location,
- "Duplicate type parameter `{0}'", name);
+ "Duplicate type parameter `{0}'", symbol.GetSignatureForError ());
} else {
Report.Error (102, symbol.Location,
"The type `{0}' already contains a definition for `{1}'",
return false;
}
+ protected void RemoveFromContainer (string name)
+ {
+ defined_names.Remove (name);
+ }
+
/// <summary>
/// Returns the MemberCore associated with a given name in the declaration
/// space. It doesn't return method based symbols !!
/// </remarks>
public abstract TypeBuilder DefineType ();
- /// <summary>
- /// Define all members, but don't apply any attributes or do anything which may
- /// access not-yet-defined classes. This method also creates the MemberCache.
- /// </summary>
- public virtual bool DefineMembers ()
- {
- if (((ModFlags & Modifiers.NEW) != 0) && IsTopLevel) {
- Report.Error (1530, Location, "Keyword `new' is not allowed on namespace elements");
- return false;
- }
- return true;
- }
-
protected void Error_MissingPartialModifier (MemberCore type)
{
Report.Error (260, type.Location,
type.GetSignatureForError ());
}
+ public override void Emit ()
+ {
+#if GMCS_SOURCE
+ if (type_params != null) {
+ int offset = count_type_params - type_params.Length;
+ for (int i = offset; i < type_params.Length; i++)
+ CurrentTypeParameters [i - offset].Emit ();
+ }
+
+ if ((ModFlags & Modifiers.COMPILER_GENERATED) != 0 && !Parent.IsCompilerGenerated)
+ TypeBuilder.SetCustomAttribute (TypeManager.GetCompilerGeneratedAttribute (Location));
+#endif
+
+ base.Emit ();
+ }
+
public override string GetSignatureForError ()
{
- if (IsGeneric) {
- return SimpleName.RemoveGenericArity (Name) + TypeParameter.GetSignatureForError (type_params);
- }
- // Parent.GetSignatureForError
- return Name;
+ return MemberName.GetSignatureForError ();
}
public bool CheckAccessLevel (Type check_type)
{
- TypeBuilder tb;
- if (this is GenericMethod)
+ TypeBuilder tb = TypeBuilder;
+#if GMCS_SOURCE
+ if (this is GenericMethod) {
tb = Parent.TypeBuilder;
- else
- tb = TypeBuilder;
+
+ // FIXME: Generic container does not work with nested generic
+ // anonymous method stories
+ if (TypeBuilder == null)
+ return true;
+ }
+#endif
check_type = TypeManager.DropGenericTypeArguments (check_type);
if (check_type == tb)
return true;
-
- if (TypeBuilder == null)
- // FIXME: TypeBuilder will be null when invoked by Class.GetNormalBases().
- // However, this is invoked again later -- so safe to return true.
- // May also be null when resolving top-level attributes.
- return true;
//
// Broken Microsoft runtime, return public for arrays, no matter what
if (check_type.IsArray || check_type.IsPointer)
return CheckAccessLevel (TypeManager.GetElementType (check_type));
- if (TypeManager.IsGenericParameter(check_type))
- return true; // FIXME
-
TypeAttributes check_attr = check_type.Attributes & TypeAttributes.VisibilityMask;
switch (check_attr){
return true;
case TypeAttributes.NotPublic:
-
- if (TypeBuilder == null)
- // FIXME: TypeBuilder will be null when invoked by Class.GetNormalBases().
- // However, this is invoked again later -- so safe to return true.
- // May also be null when resolving top-level attributes.
- return true;
-
return TypeManager.IsThisOrFriendAssembly (check_type.Assembly);
case TypeAttributes.NestedPublic:
- return true;
+ return CheckAccessLevel (check_type.DeclaringType);
case TypeAttributes.NestedPrivate:
- return NestedAccessible (tb, check_type);
+ Type declaring = check_type.DeclaringType;
+ return tb == declaring || TypeManager.IsNestedChildOf (tb, declaring);
case TypeAttributes.NestedFamily:
//
return TypeManager.IsThisOrFriendAssembly (check_type.Assembly);
}
- Console.WriteLine ("HERE: " + check_attr);
- return false;
-
+ throw new NotImplementedException (check_attr.ToString ());
}
- protected bool NestedAccessible (Type tb, Type check_type)
+ static bool FamilyAccessible (Type tb, Type check_type)
{
Type declaring = check_type.DeclaringType;
- return TypeBuilder == declaring ||
- TypeManager.IsNestedChildOf (TypeBuilder, declaring);
- }
-
- protected bool FamilyAccessible (Type tb, Type check_type)
- {
- Type declaring = check_type.DeclaringType;
- return TypeManager.IsNestedFamilyAccessible (TypeBuilder, declaring);
+ return TypeManager.IsNestedFamilyAccessible (tb, declaring);
}
public bool IsBaseType (Type baseType)
TypeBuilder.SetCustomAttribute (cb);
}
- //
- // Extensions for generics
- //
- protected TypeParameter[] type_params;
- TypeParameter[] type_param_list;
-
- bool check_type_parameter (ArrayList list, int start, string name)
- {
- for (int i = 0; i < start; i++) {
- TypeParameter param = (TypeParameter) list [i];
-
- if (param.Name != name)
- continue;
-
- Report.SymbolRelatedToPreviousError (Parent);
- // TODO: Location is wrong (parent instead of child)
- Report.Warning (693, 3, Location,
- "Type parameter `{0}' has the same name as the type parameter from outer type `{1}'",
- name, Parent.GetSignatureForError ());
-
- return false;
- }
-
- return true;
- }
-
TypeParameter[] initialize_type_params ()
{
if (type_param_list != null)
if (this is GenericMethod)
the_parent = null;
- int start = 0;
ArrayList list = new ArrayList ();
if (the_parent != null && the_parent.IsGeneric) {
// FIXME: move generics info out of DeclSpace
TypeParameter[] parent_params = the_parent.PartialContainer.TypeParameters;
- start = parent_params.Length;
list.AddRange (parent_params);
}
int count = type_params != null ? type_params.Length : 0;
for (int i = 0; i < count; i++) {
TypeParameter param = type_params [i];
- check_type_parameter (list, start, param.Name);
list.Add (param);
+ if (Parent.IsGeneric) {
+ foreach (TypeParameter tp in Parent.PartialContainer.CurrentTypeParameters) {
+ if (tp.Name != param.Name)
+ continue;
+
+ Report.SymbolRelatedToPreviousError (tp.Location, null);
+ Report.Warning (693, 3, param.Location,
+ "Type parameter `{0}' has the same name as the type parameter from outer type `{1}'",
+ param.Name, Parent.GetSignatureForError ());
+ }
+ }
}
type_param_list = new TypeParameter [list.Count];
else {
Report.SymbolRelatedToPreviousError ((DeclSpace)val);
}
-#if GMCS_SOURCE
+
Report.Warning (3005, 1, Location, "Identifier `{0}' differing only in case is not CLS-compliant", GetSignatureForError ());
-#else
- Report.Error (3005, Location, "Identifier `{0}' differing only in case is not CLS-compliant", GetSignatureForError ());
-#endif
return true;
}
}
AddMember (mi.MemberType, GetBindingFlags (mc.ModFlags), Container, mi.Name, mi);
}
- public void AddGenericMember (MemberInfo mi, MemberCore mc)
+ public void AddGenericMember (MemberInfo mi, InterfaceMemberBase mc)
{
- AddMember (mi.MemberType, GetBindingFlags (mc.ModFlags), Container, mc.MemberName.Basename, mi);
+ AddMember (mi.MemberType, GetBindingFlags (mc.ModFlags), Container,
+ MemberName.MakeName (mc.GetFullName (mc.MemberName), mc.MemberName.TypeArguments), mi);
}
public void AddNestedType (DeclSpace type)
MethodBase mb = (MethodBase)entry.Member;
IMethodData md = TypeManager.GetMethod (mb);
- ParameterData pd = md == null ?
+ AParametersCollection pd = md == null ?
TypeManager.GetParameterData (mb) : md.ParameterInfo;
Type ex_type = pd.ExtensionMethodType;
// Because the MemberCache holds members from this class and all the base classes,
// we can avoid tons of reflection stuff.
//
- public MemberInfo FindMemberToOverride (Type invocation_type, string name, Type [] param_types, GenericMethod generic_method, bool is_property)
+ public MemberInfo FindMemberToOverride (Type invocation_type, string name, AParametersCollection parameters, GenericMethod generic_method, bool is_property)
{
ArrayList applicable;
if (method_hash != null && !is_property)
PropertyInfo pi = null;
MethodInfo mi = null;
FieldInfo fi = null;
- Type [] cmp_attrs = null;
+ AParametersCollection cmp_attrs;
if (is_property) {
if ((entry.EntryType & EntryType.Field) != 0) {
fi = (FieldInfo)entry.Member;
-
- // TODO: For this case we ignore member type
- //fb = TypeManager.GetField (fi);
- //cmp_attrs = new Type[] { fb.MemberType };
+ cmp_attrs = Parameters.EmptyReadOnlyParameters;
} else {
pi = (PropertyInfo) entry.Member;
- cmp_attrs = TypeManager.GetArgumentTypes (pi);
+ cmp_attrs = TypeManager.GetParameterData (pi);
}
} else {
mi = (MethodInfo) entry.Member;
- cmp_attrs = TypeManager.GetParameterData (mi).Types;
+ cmp_attrs = TypeManager.GetParameterData (mi);
}
if (fi != null) {
//
// Check the arguments
//
- if (cmp_attrs.Length != param_types.Length)
+ if (cmp_attrs.Count != parameters.Count)
continue;
int j;
- for (j = 0; j < cmp_attrs.Length; ++j)
- if (!TypeManager.IsEqual (param_types [j], cmp_attrs [j]))
+ for (j = 0; j < cmp_attrs.Count; ++j) {
+ //
+ // LAMESPEC: No idea why `params' modifier is ignored
+ //
+ if ((parameters.FixedParameters [j].ModFlags & ~Parameter.Modifier.PARAMS) !=
+ (cmp_attrs.FixedParameters [j].ModFlags & ~Parameter.Modifier.PARAMS))
break;
- if (j < cmp_attrs.Length)
+
+ if (!TypeManager.IsEqual (parameters.Types [j], cmp_attrs.Types [j]))
+ break;
+ }
+
+ if (j < cmp_attrs.Count)
continue;
//
//
if (mi != null) {
Type [] cmpGenArgs = TypeManager.GetGenericArguments (mi);
- if (generic_method == null && cmpGenArgs.Length != 0)
+ if (generic_method == null && cmpGenArgs != null && cmpGenArgs.Length != 0)
continue;
- if (generic_method != null && cmpGenArgs.Length != generic_method.TypeParameters.Length)
+ if (generic_method != null && cmpGenArgs != null && cmpGenArgs.Length != generic_method.TypeParameters.Length)
continue;
}
// Does exist easier way how to detect indexer ?
if ((entry.EntryType & EntryType.Property) != 0) {
- Type[] arg_types = TypeManager.GetArgumentTypes ((PropertyInfo)entry.Member);
- if (arg_types.Length > 0)
+ AParametersCollection arg_types = TypeManager.GetParameterData ((PropertyInfo)entry.Member);
+ if (arg_types.Count > 0)
continue;
}
}
// TODO: Does anyone know easier way how to detect that member is internal ?
switch (member_entry.EntryType & EntryType.MaskType) {
- case EntryType.Constructor:
- continue;
-
- case EntryType.Field:
- if ((((FieldInfo)member_entry.Member).Attributes & (FieldAttributes.Assembly | FieldAttributes.Public)) == FieldAttributes.Assembly)
- continue;
- break;
-
- case EntryType.Method:
- if ((((MethodInfo)member_entry.Member).Attributes & (MethodAttributes.Assembly | MethodAttributes.Public)) == MethodAttributes.Assembly)
- continue;
- break;
-
- case EntryType.Property:
- PropertyInfo pi = (PropertyInfo)member_entry.Member;
- if (pi.GetSetMethod () == null && pi.GetGetMethod () == null)
- continue;
- break;
-
- case EntryType.Event:
- EventInfo ei = (EventInfo)member_entry.Member;
- MethodInfo mi = ei.GetAddMethod ();
- if ((mi.Attributes & (MethodAttributes.Assembly | MethodAttributes.Public)) == MethodAttributes.Assembly)
- continue;
- break;
+ case EntryType.Constructor:
+ continue;
+
+ case EntryType.Field:
+ if ((((FieldInfo)member_entry.Member).Attributes & (FieldAttributes.Assembly | FieldAttributes.Public)) == FieldAttributes.Assembly)
+ continue;
+ break;
+
+ case EntryType.Method:
+ if ((((MethodInfo)member_entry.Member).Attributes & (MethodAttributes.Assembly | MethodAttributes.Public)) == MethodAttributes.Assembly)
+ continue;
+ break;
+
+ case EntryType.Property:
+ PropertyInfo pi = (PropertyInfo)member_entry.Member;
+ if (pi.GetSetMethod () == null && pi.GetGetMethod () == null)
+ continue;
+ break;
+
+ case EntryType.Event:
+ EventInfo ei = (EventInfo)member_entry.Member;
+ MethodInfo mi = ei.GetAddMethod ();
+ if ((mi.Attributes & (MethodAttributes.Assembly | MethodAttributes.Public)) == MethodAttributes.Assembly)
+ continue;
+ break;
}
string lcase = ((string)entry.Key).ToLower (System.Globalization.CultureInfo.InvariantCulture);
locase_table [lcase] = member_entry.Member;
MethodBase method_to_compare = (MethodBase)entry.Member;
AttributeTester.Result result = AttributeTester.AreOverloadedMethodParamsClsCompliant (
- method.ParameterTypes, TypeManager.GetParameterData (method_to_compare).Types);
+ method.Parameters, TypeManager.GetParameterData (method_to_compare));
if (result == AttributeTester.Result.Ok)
continue;
Report.SymbolRelatedToPreviousError (entry.Member);
switch (result) {
- case AttributeTester.Result.RefOutArrayError:
- Report.Error (3006, method.Location, "Overloaded method `{0}' differing only in ref or out, or in array rank, is not CLS-compliant", method.GetSignatureForError ());
- continue;
- case AttributeTester.Result.ArrayArrayError:
- Report.Error (3007, method.Location, "Overloaded method `{0}' differing only by unnamed array types is not CLS-compliant", method.GetSignatureForError ());
- continue;
+ case AttributeTester.Result.RefOutArrayError:
+ Report.Warning (3006, 1, method.Location,
+ "Overloaded method `{0}' differing only in ref or out, or in array rank, is not CLS-compliant",
+ method.GetSignatureForError ());
+ continue;
+ case AttributeTester.Result.ArrayArrayError:
+ Report.Warning (3007, 1, method.Location,
+ "Overloaded method `{0}' differing only by unnamed array types is not CLS-compliant",
+ method.GetSignatureForError ());
+ continue;
}
throw new NotImplementedException (result.ToString ());
return true;
Type [] p_types;
- ParameterData pd = null;
+ AParametersCollection pd;
if ((ce.EntryType & EntryType.Property) != 0) {
- p_types = TypeManager.GetArgumentTypes ((PropertyInfo) ce.Member);
+ pd = TypeManager.GetParameterData ((PropertyInfo) ce.Member);
+ p_types = pd.Types;
} else {
MethodBase mb = (MethodBase) ce.Member;
#if GMCS_SOURCE
// twice with and without arity name
if (mb.IsGenericMethod && !member.MemberName.IsGeneric)
continue;
-#endif
+#endif
pd = TypeManager.GetParameterData (mb);
p_types = pd.Types;
}
int ii = method_param_count - 1;
Type type_a, type_b;
do {
- type_a = parameters.ParameterType (ii);
+ type_a = parameters.Types [ii];
type_b = p_types [ii];
+
#if GMCS_SOURCE
if (type_a.IsGenericParameter && type_a.DeclaringMethod != null)
type_a = null;
if (type_b.IsGenericParameter && type_b.DeclaringMethod != null)
type_b = null;
#endif
+ if ((pd.FixedParameters [ii].ModFlags & Parameter.Modifier.ISBYREF) !=
+ (parameters.FixedParameters [ii].ModFlags & Parameter.Modifier.ISBYREF))
+ type_a = null;
+
} while (type_a == type_b && ii-- != 0);
if (ii >= 0)
//
// Report difference in parameter modifiers only
//
- if (pd != null && !(member is AbstractPropertyEventMethod)) {
+ if (pd != null && member is MethodCore) {
ii = method_param_count;
- while (ii-- != 0 && parameters.ParameterModifier (ii) == pd.ParameterModifier (ii) &&
+ while (ii-- != 0 && parameters.FixedParameters [ii].ModFlags == pd.FixedParameters [ii].ModFlags &&
parameters.ExtensionMethodType == pd.ExtensionMethodType);
if (ii >= 0) {