// decl.cs: Declaration base class for structs, classes, enums and interfaces.
//
// Author: Miguel de Icaza (miguel@gnu.org)
+// Marek Safar (marek.safar@seznam.cz)
//
// Licensed under the terms of the GNU GPL
//
//
using System;
+using System.Text;
using System.Collections;
+using System.Globalization;
using System.Reflection.Emit;
using System.Reflection;
namespace Mono.CSharp {
+ public class TypeName {
+ public readonly string Name;
+ public readonly TypeArguments TypeArguments;
+
+ public readonly TypeName Left;
+
+ public static readonly TypeName Null = new TypeName ("");
+
+ public TypeName (string name)
+ {
+ this.Name = name;
+ }
+
+ public TypeName (string name, TypeArguments args)
+ : this (name)
+ {
+ this.TypeArguments = args;
+ }
+
+ public TypeName (TypeName left, string name, TypeArguments args)
+ : this (name, args)
+ {
+ this.Left = left;
+ }
+
+ public string GetName ()
+ {
+ if (Left != null)
+ return Left.GetName () + "." + Name;
+ else
+ return Name;
+ }
+
+ public int CountTypeArguments {
+ get {
+ if (TypeArguments == null)
+ return 0;
+ else
+ return TypeArguments.Count;
+ }
+ }
+
+ public string GetFullName ()
+ {
+ string full_name;
+ if (TypeArguments != null)
+ full_name = Name + "<" + TypeArguments + ">";
+ else
+ full_name = Name;
+ if (Left != null)
+ return Left.GetFullName () + "." + full_name;
+ else
+ return full_name;
+ }
+
+ public string GetTypeName (bool full)
+ {
+ string suffix = "";
+ if (full && (TypeArguments != null))
+ suffix = "!" + TypeArguments.Count;
+ if (Left != null)
+ return Left.GetTypeName (full) + "." + Name + suffix;
+ else
+ return Name + suffix;
+ }
+
+ public Expression GetTypeExpression (Location loc)
+ {
+ if (Left != null) {
+ Expression lexpr = Left.GetTypeExpression (loc);
+
+ return new MemberAccess (lexpr, Name, TypeArguments, loc);
+ } else {
+ if (TypeArguments != null)
+ return new ConstructedType (Name, TypeArguments, loc);
+ else
+ return new SimpleName (Name, loc);
+ }
+ }
+
+ public MemberName GetMemberName ()
+ {
+ if (TypeArguments != null) {
+ string[] type_params = TypeArguments.GetDeclarations ();
+ return new MemberName (Left, Name, type_params);
+ } else
+ return new MemberName (Left, Name);
+ }
+
+ public override string ToString ()
+ {
+ string full_name;
+ if (TypeArguments != null)
+ full_name = Name + "<" + TypeArguments + ">";
+ else
+ full_name = Name;
+
+ if (Left != null)
+ return Left + "." + full_name;
+ else
+ return full_name;
+ }
+ }
+
+ public class MemberName {
+ public readonly TypeName TypeName;
+ public readonly string Name;
+ public readonly string[] TypeParameters;
+
+ public MemberName (string name)
+ {
+ this.Name = name;
+ }
+
+ public MemberName (TypeName type, string name)
+ {
+ this.TypeName = type;
+ this.Name = name;
+ }
+
+ public MemberName (TypeName type, MemberName name)
+ {
+ this.TypeName = type;
+ this.Name = name.Name;
+ this.TypeParameters = name.TypeParameters;
+ }
+
+ public MemberName (TypeName type, string name, ArrayList type_params)
+ : this (type, name)
+ {
+ if (type_params != null) {
+ TypeParameters = new string [type_params.Count];
+ type_params.CopyTo (TypeParameters, 0);
+ }
+ }
+
+ public MemberName (TypeName type, string name, string[] type_params)
+ : this (type, name)
+ {
+ this.TypeParameters = type_params;
+ }
+
+ public TypeName MakeTypeName (Location loc)
+ {
+ if (TypeParameters != null) {
+ TypeArguments args = new TypeArguments (loc);
+ foreach (string param in TypeParameters)
+ args.Add (new SimpleName (param, loc));
+ return new TypeName (TypeName, Name, args);
+ }
+
+ return new TypeName (TypeName, Name, null);
+ }
+
+ public static readonly MemberName Null = new MemberName ("");
+
+ public string Basename {
+ get {
+ if (TypeParameters != null)
+ return Name + "!" + TypeParameters.Length;
+ else
+ return Name;
+ }
+ }
+
+ public string GetName (bool is_generic)
+ {
+ string name = is_generic ? Basename : Name;
+ if (TypeName != null)
+ return TypeName.GetTypeName (is_generic) + "." + name;
+ else
+ return name;
+ }
+
+ public int CountTypeParameters {
+ get {
+ if (TypeParameters != null)
+ return 0;
+ else
+ return TypeParameters.Length;
+ }
+ }
+
+ protected string PrintTypeParams ()
+ {
+ if (TypeParameters != null) {
+ StringBuilder sb = new StringBuilder ();
+ sb.Append ("<");
+ for (int i = 0; i < TypeParameters.Length; i++) {
+ if (i > 0)
+ sb.Append (",");
+ sb.Append (TypeParameters [i]);
+ }
+ sb.Append (">");
+ return sb.ToString ();
+ }
+
+ return "";
+ }
+
+ public string FullName {
+ get {
+ string full_name = Name + PrintTypeParams ();
+
+ if (TypeName != null)
+ return TypeName + "." + full_name;
+ else
+ return full_name;
+ }
+ }
+
+ public override string ToString ()
+ {
+ return String.Format ("MemberName [{0}:{1}:{2}]",
+ TypeName, Name, PrintTypeParams ());
+ }
+ }
+
/// <summary>
- /// Base representation for members. This is only used to keep track
- /// of Name, Location and Modifier flags.
+ /// Base representation for members. This is used to keep track
+ /// of Name, Location and Modifier flags, and handling Attributes.
/// </summary>
- public abstract class MemberCore {
+ public abstract class MemberCore : Attributable {
/// <summary>
/// Public name
/// </summary>
public string Name;
+ public readonly MemberName MemberName;
+
/// <summary>
/// Modifier flags that the user specified in the source code
/// </summary>
/// </summary>
public readonly Location Location;
- public MemberCore (string name, Location loc)
+ [Flags]
+ public enum Flags {
+ Obsolete_Undetected = 1, // Obsolete attribute has not been detected yet
+ Obsolete = 1 << 1, // Type has obsolete attribute
+ ClsCompliance_Undetected = 1 << 2, // CLS Compliance has not been detected yet
+ ClsCompliant = 1 << 3, // Type is CLS Compliant
+ CloseTypeCreated = 1 << 4, // Tracks whether we have Closed the type
+ HasCompliantAttribute_Undetected = 1 << 5, // Presence of CLSCompliantAttribute has not been detected
+ HasClsCompliantAttribute = 1 << 6, // Type has CLSCompliantAttribute
+ ClsCompliantAttributeTrue = 1 << 7, // Type has CLSCompliant (true)
+ Excluded_Undetected = 1 << 8, // Conditional attribute has not been detected yet
+ Excluded = 1 << 9 // Method is conditional
+
+ }
+
+ /// <summary>
+ /// MemberCore flags at first detected then cached
+ /// </summary>
+ protected Flags caching_flags;
+
+ public MemberCore (MemberName name, Attributes attrs, Location loc)
+ : base (attrs)
{
- Name = name;
+ Name = name.GetName (!(this is GenericMethod) && !(this is Method));
+ MemberName = name;
Location = loc;
+ caching_flags = Flags.Obsolete_Undetected | Flags.ClsCompliance_Undetected | Flags.HasCompliantAttribute_Undetected | Flags.Excluded_Undetected;
+ }
+
+ /// <summary>
+ /// Tests presence of ObsoleteAttribute and report proper error
+ /// </summary>
+ protected void CheckUsageOfObsoleteAttribute (Type type)
+ {
+ if (type == null)
+ return;
+
+ ObsoleteAttribute obsolete_attr = AttributeTester.GetObsoleteAttribute (type);
+ if (obsolete_attr == null)
+ return;
+
+ AttributeTester.Report_ObsoleteMessage (obsolete_attr, type.FullName, Location);
}
public abstract bool Define (TypeContainer parent);
+ //
+ // Returns full member name for error message
+ //
+ public virtual string GetSignatureForError ()
+ {
+ return Name;
+ }
+
+ /// <summary>
+ /// Base Emit method. This is also entry point for CLS-Compliant verification.
+ /// </summary>
+ public virtual void Emit (TypeContainer container)
+ {
+ VerifyObsoleteAttribute ();
+
+ if (!RootContext.VerifyClsCompliance)
+ return;
+
+ VerifyClsCompliance (container);
+ }
+
//
// Whehter is it ok to use an unsafe pointer in this type container
//
Expression.UnsafeError (Location);
return false;
}
+
+ /// <summary>
+ /// Returns instance of ObsoleteAttribute for this MemberCore
+ /// </summary>
+ public ObsoleteAttribute GetObsoleteAttribute (DeclSpace ds)
+ {
+ // ((flags & (Flags.Obsolete_Undetected | Flags.Obsolete)) == 0) is slower, but why ?
+ if ((caching_flags & Flags.Obsolete_Undetected) == 0 && (caching_flags & Flags.Obsolete) == 0) {
+ return null;
+ }
+
+ caching_flags &= ~Flags.Obsolete_Undetected;
+
+ if (OptAttributes == null)
+ return null;
+
+ // TODO: remove this allocation
+ EmitContext ec = new EmitContext (ds.Parent, ds, ds.Location,
+ null, null, ds.ModFlags, false);
+
+ Attribute obsolete_attr = OptAttributes.Search (TypeManager.obsolete_attribute_type, ec);
+ if (obsolete_attr == null)
+ return null;
+
+ ObsoleteAttribute obsolete = obsolete_attr.GetObsoleteAttribute (ds);
+ if (obsolete == null)
+ return null;
+
+ caching_flags |= Flags.Obsolete;
+ return obsolete;
+ }
+
+ /// <summary>
+ /// Analyze whether CLS-Compliant verification must be execute for this MemberCore.
+ /// </summary>
+ public override bool IsClsCompliaceRequired (DeclSpace container)
+ {
+ if ((caching_flags & Flags.ClsCompliance_Undetected) == 0)
+ return (caching_flags & Flags.ClsCompliant) != 0;
+
+ if (GetClsCompliantAttributeValue (container) && IsExposedFromAssembly (container)) {
+ caching_flags &= ~Flags.ClsCompliance_Undetected;
+ caching_flags |= Flags.ClsCompliant;
+ return true;
+ }
+
+ caching_flags &= ~Flags.ClsCompliance_Undetected;
+ return false;
+ }
+
+ /// <summary>
+ /// Returns true when MemberCore is exposed from assembly.
+ /// </summary>
+ protected bool IsExposedFromAssembly (DeclSpace ds)
+ {
+ if ((ModFlags & (Modifiers.PUBLIC | Modifiers.PROTECTED)) == 0)
+ return false;
+
+ DeclSpace parentContainer = ds;
+ while (parentContainer != null && parentContainer.ModFlags != 0) {
+ if ((parentContainer.ModFlags & (Modifiers.PUBLIC | Modifiers.PROTECTED)) == 0)
+ return false;
+ parentContainer = parentContainer.Parent;
+ }
+ return true;
+ }
+
+ /// <summary>
+ /// Resolve CLSCompliantAttribute value or gets cached value.
+ /// </summary>
+ bool GetClsCompliantAttributeValue (DeclSpace ds)
+ {
+ if (OptAttributes != null) {
+ EmitContext ec = new EmitContext (ds.Parent, ds, ds.Location,
+ null, null, ds.ModFlags, false);
+ Attribute cls_attribute = OptAttributes.GetClsCompliantAttribute (ec);
+ if (cls_attribute != null) {
+ caching_flags |= Flags.HasClsCompliantAttribute;
+ return cls_attribute.GetClsCompliantAttributeValue (ds);
+ }
+ }
+ return ds.GetClsCompliantAttributeValue ();
+ }
+
+ /// <summary>
+ /// Returns true if MemberCore is explicitly marked with CLSCompliantAttribute
+ /// </summary>
+ protected bool HasClsCompliantAttribute {
+ get {
+ return (caching_flags & Flags.HasClsCompliantAttribute) != 0;
+ }
+ }
+
+ /// <summary>
+ /// This method is used to testing error 3005 (Method or parameter name collision).
+ /// </summary>
+ protected abstract bool IsIdentifierClsCompliant (DeclSpace ds);
+
+ /// <summary>
+ /// Common helper method for identifier and parameters CLS-Compliant testing.
+ /// When return false error 3005 is reported. True means no violation.
+ /// And error 3006 tests are peformed here because of speed.
+ /// </summary>
+ protected bool IsIdentifierAndParamClsCompliant (DeclSpace ds, string name, MemberInfo methodBuilder, Type[] paramTypes)
+ {
+ MemberList ml = ds.FindMembers (MemberTypes.Event | MemberTypes.Field | MemberTypes.Method | MemberTypes.Property,
+ BindingFlags.Public | BindingFlags.Static | BindingFlags.Instance, System.Type.FilterNameIgnoreCase, name);
+
+ if (ml.Count < 2)
+ return true;
+
+ bool error3006 = false;
+ for (int i = 0; i < ml.Count; ++i) {
+ MemberInfo mi = ml [i];
+ if (name == mi.Name) {
+ MethodBase method = mi as MethodBase;
+ if (method == null || method == methodBuilder || paramTypes == null || paramTypes.Length == 0)
+ continue;
+
+ if (AttributeTester.AreOverloadedMethodParamsClsCompliant (paramTypes, TypeManager.GetArgumentTypes (method))) {
+ error3006 = false;
+ continue;
+ }
+
+ error3006 = true;
+ }
+
+ // We need to test if member is not marked as CLSCompliant (false) and if type is not only internal
+ // because BindingFlags.Public returns internal types too
+ DeclSpace temp_ds = TypeManager.LookupDeclSpace (mi.DeclaringType);
+
+ // Type is external, we can get attribute directly
+ if (temp_ds == null) {
+ object[] cls_attribute = mi.GetCustomAttributes (TypeManager.cls_compliant_attribute_type, false);
+ if (cls_attribute.Length == 1 && (!((CLSCompliantAttribute)cls_attribute[0]).IsCompliant))
+ continue;
+ } else {
+ string tmp_name = String.Concat (temp_ds.Name, '.', mi.Name);
+
+ MemberCore mc = temp_ds.GetDefinition (tmp_name) as MemberCore;
+ if (!mc.IsClsCompliaceRequired (ds))
+ continue;
+ }
+
+ for (int ii = 0; ii < ml.Count; ++ii) {
+ mi = ml [ii];
+ if (name == mi.Name)
+ continue;
+ Report.SymbolRelatedToPreviousError (mi);
+ }
+
+ if (error3006)
+ Report.Error_T (3006, Location, GetSignatureForError ());
+
+ return error3006;
+
+ }
+ return true;
+ }
+
+ /// <summary>
+ /// The main virtual method for CLS-Compliant verifications.
+ /// The method returns true if member is CLS-Compliant and false if member is not
+ /// CLS-Compliant which means that CLS-Compliant tests are not necessary. A descendants override it
+ /// and add their extra verifications.
+ /// </summary>
+ protected virtual bool VerifyClsCompliance (DeclSpace ds)
+ {
+ if (!IsClsCompliaceRequired (ds)) {
+ if (HasClsCompliantAttribute && !IsExposedFromAssembly (ds)) {
+ Report.Warning_T (3019, Location, GetSignatureForError ());
+ }
+ return false;
+ }
+
+ if (!CodeGen.Assembly.IsClsCompliant) {
+ if (HasClsCompliantAttribute) {
+ Report.Error_T (3014, Location, GetSignatureForError ());
+ }
+ }
+
+ int index = Name.LastIndexOf ('.');
+ if (Name [index > 0 ? index + 1 : 0] == '_') {
+ Report.Error_T (3008, Location, GetSignatureForError () );
+ }
+
+ if (!IsIdentifierClsCompliant (ds)) {
+ Report.Error_T (3005, Location, GetSignatureForError ());
+ }
+
+ return true;
+ }
+
+ protected abstract void VerifyObsoleteAttribute ();
+
}
/// <summary>
/// provides the common foundation for managing those name
/// spaces.
/// </remarks>
- public abstract class DeclSpace : MemberCore {
+ public abstract class DeclSpace : MemberCore, IAlias {
/// <summary>
- /// this points to the actual definition that is being
+ /// This points to the actual definition that is being
/// created with System.Reflection.Emit
/// </summary>
public TypeBuilder TypeBuilder;
/// <summary>
- /// This variable tracks whether we have Closed the type
+ /// If we are a generic type, this is the type we are
+ /// currently defining. We need to lookup members on this
+ /// instead of the TypeBuilder.
/// </summary>
- public bool Created = false;
-
+ public TypeExpr CurrentType;
+
//
// This is the namespace in which this typecontainer
// was declared. We use this to resolve names.
/// </summary>
protected Hashtable defined_names;
+ readonly bool is_generic;
+ readonly int count_type_params;
+
//
// Whether we are Generic
//
- public bool IsGeneric;
+ public bool IsGeneric {
+ get {
+ if (is_generic)
+ return true;
+ else if (parent != null)
+ return parent.IsGeneric;
+ else
+ return false;
+ }
+ }
TypeContainer parent;
- public DeclSpace (NamespaceEntry ns, TypeContainer parent, string name, Location l)
- : base (name, l)
+ static string[] attribute_targets = new string [] { "type" };
+
+ public DeclSpace (NamespaceEntry ns, TypeContainer parent, MemberName name,
+ Attributes attrs, Location l)
+ : base (name, attrs, l)
{
NamespaceEntry = ns;
- Basename = name.Substring (1 + name.LastIndexOf ('.'));
+ Basename = name.Name;
defined_names = new Hashtable ();
+ if (name.TypeParameters != null) {
+ is_generic = true;
+ count_type_params = name.TypeParameters.Length;
+ }
+ if (parent != null)
+ count_type_params += parent.count_type_params;
this.parent = parent;
+ }
+ public void RecordDecl ()
+ {
if ((NamespaceEntry != null) && (parent == RootContext.Tree.Types))
- NamespaceEntry.DefineName (Basename, this);
+ NamespaceEntry.DefineName (MemberName.Basename, this);
}
/// <summary>
/// associates it with the object @o. Note that for
/// methods this will just point to the first method. o
/// </summary>
- protected void DefineName (string name, object o)
+ public void DefineName (string name, object o)
{
defined_names.Add (name, o);
#if DEBUGME
- int p = name.LastIndexOf (".");
+ int p = name.LastIndexOf ('.');
int l = name.Length;
length += l;
small += l -p;
/// <summary>
/// Looks up the alias for the name
/// </summary>
- public string LookupAlias (string name)
+ public IAlias LookupAlias (string name)
{
if (NamespaceEntry != null)
return NamespaceEntry.LookupAlias (name);
public virtual void CloseType ()
{
- if (!Created){
+ if ((caching_flags & Flags.CloseTypeCreated) == 0){
try {
TypeBuilder.CreateType ();
} catch {
// Note that this still creates the type and
// it is possible to save it
}
- Created = true;
+ caching_flags |= Flags.CloseTypeCreated;
}
}
// </summary>
public Type ResolveType (Expression e, bool silent, Location loc)
{
- if (type_resolve_ec == null)
- type_resolve_ec = GetTypeResolveEmitContext (parent, loc);
- type_resolve_ec.loc = loc;
- type_resolve_ec.ContainerType = TypeBuilder;
+ TypeExpr d = ResolveTypeExpr (e, silent, loc);
+ if (d == null)
+ return null;
- int errors = Report.Errors;
- Expression d = e.ResolveAsTypeTerminal (type_resolve_ec);
-
- if (d == null || d.eclass != ExprClass.Type){
- if (!silent && errors == Report.Errors){
- Console.WriteLine ("Type is: " + e.GetType().ToString ());
- Report.Error (246, loc, "Cannot find type `"+ e.ToString () +"'");
- }
+ return ResolveType (d, loc);
+ }
+
+ public Type ResolveType (TypeExpr d, Location loc)
+ {
+ if (!d.CheckAccessLevel (this)) {
+ Report.Error_T (122, loc, d.Name);
return null;
}
- if (!CheckAccessLevel (d.Type)) {
- Report. Error (122, loc, "`" + d.Type + "' " +
- "is inaccessible because of its protection level");
+ Type t = d.ResolveType (type_resolve_ec);
+ if (t == null)
return null;
+
+ TypeContainer tc = TypeManager.LookupTypeContainer (t);
+ if ((tc != null) && tc.IsGeneric) {
+ if (!IsGeneric) {
+ int tnum = TypeManager.GetNumberOfTypeArguments (t);
+ Report.Error (305, loc,
+ "Using the generic type `{0}' " +
+ "requires {1} type arguments",
+ TypeManager.GetFullName (t), tnum);
+ return null;
+ }
+
+ ConstructedType ctype = new ConstructedType (
+ t, TypeParameters, loc);
+
+ t = ctype.ResolveType (type_resolve_ec);
}
- return d.Type;
+ return t;
}
// <summary>
// Resolves the expression `e' for a type, and will recursively define
// types.
// </summary>
- public Expression ResolveTypeExpr (Expression e, bool silent, Location loc)
+ public TypeExpr ResolveTypeExpr (Expression e, bool silent, Location loc)
{
if (type_resolve_ec == null)
type_resolve_ec = GetTypeResolveEmitContext (parent, loc);
type_resolve_ec.loc = loc;
- type_resolve_ec.ContainerType = TypeBuilder;
+ if (this is GenericMethod)
+ type_resolve_ec.ContainerType = Parent.TypeBuilder;
+ else
+ type_resolve_ec.ContainerType = TypeBuilder;
+
+ int errors = Report.Errors;
+
+ TypeExpr d = e.ResolveAsTypeTerminal (type_resolve_ec);
- Expression d = e.ResolveAsTypeTerminal (type_resolve_ec);
-
- if (d == null || d.eclass != ExprClass.Type){
- if (!silent){
- Report.Error (246, loc, "Cannot find type `"+ e +"'");
+ if ((d != null) && (d.eclass == ExprClass.Type))
+ return d;
+
+ if (silent || (Report.Errors != errors))
+ return null;
+
+ if (e is SimpleName){
+ SimpleName s = new SimpleName (((SimpleName) e).Name, loc);
+ d = s.ResolveAsTypeTerminal (type_resolve_ec);
+
+ if ((d == null) || (d.Type == null)) {
+ Report.Error (246, loc, "Cannot find type `{0}'", e);
+ return null;
}
+
+ int num_args = TypeManager.GetNumberOfTypeArguments (d.Type);
+
+ if (num_args == 0) {
+ Report.Error (308, loc,
+ "The non-generic type `{0}' cannot " +
+ "be used with type arguments.",
+ TypeManager.CSharpName (d.Type));
+ return null;
+ }
+
+ Report.Error (305, loc,
+ "Using the generic type `{0}' " +
+ "requires {1} type arguments",
+ TypeManager.GetFullName (d.Type), num_args);
return null;
}
- return d;
+ Report.Error (246, loc, "Cannot find type `{0}'", e);
+ return null;
}
public bool CheckAccessLevel (Type check_type)
{
- if (check_type == TypeBuilder)
+ TypeBuilder tb;
+ if (this is GenericMethod)
+ tb = Parent.TypeBuilder;
+ else
+ tb = TypeBuilder;
+
+ if (check_type.IsGenericInstance)
+ check_type = check_type.GetGenericTypeDefinition ();
+
+ if (check_type == tb)
return true;
+
+ if (check_type.IsGenericParameter)
+ return true; // FIXME
TypeAttributes check_attr = check_type.Attributes & TypeAttributes.VisibilityMask;
return true;
case TypeAttributes.NotPublic:
- //
- // This test should probably use the declaringtype.
- //
- if (check_type.Assembly == TypeBuilder.Assembly){
- return true;
- }
- return false;
-
+
+ // In same cases is null.
+ if (TypeBuilder == null)
+ return true;
+
+ //
+ // This test should probably use the declaringtype.
+ //
+ return check_type.Assembly == TypeBuilder.Assembly;
+
case TypeAttributes.NestedPublic:
return true;
case TypeAttributes.NestedPrivate:
string check_type_name = check_type.FullName;
- string type_name = TypeBuilder.FullName;
-
- int cio = check_type_name.LastIndexOf ("+");
+ string type_name = CurrentType != null ?
+ CurrentType.Name : tb.FullName;
+
+ int cio = check_type_name.LastIndexOf ('+');
string container = check_type_name.Substring (0, cio);
//
//
// Only accessible to methods in current type or any subtypes
//
- return FamilyAccessible (check_type);
+ return FamilyAccessible (tb, check_type);
+
+ case TypeAttributes.NestedFamANDAssem:
+ return (check_type.Assembly == tb.Assembly) &&
+ FamilyAccessible (tb, check_type);
+
+ case TypeAttributes.NestedFamORAssem:
+ return (check_type.Assembly == tb.Assembly) ||
+ FamilyAccessible (tb, check_type);
+
+ case TypeAttributes.NestedAssembly:
+ return check_type.Assembly == tb.Assembly;
+ }
+
+ Console.WriteLine ("HERE: " + check_attr);
+ return false;
+
+ }
+
+ protected bool FamilyAccessible (TypeBuilder tb, Type check_type)
+ {
+ Type declaring = check_type.DeclaringType;
+ if (tb.IsSubclassOf (declaring))
+ return true;
+
+ string check_type_name = check_type.FullName;
+
+ int cio = check_type_name.LastIndexOf ('+');
+ string container = check_type_name.Substring (0, cio);
+
+ //
+ // Check if the check_type is a nested class of the current type
+ //
+ if (check_type_name.StartsWith (container + "+"))
+ return true;
+
+ return false;
+ }
+
+ // Access level of a type.
+ const int X = 1;
+ enum AccessLevel { // Each column represents `is this scope larger or equal to Blah scope'
+ // Public Assembly Protected
+ Protected = (0 << 0) | (0 << 1) | (X << 2),
+ Public = (X << 0) | (X << 1) | (X << 2),
+ Private = (0 << 0) | (0 << 1) | (0 << 2),
+ Internal = (0 << 0) | (X << 1) | (0 << 2),
+ ProtectedOrInternal = (0 << 0) | (X << 1) | (X << 2),
+ }
+
+ static AccessLevel GetAccessLevelFromModifiers (int flags)
+ {
+ if ((flags & Modifiers.INTERNAL) != 0) {
+
+ if ((flags & Modifiers.PROTECTED) != 0)
+ return AccessLevel.ProtectedOrInternal;
+ else
+ return AccessLevel.Internal;
+
+ } else if ((flags & Modifiers.PROTECTED) != 0)
+ return AccessLevel.Protected;
+ else if ((flags & Modifiers.PRIVATE) != 0)
+ return AccessLevel.Private;
+ else
+ return AccessLevel.Public;
+ }
+
+ // What is the effective access level of this?
+ // TODO: Cache this?
+ AccessLevel EffectiveAccessLevel {
+ get {
+ AccessLevel myAccess = GetAccessLevelFromModifiers (ModFlags);
+ if (!IsTopLevel && (Parent != null))
+ return myAccess & Parent.EffectiveAccessLevel;
+ return myAccess;
+ }
+ }
- case TypeAttributes.NestedFamANDAssem:
- return (check_type.Assembly == TypeBuilder.Assembly) &&
- FamilyAccessible (check_type);
+ // Return the access level for type `t'
+ static AccessLevel TypeEffectiveAccessLevel (Type t)
+ {
+ if (t.IsPublic)
+ return AccessLevel.Public;
+ if (t.IsNestedPrivate)
+ return AccessLevel.Private;
+ if (t.IsNotPublic)
+ return AccessLevel.Internal;
- case TypeAttributes.NestedFamORAssem:
- return (check_type.Assembly == TypeBuilder.Assembly) ||
- FamilyAccessible (check_type);
+ // By now, it must be nested
+ AccessLevel parentLevel = TypeEffectiveAccessLevel (t.DeclaringType);
- case TypeAttributes.NestedAssembly:
- return check_type.Assembly == TypeBuilder.Assembly;
- }
+ if (t.IsNestedPublic)
+ return parentLevel;
+ if (t.IsNestedAssembly)
+ return parentLevel & AccessLevel.Internal;
+ if (t.IsNestedFamily)
+ return parentLevel & AccessLevel.Protected;
+ if (t.IsNestedFamORAssem)
+ return parentLevel & AccessLevel.ProtectedOrInternal;
+ if (t.IsNestedFamANDAssem)
+ throw new NotImplementedException ("NestedFamANDAssem not implemented, cant make this kind of type from c# anyways");
- Console.WriteLine ("HERE: " + check_attr);
- return false;
+ // nested private is taken care of
+ throw new Exception ("I give up, what are you?");
}
- protected bool FamilyAccessible (Type check_type)
+ //
+ // This answers `is the type P, as accessible as a member M which has the
+ // accessability @flags which is declared as a nested member of the type T, this declspace'
+ //
+ public bool AsAccessible (Type p, int flags)
{
- Type declaring = check_type.DeclaringType;
- if (TypeBuilder.IsSubclassOf (declaring))
- return true;
+ if (p.IsGenericParameter)
+ return true; // FIXME
- string check_type_name = check_type.FullName;
- string type_name = TypeBuilder.FullName;
-
- int cio = check_type_name.LastIndexOf ("+");
- string container = check_type_name.Substring (0, cio);
-
//
- // Check if the check_type is a nested class of the current type
+ // 1) if M is private, its accessability is the same as this declspace.
+ // we already know that P is accessible to T before this method, so we
+ // may return true.
//
- if (check_type_name.StartsWith (container + "+"))
+
+ if ((flags & Modifiers.PRIVATE) != 0)
return true;
- return false;
+ while (p.IsArray || p.IsPointer || p.IsByRef)
+ p = TypeManager.GetElementType (p);
+
+ AccessLevel pAccess = TypeEffectiveAccessLevel (p);
+ AccessLevel mAccess = this.EffectiveAccessLevel &
+ GetAccessLevelFromModifiers (flags);
+
+ // for every place from which we can access M, we must
+ // be able to access P as well. So, we want
+ // For every bit in M and P, M_i -> P_1 == true
+ // or, ~ (M -> P) == 0 <-> ~ ( ~M | P) == 0
+
+ return ~ (~ mAccess | pAccess) == 0;
}
- static DoubleHash dh = new DoubleHash ();
+ static DoubleHash dh = new DoubleHash (1000);
+
+ Type DefineTypeAndParents (DeclSpace tc)
+ {
+ DeclSpace container = tc.Parent;
+
+ if (container.TypeBuilder == null && container.Name != "")
+ DefineTypeAndParents (container);
+ return tc.DefineType ();
+ }
+
Type LookupInterfaceOrClass (string ns, string name, out bool error)
{
DeclSpace parent;
error = false;
if (dh.Lookup (ns, name, out r))
- t = (Type) r;
+ return (Type) r;
else {
if (ns != ""){
if (Namespace.IsNamespace (ns)){
t = TypeManager.LookupType (name);
}
- if (t != null)
+ if (t != null) {
+ dh.Insert (ns, name, t);
return t;
+ }
//
// In case we are fed a composite name, normalize it.
}
parent = RootContext.Tree.LookupByNamespace (ns, name);
- if (parent == null)
+ if (parent == null) {
+ dh.Insert (ns, name, null);
return null;
+ }
- t = parent.DefineType ();
- dh.Insert (ns, name, t);
+ t = DefineTypeAndParents (parent);
if (t == null){
- Report.Error (146, Location, "Class definition is circular: `" + MakeFQN (ns, name) + "'");
error = true;
return null;
}
+
+ dh.Insert (ns, name, t);
return t;
}
- public static void Error_AmbiguousTypeReference (Location loc, string name, Type t1, Type t2)
+ public static void Error_AmbiguousTypeReference (Location loc, string name, string t1, string t2)
{
Report.Error (104, loc,
- String.Format ("`{0}' is an ambiguous reference ({1} or {2}) ", name,
- t1.FullName, t2.FullName));
+ "`{0}' is an ambiguous reference ({1} or {2})",
+ name, t1, t2);
+ }
+
+ public Type FindNestedType (Location loc, string name,
+ out DeclSpace containing_ds)
+ {
+ Type t;
+ bool error;
+
+ containing_ds = this;
+ while (containing_ds != null){
+ Type container_type = containing_ds.TypeBuilder;
+ Type current_type = container_type;
+
+ while (current_type != null && current_type != TypeManager.object_type) {
+ string pre = current_type.FullName;
+
+ t = LookupInterfaceOrClass (pre, name, out error);
+ if (error)
+ return null;
+
+ if ((t != null) && containing_ds.CheckAccessLevel (t))
+ return t;
+
+ current_type = current_type.BaseType;
+ }
+ containing_ds = containing_ds.Parent;
+ }
+
+ return null;
}
/// <summary>
Type container_type = containing_ds.TypeBuilder;
Type current_type = container_type;
- while (current_type != null) {
+ while (current_type != null && current_type != TypeManager.object_type) {
string pre = current_type.FullName;
t = LookupInterfaceOrClass (pre, name, out error);
if (error)
return null;
-
+
if ((t != null) && containing_ds.CheckAccessLevel (t))
return t;
t = LookupInterfaceOrClass (ns.FullName, name, out error);
if (error)
return null;
-
- if (t != null)
+
+ if (t != null)
return t;
}
if (t != null)
return t;
+ if (name.IndexOf ('.') > 0)
+ continue;
+
+ IAlias alias_value = ns.LookupAlias (name);
+ if (alias_value != null) {
+ t = LookupInterfaceOrClass ("", alias_value.Name, out error);
+ if (error)
+ return null;
+
+ if (t != null)
+ return t;
+ }
+
//
// Now check the using clause list
//
if (error)
return null;
- if (match != null){
+ if (match != null) {
if (t != null){
if (CheckAccessLevel (match)) {
- Error_AmbiguousTypeReference (loc, name, t, match);
+ Error_AmbiguousTypeReference (loc, name, t.FullName, match.FullName);
return null;
}
continue;
get;
}
+ public override void ApplyAttributeBuilder (Attribute a, CustomAttributeBuilder cb)
+ {
+ try {
+ TypeBuilder.SetCustomAttribute (cb);
+ } catch (System.ArgumentException e) {
+ Report.Warning (-21, a.Location,
+ "The CharSet named property on StructLayout\n"+
+ "\tdoes not work correctly on Microsoft.NET\n"+
+ "\tYou might want to remove the CharSet declaration\n"+
+ "\tor compile using the Mono runtime instead of the\n"+
+ "\tMicrosoft .NET runtime\n"+
+ "\tThe runtime gave the error: " + e);
+ }
+ }
+
+ /// <summary>
+ /// Goes through class hierarchy and get value of first CLSCompliantAttribute that found.
+ /// If no is attribute exists then return assembly CLSCompliantAttribute.
+ /// </summary>
+ public bool GetClsCompliantAttributeValue ()
+ {
+ if ((caching_flags & Flags.HasCompliantAttribute_Undetected) == 0)
+ return (caching_flags & Flags.ClsCompliantAttributeTrue) != 0;
+
+ caching_flags &= ~Flags.HasCompliantAttribute_Undetected;
+
+ if (OptAttributes != null) {
+ EmitContext ec = new EmitContext (parent, this, Location,
+ null, null, ModFlags, false);
+ Attribute cls_attribute = OptAttributes.GetClsCompliantAttribute (ec);
+ if (cls_attribute != null) {
+ caching_flags |= Flags.HasClsCompliantAttribute;
+ if (cls_attribute.GetClsCompliantAttributeValue (this)) {
+ caching_flags |= Flags.ClsCompliantAttributeTrue;
+ return true;
+ }
+ return false;
+ }
+ }
+
+ if (parent == null) {
+ if (CodeGen.Assembly.IsClsCompliant) {
+ caching_flags |= Flags.ClsCompliantAttributeTrue;
+ return true;
+ }
+ return false;
+ }
+
+ if (parent.GetClsCompliantAttributeValue ()) {
+ caching_flags |= Flags.ClsCompliantAttributeTrue;
+ return true;
+ }
+ return false;
+ }
+
+
+ // Tests container name for CLS-Compliant name (differing only in case)
+ // Possible optimalization: search in same namespace only
+ protected override bool IsIdentifierClsCompliant (DeclSpace ds)
+ {
+ int l = Name.Length;
+
+ if (Namespace.LookupNamespace (NamespaceEntry.FullName, false) != null) {
+ // Seek through all imported types
+ foreach (string type_name in TypeManager.all_imported_types.Keys)
+ {
+ if (l != type_name.Length)
+ continue;
+
+ if (String.Compare (Name, type_name, true, CultureInfo.InvariantCulture) == 0 &&
+ AttributeTester.IsClsCompliant (TypeManager.all_imported_types [type_name] as Type)) {
+ Report.SymbolRelatedToPreviousError ((Type)TypeManager.all_imported_types [type_name]);
+ return false;
+ }
+ }
+ }
+
+ // Seek through generated types
+ foreach (string name in RootContext.Tree.Decls.Keys) {
+ if (l != name.Length)
+ continue;
+
+ if (String.Compare (Name, name, true, CultureInfo.InvariantCulture) == 0) {
+
+ if (Name == name)
+ continue;
+
+ DeclSpace found_ds = RootContext.Tree.Decls[name] as DeclSpace;
+ if (found_ds.IsClsCompliaceRequired (found_ds.Parent)) {
+ Report.SymbolRelatedToPreviousError (found_ds.Location, found_ds.GetSignatureForError ());
+ return false;
+ }
+ }
+ }
+
+ return true;
+ }
+
//
// Extensions for generics
//
- ArrayList type_parameter_list;
+ TypeParameter[] type_params;
+ TypeParameter[] type_param_list;
- ///
- /// Called by the parser to configure the type_parameter_list for this
- /// declaration space
- ///
- public AdditionResult SetParameterInfo (ArrayList type_parameter_list, object constraints)
+ protected string GetInstantiationName ()
{
- this.type_parameter_list = type_parameter_list;
+ StringBuilder sb = new StringBuilder (Name);
+ sb.Append ("<");
+ for (int i = 0; i < type_param_list.Length; i++) {
+ if (i > 0)
+ sb.Append (",");
+ sb.Append (type_param_list [i].Name);
+ }
+ sb.Append (">");
+ return sb.ToString ();
+ }
+
+ 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;
+
+ if (RootContext.WarningLevel >= 3)
+ Report.Warning (
+ 693, Location,
+ "Type parameter `{0}' has same name " +
+ "as type parameter from outer type `{1}'",
+ name, parent.GetInstantiationName ());
+
+ return false;
+ }
+
+ return true;
+ }
+
+ TypeParameter[] initialize_type_params ()
+ {
+ if (type_param_list != null)
+ return type_param_list;
+
+ DeclSpace the_parent = parent;
+ if (this is GenericMethod)
+ the_parent = null;
+
+ int start = 0;
+ TypeParameter[] parent_params = null;
+ if ((the_parent != null) && the_parent.IsGeneric) {
+ parent_params = the_parent.initialize_type_params ();
+ start = parent_params != null ? parent_params.Length : 0;
+ }
+
+ ArrayList list = new ArrayList ();
+ if (parent_params != null)
+ 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);
+ }
+
+ type_param_list = new TypeParameter [list.Count];
+ list.CopyTo (type_param_list, 0);
+ return type_param_list;
+ }
+
+ public AdditionResult SetParameterInfo (ArrayList constraints_list)
+ {
+ if (!is_generic) {
+ if (constraints_list != null) {
+ Report.Error (
+ 80, Location, "Contraints are not allowed " +
+ "on non-generic declarations");
+ return AdditionResult.Error;
+ }
+
+ return AdditionResult.Success;
+ }
+
+ type_params = new TypeParameter [MemberName.TypeParameters.Length];
- //
- // Mark this type as Generic
- //
- IsGeneric = true;
-
//
// Register all the names
//
- foreach (string type_parameter in type_parameter_list){
- AdditionResult res = IsValid (type_parameter, type_parameter);
+ for (int i = 0; i < MemberName.TypeParameters.Length; i++) {
+ string name = MemberName.TypeParameters [i];
+
+ AdditionResult res = IsValid (name, name);
if (res != AdditionResult.Success)
return res;
- DefineName (type_parameter, GetGenericData ());
+ Constraints constraints = null;
+ if (constraints_list != null) {
+ foreach (Constraints constraint in constraints_list) {
+ if (constraint.TypeParameter == name) {
+ constraints = constraint;
+ break;
+ }
+ }
+ }
+
+ type_params [i] = new TypeParameter (name, constraints, Location);
+
+ DefineName (name, type_params [i]);
}
return AdditionResult.Success;
}
- //
- // This is just something to flag the defined names for now
- //
- const int GENERIC_COOKIE = 20;
- static object generic_flag = GENERIC_COOKIE;
-
- static object GetGenericData ()
- {
- return generic_flag;
+ public TypeParameter[] TypeParameters {
+ get {
+ if (!IsGeneric)
+ throw new InvalidOperationException ();
+ if (type_param_list == null)
+ initialize_type_params ();
+
+ return type_param_list;
+ }
}
-
- /// <summary>
- /// Returns a GenericTypeExpr if `name' refers to a type parameter
- /// </summary>
- public TypeParameterExpr LookupGeneric (string name, Location l)
+
+ protected TypeParameter[] CurrentTypeParameters {
+ get {
+ if (!IsGeneric)
+ throw new InvalidOperationException ();
+ if (type_params != null)
+ return type_params;
+ else
+ return new TypeParameter [0];
+ }
+ }
+
+ public int CountTypeParameters {
+ get {
+ return count_type_params;
+ }
+ }
+
+ public TypeParameterExpr LookupGeneric (string name, Location loc)
{
- foreach (string type_parameter in type_parameter_list){
- Console.WriteLine (" trying: " + type_parameter);
- if (name == type_parameter)
- return new TypeParameterExpr (name, l);
+ if (!IsGeneric)
+ return null;
+
+ foreach (TypeParameter type_param in CurrentTypeParameters) {
+ if (type_param.Name != name)
+ continue;
+
+ return new TypeParameterExpr (type_param, loc);
}
+ if (parent != null)
+ return parent.LookupGeneric (name, loc);
+
return null;
}
+
+ bool IAlias.IsType {
+ get { return true; }
+ }
+
+ string IAlias.Name {
+ get { return Name; }
+ }
+
+ TypeExpr IAlias.Type
+ {
+ get {
+ if (TypeBuilder == null)
+ throw new InvalidOperationException ();
+
+ if (CurrentType != null)
+ return CurrentType;
+
+ return new TypeExpression (TypeBuilder, Location);
+ }
+ }
+
+ protected override string[] ValidAttributeTargets {
+ get {
+ return attribute_targets;
+ }
+ }
}
/// <summary>
public readonly IMemberContainer Container;
protected Hashtable member_hash;
protected Hashtable method_hash;
- protected Hashtable interface_hash;
-
+
/// <summary>
/// Create a new MemberCache for the given IMemberContainer `container'.
/// </summary>
Timer.IncrementCounter (CounterType.MemberCache);
Timer.StartTimer (TimerType.CacheInit);
- interface_hash = new Hashtable ();
+
// If we have a parent class (we have a parent class unless we're
// TypeManager.object_type), we deep-copy its MemberCache here.
- if (Container.Parent != null) {
+ if (Container.IsInterface) {
+ MemberCache parent;
+
+ if (Container.Parent != null)
+ parent = Container.Parent.MemberCache;
+ else
+ parent = TypeHandle.ObjectType.MemberCache;
+ member_hash = SetupCacheForInterface (parent);
+ } else if (Container.Parent != null)
member_hash = SetupCache (Container.Parent.MemberCache);
- } else if (Container.IsInterface)
- member_hash = SetupCacheForInterface ();
else
member_hash = new Hashtable ();
// If this is neither a dynamic type nor an interface, create a special
// method cache with all declared and inherited methods.
Type type = container.Type;
- if (!(type is TypeBuilder) && !type.IsInterface) {
+ if (!(type is TypeBuilder) && !type.IsInterface && !type.IsGenericParameter) {
method_hash = new Hashtable ();
AddMethods (type);
}
return hash;
}
- void AddInterfaces (MemberCache parent)
- {
- foreach (Type iface in parent.interface_hash.Keys) {
- if (!interface_hash.Contains (iface))
- interface_hash.Add (iface, true);
- }
- }
/// <summary>
/// Add the contents of `new_hash' to `hash'.
/// </summary>
- void AddHashtable (Hashtable hash, Hashtable new_hash)
+ void AddHashtable (Hashtable hash, MemberCache cache)
{
+ Hashtable new_hash = cache.member_hash;
IDictionaryEnumerator it = new_hash.GetEnumerator ();
while (it.MoveNext ()) {
ArrayList list = (ArrayList) hash [it.Key];
- if (list != null)
- list.AddRange ((ArrayList) it.Value);
- else
- hash [it.Key] = ((ArrayList) it.Value).Clone ();
+ if (list == null)
+ hash [it.Key] = list = new ArrayList ();
+
+ foreach (CacheEntry entry in (ArrayList) it.Value) {
+ if (entry.Container != cache.Container)
+ break;
+ list.Add (entry);
+ }
}
}
/// Type.GetMembers() won't return any inherited members for interface types,
/// so we need to do this manually. Interfaces also inherit from System.Object.
/// </summary>
- Hashtable SetupCacheForInterface ()
+ Hashtable SetupCacheForInterface (MemberCache parent)
{
- Hashtable hash = SetupCache (TypeHandle.ObjectType.MemberCache);
- Type [] ifaces = TypeManager.GetInterfaces (Container.Type);
+ Hashtable hash = SetupCache (parent);
+ TypeExpr [] ifaces = TypeManager.GetInterfaces (Container.Type);
- foreach (Type iface in ifaces) {
- if (interface_hash.Contains (iface))
- continue;
- interface_hash.Add (iface, true);
+ foreach (TypeExpr iface in ifaces) {
+ Type itype = iface.Type;
IMemberContainer iface_container =
- TypeManager.LookupMemberContainer (iface);
+ TypeManager.LookupMemberContainer (itype);
MemberCache iface_cache = iface_container.MemberCache;
- AddHashtable (hash, iface_cache.member_hash);
- AddInterfaces (iface_cache);
+
+ AddHashtable (hash, iface_cache);
}
return hash;
void AddMembers (MemberTypes mt, BindingFlags bf, IMemberContainer container)
{
MemberList members = container.GetMembers (mt, bf);
- BindingFlags new_bf = (container == Container) ?
- bf | BindingFlags.DeclaredOnly : bf;
foreach (MemberInfo member in members) {
string name = member.Name;
+ int pos = name.IndexOf ('<');
+ if (pos > 0)
+ name = name.Substring (0, pos);
+
// We use a name-based hash table of ArrayList's.
ArrayList list = (ArrayList) member_hash [name];
if (list == null) {
{
MemberInfo [] members = type.GetMethods (bf);
+ Array.Reverse (members);
+
foreach (MethodBase member in members) {
string name = member.Name;
ArrayList global = new ArrayList ();
bool using_global = false;
- public MemberList FindMembers (MemberTypes mt, BindingFlags bf, string name,
+ static MemberInfo [] emptyMemberInfo = new MemberInfo [0];
+
+ public MemberInfo [] FindMembers (MemberTypes mt, BindingFlags bf, string name,
MemberFilter filter, object criteria)
{
if (using_global)
applicable = (ArrayList) method_hash [name];
else
applicable = (ArrayList) member_hash [name];
-
+
if (applicable == null)
- return MemberList.Empty;
+ return emptyMemberInfo;
//
// 32 slots gives 53 rss/54 size
IMemberContainer current = Container;
+
// `applicable' is a list of all members with the given member name `name'
// in the current class and all its parent classes. The list is sorted in
// reverse order due to the way how the cache is initialy created (to speed
using_global = false;
MemberInfo [] copy = new MemberInfo [global.Count];
global.CopyTo (copy);
- return new MemberList (copy);
+ return copy;
+ }
+
+ //
+ // This finds the method or property for us to override. invocationType is the type where
+ // the override is going to be declared, name is the name of the method/property, and
+ // paramTypes is the parameters, if any to the method or property
+ //
+ // Because the MemberCache holds members from this class and all the base classes,
+ // we can avoid tons of reflection stuff.
+ //
+ public MemberInfo FindMemberToOverride (Type invocationType, string name, Type [] paramTypes, bool is_property)
+ {
+ ArrayList applicable;
+ if (method_hash != null && !is_property)
+ applicable = (ArrayList) method_hash [name];
+ else
+ applicable = (ArrayList) member_hash [name];
+
+ if (applicable == null)
+ return null;
+ //
+ // Walk the chain of methods, starting from the top.
+ //
+ for (int i = applicable.Count - 1; i >= 0; i--) {
+ CacheEntry entry = (CacheEntry) applicable [i];
+
+ if ((entry.EntryType & (is_property ? (EntryType.Property | EntryType.Field) : EntryType.Method)) == 0)
+ continue;
+
+ PropertyInfo pi = null;
+ MethodInfo mi = null;
+ FieldInfo fi = null;
+ Type [] cmpAttrs = null;
+
+ 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);
+ //cmpAttrs = new Type[] { fb.MemberType };
+ } else {
+ pi = (PropertyInfo) entry.Member;
+ cmpAttrs = TypeManager.GetArgumentTypes (pi);
+ }
+ } else {
+ mi = (MethodInfo) entry.Member;
+ cmpAttrs = TypeManager.GetArgumentTypes (mi);
+ }
+
+ if (fi != null) {
+ // TODO: Almost duplicate !
+ // Check visibility
+ switch (fi.Attributes & FieldAttributes.FieldAccessMask) {
+ case FieldAttributes.Private:
+ //
+ // A private method is Ok if we are a nested subtype.
+ // The spec actually is not very clear about this, see bug 52458.
+ //
+ if (invocationType != entry.Container.Type &
+ TypeManager.IsNestedChildOf (invocationType, entry.Container.Type))
+ continue;
+
+ break;
+ case FieldAttributes.FamANDAssem:
+ case FieldAttributes.Assembly:
+ //
+ // Check for assembly methods
+ //
+ if (mi.DeclaringType.Assembly != CodeGen.Assembly.Builder)
+ continue;
+ break;
+ }
+ return entry.Member;
+ }
+
+ //
+ // Check the arguments
+ //
+ if (cmpAttrs.Length != paramTypes.Length)
+ continue;
+
+ for (int j = cmpAttrs.Length - 1; j >= 0; j --) {
+ if (!paramTypes [j].Equals (cmpAttrs [j]))
+ goto next;
+ }
+
+ //
+ // get one of the methods because this has the visibility info.
+ //
+ if (is_property) {
+ mi = pi.GetGetMethod (true);
+ if (mi == null)
+ mi = pi.GetSetMethod (true);
+ }
+
+ //
+ // Check visibility
+ //
+ switch (mi.Attributes & MethodAttributes.MemberAccessMask) {
+ case MethodAttributes.Private:
+ //
+ // A private method is Ok if we are a nested subtype.
+ // The spec actually is not very clear about this, see bug 52458.
+ //
+ if (invocationType == entry.Container.Type ||
+ TypeManager.IsNestedChildOf (invocationType, entry.Container.Type))
+ return entry.Member;
+
+ break;
+ case MethodAttributes.FamANDAssem:
+ case MethodAttributes.Assembly:
+ //
+ // Check for assembly methods
+ //
+ if (mi.DeclaringType.Assembly == CodeGen.Assembly.Builder)
+ return entry.Member;
+
+ break;
+ default:
+ //
+ // A protected method is ok, because we are overriding.
+ // public is always ok.
+ //
+ return entry.Member;
+ }
+ next:
+ ;
+ }
+
+ return null;
}
}
}