}
public override string TypeParameter {
- get { return name; }
+ get {
+ return name;
+ }
}
public Constraints Clone ()
foreach (object obj in constraints) {
if (HasConstructorConstraint) {
Report.Error (401, loc,
- "The new() constraint must be last.");
+ "The new() constraint must be the last constraint specified");
return false;
}
continue;
}
- Report.Error (
- 451, loc, "The new () constraint " +
- "cannot be used with the `struct' " +
- "constraint.");
+ Report.Error (451, loc, "The `new()' constraint " +
+ "cannot be used with the `struct' constraint");
return false;
}
if ((num_constraints > 0) || HasReferenceTypeConstraint || HasValueTypeConstraint) {
- Report.Error (449, loc,
- "The `class' or `struct' " +
- "constraint must be first");
+ Report.Error (449, loc, "The `class' or `struct' " +
+ "constraint must be the first constraint specified");
return false;
}
if (errors != Report.Errors)
return false;
- Report.Error (246, loc, "Cannot find type '{0}'", ((Expression) obj).GetSignatureForError ());
+ NamespaceEntry.Error_NamespaceNotFound (loc, ((Expression)obj).GetSignatureForError ());
return false;
}
expr = cexpr;
} else
- expr = fn.ResolveAsTypeTerminal (ec, false);
+ expr = ((Expression) obj).ResolveAsTypeTerminal (ec, false);
if ((expr == null) || (expr.Type == null))
return false;
+ // TODO: It's aleady done in ResolveAsBaseTerminal
+ if (!ec.GenericDeclContainer.AsAccessible (fn.Type, ec.GenericDeclContainer.ModFlags)) {
+ Report.SymbolRelatedToPreviousError (fn.Type);
+ Report.Error (703, loc,
+ "Inconsistent accessibility: constraint type `{0}' is less accessible than `{1}'",
+ fn.GetSignatureForError (), ec.GenericDeclContainer.GetSignatureForError ());
+ return false;
+ }
+
TypeParameterExpr texpr = expr as TypeParameterExpr;
if (texpr != null)
type_param_constraints.Add (expr);
} else if (HasReferenceTypeConstraint || HasValueTypeConstraint) {
Report.Error (450, loc, "`{0}': cannot specify both " +
"a constraint class and the `class' " +
- "or `struct' constraint.", expr.Name);
+ "or `struct' constraint", expr.GetSignatureForError ());
return false;
} else
class_constraint = expr;
return false;
if (class_constraint_type.IsSealed) {
- Report.Error (701, loc,
- "`{0}' is not a valid bound. Bounds " +
- "must be interfaces or non sealed " +
- "classes", TypeManager.CSharpName (class_constraint_type));
+ if (class_constraint_type.IsAbstract)
+ {
+ Report.Error (717, loc, "`{0}' is not a valid constraint. Static classes cannot be used as constraints",
+ TypeManager.CSharpName (class_constraint_type));
+ }
+ else
+ {
+ Report.Error (701, loc, "`{0}' is not a valid constraint. A constraint must be an interface, " +
+ "a non-sealed class or a type parameter", TypeManager.CSharpName(class_constraint_type));
+ }
return false;
}
return false;
}
+ public Location Location {
+ get {
+ return loc;
+ }
+ }
+
/// <summary>
/// This is used when we're implementing a generic interface method.
/// Each method type parameter in implementing method must have the same
return true;
}
+
+ public void VerifyClsCompliance ()
+ {
+ if (class_constraint_type != null && !AttributeTester.IsClsCompliant (class_constraint_type))
+ Warning_ConstrainIsNotClsCompliant (class_constraint_type, class_constraint.Location);
+
+ if (iface_constraint_types != null) {
+ for (int i = 0; i < iface_constraint_types.Length; ++i) {
+ if (!AttributeTester.IsClsCompliant (iface_constraint_types [i]))
+ Warning_ConstrainIsNotClsCompliant (iface_constraint_types [i],
+ ((TypeExpr)iface_constraints [i]).Location);
+ }
+ }
+ }
+
+ void Warning_ConstrainIsNotClsCompliant (Type t, Location loc)
+ {
+ Report.SymbolRelatedToPreviousError (t);
+ Report.Warning (3024, 1, loc, "Constraint type `{0}' is not CLS-compliant",
+ TypeManager.CSharpName (t));
+ }
}
/// <summary>
}
public GenericConstraints GenericConstraints {
- get {
- return gc != null ? gc : constraints;
- }
+ get { return gc != null ? gc : constraints; }
}
public Constraints Constraints {
- get {
- return constraints;
- }
+ get { return constraints; }
}
public bool HasConstructorConstraint {
- get {
- if (constraints != null)
- return constraints.HasConstructorConstraint;
-
- return false;
- }
+ get { return constraints != null && constraints.HasConstructorConstraint; }
}
public DeclSpace DeclSpace {
- get {
- return decl;
- }
+ get { return decl; }
}
public Type Type {
- get {
- return type;
- }
- }
-
- // FIXME: This should be removed once we fix the handling of RootContext.Tree.Types
- public override DeclSpace DeclContainer {
- get { return DeclSpace; }
+ get { return type; }
}
/// <summary>
if (implementing != null) {
if (is_override && (constraints != null)) {
- Report.Error (
- 460, loc, "Constraints for override and " +
- "explicit interface implementation methods " +
- "are inherited from the base method so they " +
- "cannot be specified directly");
+ Report.Error (460, loc,
+ "`{0}': Cannot specify constraints for overrides or explicit interface implementation methods",
+ TypeManager.CSharpSignature (builder));
return false;
}
return s.ToString ();
}
+ public string GetSignatureForError()
+ {
+ StringBuilder sb = new StringBuilder();
+ for (int i = 0; i < Count; ++i)
+ {
+ Expression expr = (Expression)args [i];
+ sb.Append(expr.GetSignatureForError());
+ if (i + 1 < Count)
+ sb.Append(',');
+ }
+ return sb.ToString();
+ }
+
/// <summary>
/// Resolve the type arguments.
/// </summary>
if (te is TypeParameterExpr)
has_type_args = true;
+#if !MS_COMPATIBLE
+ if (te.Type.IsSealed && te.Type.IsAbstract) {
+ Report.Error (718, Location, "`{0}': static classes cannot be used as generic arguments",
+ te.GetSignatureForError ());
+ return false;
+ }
+#endif
if (te.Type.IsPointer) {
Report.Error (306, Location, "The type `{0}' may not be used " +
- "as a type argument.", TypeManager.CSharpName (te.Type));
+ "as a type argument", TypeManager.CSharpName (te.Type));
return false;
- } else if (te.Type == TypeManager.void_type) {
- Report.Error (1547, Location,
- "Keyword `void' cannot be used in this context");
+ }
+
+ if (te.Type == TypeManager.void_type) {
+ Expression.Error_VoidInvalidInTheContext (Location);
return false;
}
public override string GetSignatureForError ()
{
- return TypeManager.CSharpName (gt);
+ return TypeManager.RemoveGenericArity (gt.FullName) + "<" + args.GetSignatureForError () + ">";
}
protected override TypeExpr DoResolveAsTypeStep (IResolveContext ec)
public override bool AsAccessible (DeclSpace ds, int flags)
{
+ foreach (Type t in atypes) {
+ if (!ds.AsAccessible (t, flags))
+ return false;
+ }
+
return ds.AsAccessible (gt, flags);
}
}
}
-
public override string FullName {
get {
return full_name;
if (agc != null) {
if (agc is Constraints)
((Constraints) agc).Resolve (ec);
- is_class = agc.HasReferenceTypeConstraint;
- is_struct = agc.HasValueTypeConstraint;
+ is_class = agc.IsReferenceType;
+ is_struct = agc.IsValueType;
} else {
is_class = is_struct = false;
}
/// Define and resolve the type parameters.
/// We're called from Method.Define().
/// </summary>
- public bool Define (MethodBuilder mb)
+ public bool Define (MethodBuilder mb, ToplevelBlock block)
{
- GenericTypeParameterBuilder[] gen_params;
TypeParameterName[] names = MemberName.TypeArguments.GetDeclarations ();
string[] snames = new string [names.Length];
- for (int i = 0; i < names.Length; i++)
- snames [i] = names [i].Name;
- gen_params = mb.DefineGenericParameters (snames);
+ for (int i = 0; i < names.Length; i++) {
+ string type_argument_name = names[i].Name;
+ Parameter p = parameters.GetParameterByName (type_argument_name);
+ if (p != null) {
+ Error_ParameterNameCollision (p.Location, type_argument_name, "method parameter");
+ return false;
+ }
+ if (block != null) {
+ LocalInfo li = (LocalInfo)block.Variables[type_argument_name];
+ if (li != null) {
+ Error_ParameterNameCollision (li.Location, type_argument_name, "local variable");
+ return false;
+ }
+ }
+ snames[i] = type_argument_name;
+ }
+
+ GenericTypeParameterBuilder[] gen_params = mb.DefineGenericParameters (snames);
for (int i = 0; i < TypeParameters.Length; i++)
TypeParameters [i].Define (gen_params [i]);
return true;
}
+ static void Error_ParameterNameCollision (Location loc, string name, string collisionWith)
+ {
+ Report.Error (412, loc, "The type parameter name `{0}' is the same as `{1}'",
+ name, collisionWith);
+ }
+
/// <summary>
/// We're called from MethodData.Define() after creating the MethodBuilder.
/// </summary>
}
}
- public override void ApplyAttributeBuilder (Attribute a, CustomAttributeBuilder cb)
- {
- base.ApplyAttributeBuilder (a, cb);
- }
-
public override AttributeTargets AttributeTargets {
get {
return AttributeTargets.Method | AttributeTargets.ReturnValue;
public override string DocCommentHeader {
get { return "M:"; }
}
+
+ public new void VerifyClsCompliance ()
+ {
+ foreach (TypeParameter tp in TypeParameters) {
+ if (tp.Constraints == null)
+ continue;
+
+ tp.Constraints.VerifyClsCompliance ();
+ }
+ }
}
public class DefaultValueExpression : Expression
type = texpr.Type;
+ if (type == TypeManager.void_type) {
+ Error_VoidInvalidInTheContext (loc);
+ return null;
+ }
+
+ if (type.IsGenericParameter)
+ {
+ GenericConstraints constraints = TypeManager.GetTypeParameterConstraints(type);
+ if (constraints != null && constraints.IsReferenceType)
+ return new NullDefault (new NullLiteral (Location), type);
+ }
+ else
+ {
+ Constant c = New.Constantify(type);
+ if (c != null)
+ return new NullDefault (c, type);
+
+ if (!TypeManager.IsValueType (type))
+ return new NullDefault (new NullLiteral (Location), type);
+ }
eclass = ExprClass.Variable;
return this;
}
public override void Emit (EmitContext ec)
{
- if (type.IsGenericParameter || TypeManager.IsValueType (type)) {
- LocalTemporary temp_storage = new LocalTemporary (type);
+ LocalTemporary temp_storage = new LocalTemporary(type);
- temp_storage.AddressOf (ec, AddressOp.LoadStore);
- ec.ig.Emit (OpCodes.Initobj, type);
- temp_storage.Emit (ec);
- } else
- ec.ig.Emit (OpCodes.Ldnull);
+ temp_storage.AddressOf(ec, AddressOp.LoadStore);
+ ec.ig.Emit(OpCodes.Initobj, type);
+ temp_storage.Emit(ec);
}
}
static public Type generic_ienumerable_type;
static public Type generic_nullable_type;
- // <remarks>
- // Tracks the generic parameters.
- // </remarks>
- static PtrHashtable builder_to_type_param;
-
//
// These methods are called by code generated by the compiler
//
static public MethodInfo activator_create_instance;
- static void InitGenerics ()
- {
- builder_to_type_param = new PtrHashtable ();
- }
-
- static void CleanUpGenerics ()
- {
- builder_to_type_param = null;
- }
-
static void InitGenericCoreTypes ()
{
activator_type = CoreLookupType ("System", "Activator");
return CoreLookupType (ns, MemberName.MakeName (name, arity));
}
- public static void AddTypeParameter (Type t, TypeParameter tparam)
- {
- if (!builder_to_type_param.Contains (t))
- builder_to_type_param.Add (t, tparam);
- }
-
public static TypeContainer LookupGenericTypeContainer (Type t)
{
t = DropGenericTypeArguments (t);
return LookupTypeContainer (t);
}
- public static TypeParameter LookupTypeParameter (Type t)
- {
- return (TypeParameter) builder_to_type_param [t];
- }
-
public static GenericConstraints GetTypeParameterConstraints (Type t)
{
if (!t.IsGenericParameter)
return ReflectionConstraints.GetConstraints (t);
}
- public static bool HasGenericArguments (Type t)
- {
- return GetNumberOfTypeArguments (t) > 0;
- }
-
- public static int GetNumberOfTypeArguments (Type t)
- {
- if (t.IsGenericParameter)
- return 0;
- DeclSpace tc = LookupDeclSpace (t);
- if (tc != null)
- return tc.IsGeneric ? tc.CountTypeParameters : 0;
- else
- return t.IsGenericType ? t.GetGenericArguments ().Length : 0;
- }
-
- public static Type[] GetTypeArguments (Type t)
- {
- DeclSpace tc = LookupDeclSpace (t);
- if (tc != null) {
- if (!tc.IsGeneric)
- return Type.EmptyTypes;
-
- TypeParameter[] tparam = tc.TypeParameters;
- Type[] ret = new Type [tparam.Length];
- for (int i = 0; i < tparam.Length; i++) {
- ret [i] = tparam [i].Type;
- if (ret [i] == null)
- throw new InternalErrorException ();
- }
-
- return ret;
- } else
- return t.GetGenericArguments ();
- }
-
- public static Type DropGenericTypeArguments (Type t)
- {
- if (!t.IsGenericType)
- return t;
- // Micro-optimization: a generic typebuilder is always a generic type definition
- if (t is TypeBuilder)
- return t;
- return t.GetGenericTypeDefinition ();
- }
-
- public static MethodBase DropGenericMethodArguments (MethodBase m)
- {
- if (m.IsGenericMethodDefinition)
- return m;
- if (m.IsGenericMethod)
- return ((MethodInfo) m).GetGenericMethodDefinition ();
- if (!m.DeclaringType.IsGenericType)
- return m;
-
- Type t = m.DeclaringType.GetGenericTypeDefinition ();
- BindingFlags bf = BindingFlags.Public | BindingFlags.NonPublic |
- BindingFlags.Static | BindingFlags.Instance | BindingFlags.DeclaredOnly;
-
- if (m is ConstructorInfo) {
- foreach (ConstructorInfo c in t.GetConstructors (bf))
- if (c.MetadataToken == m.MetadataToken)
- return c;
- } else {
- foreach (MethodBase mb in t.GetMethods (bf))
- if (mb.MetadataToken == m.MetadataToken)
- return mb;
- }
-
- return m;
- }
-
- public static FieldInfo GetGenericFieldDefinition (FieldInfo fi)
- {
- if (fi.DeclaringType.IsGenericTypeDefinition ||
- !fi.DeclaringType.IsGenericType)
- return fi;
-
- Type t = fi.DeclaringType.GetGenericTypeDefinition ();
- BindingFlags bf = BindingFlags.Public | BindingFlags.NonPublic |
- BindingFlags.Static | BindingFlags.Instance | BindingFlags.DeclaredOnly;
-
- foreach (FieldInfo f in t.GetFields (bf))
- if (f.MetadataToken == fi.MetadataToken)
- return f;
-
- return fi;
- }
-
- //
- // Whether `array' is an array of T and `list' is `IList<T>'.
- // For instance "string[]" -> "IList<string>".
- //
- public static bool IsIList (Type array, Type list)
- {
- if (!array.IsArray || !list.IsGenericType)
- return false;
-
- Type gt = list.GetGenericTypeDefinition ();
- if ((gt != generic_ilist_type) && (gt != generic_icollection_type) &&
- (gt != generic_ienumerable_type))
- return false;
-
- Type[] args = GetTypeArguments (list);
- return args [0] == GetElementType (array);
- }
-
- public static bool IsEqual (Type a, Type b)
- {
- if (a.Equals (b))
- return true;
-
- if (a.IsGenericParameter && b.IsGenericParameter) {
- if (a.DeclaringMethod != b.DeclaringMethod &&
- (a.DeclaringMethod == null || b.DeclaringMethod == null))
- return false;
- return a.GenericParameterPosition == b.GenericParameterPosition;
- }
-
- if (a.IsArray && b.IsArray) {
- if (a.GetArrayRank () != b.GetArrayRank ())
- return false;
- return IsEqual (a.GetElementType (), b.GetElementType ());
- }
-
- if (a.IsByRef && b.IsByRef)
- return IsEqual (a.GetElementType (), b.GetElementType ());
-
- if (a.IsGenericType && b.IsGenericType) {
- if (a.GetGenericTypeDefinition () != b.GetGenericTypeDefinition ())
- return false;
-
- Type[] aargs = a.GetGenericArguments ();
- Type[] bargs = b.GetGenericArguments ();
-
- if (aargs.Length != bargs.Length)
- return false;
-
- for (int i = 0; i < aargs.Length; i++) {
- if (!IsEqual (aargs [i], bargs [i]))
- return false;
- }
-
- return true;
- }
-
- //
- // This is to build with the broken circular dependencies between
- // System and System.Configuration in the 2.x profile where we
- // end up with a situation where:
- //
- // System on the second build is referencing the System.Configuration
- // that has references to the first System build.
- //
- // Point in case: NameValueCollection built on the first pass, vs
- // NameValueCollection build on the second one. The problem is that
- // we need to override some methods sometimes, or we need to
- //
- if (RootContext.BrokenCircularDeps){
- if (a.Name == b.Name && a.Namespace == b.Namespace){
- Console.WriteLine ("GonziMatch: {0}.{1}", a.Namespace, a.Name);
- return true;
- }
- }
- return false;
- }
-
/// <summary>
/// Check whether `a' and `b' may become equal generic types.
/// The algorithm to do that is a little bit complicated.
return true;
}
- /// <summary>
- /// Check whether `type' and `parent' are both instantiations of the same
- /// generic type. Note that we do not check the type parameters here.
- /// </summary>
- public static bool IsInstantiationOfSameGenericType (Type type, Type parent)
- {
- int tcount = GetNumberOfTypeArguments (type);
- int pcount = GetNumberOfTypeArguments (parent);
-
- if (tcount != pcount)
- return false;
-
- type = DropGenericTypeArguments (type);
- parent = DropGenericTypeArguments (parent);
-
- return type.Equals (parent);
- }
-
- /// <summary>
- /// Whether `mb' is a generic method definition.
- /// </summary>
- public static bool IsGenericMethodDefinition (MethodBase mb)
- {
- if (mb.DeclaringType is TypeBuilder) {
- IMethodData method = (IMethodData) builder_to_method [mb];
- if (method == null)
- return false;
-
- return method.GenericMethod != null;
- }
-
- return mb.IsGenericMethodDefinition;
- }
-
- /// <summary>
- /// Whether `mb' is a generic method definition.
- /// </summary>
- public static bool IsGenericMethod (MethodBase mb)
- {
- if (mb.DeclaringType is TypeBuilder) {
- IMethodData method = (IMethodData) builder_to_method [mb];
- if (method == null)
- return false;
-
- return method.GenericMethod != null;
- }
-
- return mb.IsGenericMethod;
- }
-
//
// Type inference.
//
method = ((MethodInfo)method).MakeGenericMethod (infered_types);
return true;
}
-
- public static bool IsNullableType (Type t)
- {
- return generic_nullable_type == DropGenericTypeArguments (t);
- }
-
- public static bool IsNullableTypeOf (Type t, Type nullable)
- {
- if (!IsNullableType (t))
- return false;
-
- return GetTypeArguments (t) [0] == nullable;
- }
-
- public static bool IsNullableValueType (Type t)
- {
- if (!IsNullableType (t))
- return false;
-
- return GetTypeArguments (t) [0].IsValueType;
- }
}
public abstract class Nullable
return this;
}
- if (unwrap != null) {
- expr = Convert.ImplicitConversion (ec, unwrap, rtype, loc);
- if (expr != null) {
- left = expr;
- expr = right;
- type = expr.Type;
- return this;
- }
+ Expression left_null = unwrap != null ? unwrap : left;
+ expr = Convert.ImplicitConversion (ec, left_null, rtype, loc);
+ if (expr != null) {
+ left = expr;
+ expr = right;
+ type = rtype;
+ return this;
}
Binary.Error_OperatorCannotBeApplied (loc, "??", ltype, rtype);