// Dual licensed under the terms of the MIT X11 or GNU GPL
//
// Copyright 2010 Novell, Inc
+// Copyright 2011 Xamarin, Inc (http://www.xamarin.com)
//
using System;
namespace Mono.CSharp
{
+ //
+ // Inflated or non-inflated representation of any type.
+ //
public class TypeSpec : MemberSpec
{
protected MetaType info;
var type = this;
do {
- if (type.IsGeneric)
- return false;
-
if (type.BuiltinType == BuiltinTypeSpec.Type.Attribute)
return true;
+
+ if (type.IsGeneric)
+ return false;
type = type.base_type;
} while (type != null);
}
}
+ //
+ // Returns true for instances of System.Threading.Tasks.Task<T>
+ //
+ public virtual bool IsGenericTask {
+ get {
+ return false;
+ }
+ set {
+ state = value ? state | StateFlags.GenericTask : state & ~StateFlags.GenericTask;
+ }
+ }
+
// TODO: Should probably do
// IsGenericType -- recursive
// HasTypeParameter -- non-recursive
}
}
+ //
+ // Whether a type is unmanaged. This is used by the unsafe code
+ //
+ public bool IsUnmanaged {
+ get {
+ if (IsPointer)
+ return ((ElementTypeSpec) this).Element.IsUnmanaged;
+
+ var ds = MemberDefinition as TypeDefinition;
+ if (ds != null)
+ return ds.IsUnmanagedType ();
+
+ if (Kind == MemberKind.Void)
+ return true;
+
+ if (IsNested && DeclaringType.IsGenericOrParentIsGeneric)
+ return false;
+
+ return IsValueType (this);
+ }
+ }
+
+ //
+ // A cache of all type members (including nested types)
+ //
public MemberCache MemberCache {
get {
if (cache == null || (state & StateFlags.PendingMemberCacheMembers) != 0)
return false;
}
+ //
+ // Special version used during type definition
+ //
+ public bool AddInterfaceDefined (TypeSpec iface)
+ {
+ if (!AddInterface (iface))
+ return false;
+
+ //
+ // We can get into a situation where a type is inflated before
+ // its interfaces are resoved. Consider this situation
+ //
+ // class A<T> : X<A<int>>, IFoo {}
+ //
+ // When resolving base class of X`1 we inflate context type A`1
+ // All this happens before we even hit IFoo resolve. Without
+ // additional expansion any inside usage of A<T> would miss IFoo
+ // interface because it comes from early inflated TypeSpec
+ //
+ if (inflated_instances != null) {
+ foreach (var inflated in inflated_instances) {
+ inflated.Value.AddInterface (iface);
+ }
+ }
+
+ return true;
+ }
+
+ //
+ // Returns all type arguments, usefull for nested types
+ //
+ public static TypeSpec[] GetAllTypeArguments (TypeSpec type)
+ {
+ IList<TypeSpec> targs = TypeSpec.EmptyTypes;
+
+ do {
+ if (type.Arity > 0) {
+ if (targs.Count == 0) {
+ targs = type.TypeArguments;
+ } else {
+ var list = targs as List<TypeSpec> ?? new List<TypeSpec> (targs);
+ list.AddRange (type.TypeArguments);
+ targs = list;
+ }
+ }
+
+ type = type.declaringType;
+ } while (type != null);
+
+ return targs as TypeSpec[] ?? ((List<TypeSpec>) targs).ToArray ();
+ }
+
public AttributeUsageAttribute GetAttributeUsage (PredefinedAttribute pa)
{
if (Kind != MemberKind.Class)
return aua;
}
+ //
+ // Return metadata information used during emit to describe the type
+ //
public virtual MetaType GetMetaInfo ()
{
return info;
return this;
}
+ //
+ // Text representation of type used by documentation writer
+ //
+ public override string GetSignatureForDocumentation ()
+ {
+ StringBuilder sb = new StringBuilder ();
+ if (IsNested) {
+ sb.Append (DeclaringType.GetSignatureForDocumentation ());
+ } else {
+ sb.Append (MemberDefinition.Namespace);
+ }
+
+ if (sb.Length != 0)
+ sb.Append (".");
+
+ sb.Append (Name);
+ if (Arity > 0) {
+ if (this is InflatedTypeSpec) {
+ sb.Append ("{");
+ for (int i = 0; i < Arity; ++i) {
+ if (i > 0)
+ sb.Append (",");
+
+ sb.Append (TypeArguments[i].GetSignatureForDocumentation ());
+ }
+ sb.Append ("}");
+ } else {
+ sb.Append ("`");
+ sb.Append (Arity.ToString ());
+ }
+ }
+
+ return sb.ToString ();
+ }
+
+ public string GetExplicitNameSignatureForDocumentation ()
+ {
+ StringBuilder sb = new StringBuilder ();
+ if (IsNested) {
+ sb.Append (DeclaringType.GetExplicitNameSignatureForDocumentation ());
+ } else if (MemberDefinition.Namespace != null) {
+ sb.Append (MemberDefinition.Namespace.Replace ('.', '#'));
+ }
+
+ if (sb.Length != 0)
+ sb.Append ("#");
+
+ sb.Append (Name);
+ if (Arity > 0) {
+ sb.Append ("{");
+ for (int i = 0; i < Arity; ++i) {
+ if (i > 0)
+ sb.Append (",");
+
+ sb.Append (TypeArguments[i].GetExplicitNameSignatureForDocumentation ());
+ }
+ sb.Append ("}");
+ }
+
+ return sb.ToString ();
+ }
+
public override string GetSignatureForError ()
{
string s;
{
var t = this;
do {
- if (t.Interfaces != null) {
- foreach (TypeSpec i in t.Interfaces) {
- if (i == iface || TypeSpecComparer.IsEqual (i, iface))
+ var ifaces = t.Interfaces;
+ if (ifaces != null) {
+ for (int i = 0; i < ifaces.Count; ++i) {
+ if (TypeSpecComparer.IsEqual (ifaces[i], iface))
return true;
- if (variantly && TypeSpecComparer.Variant.IsEqual (i, iface))
+ if (variantly && TypeSpecComparer.Variant.IsEqual (ifaces[i], iface))
return true;
}
}
return false;
}
+ public static bool IsReferenceType (TypeSpec t)
+ {
+ switch (t.Kind) {
+ case MemberKind.TypeParameter:
+ return ((TypeParameterSpec) t).IsReferenceType;
+ case MemberKind.Struct:
+ case MemberKind.Enum:
+ case MemberKind.Void:
+ return false;
+ case MemberKind.InternalCompilerType:
+ //
+ // Null is considered to be a reference type
+ //
+ return t == InternalType.NullLiteral || t.BuiltinType == BuiltinTypeSpec.Type.Dynamic;
+ default:
+ return true;
+ }
+ }
+
+ public static bool IsValueType (TypeSpec t)
+ {
+ switch (t.Kind) {
+ case MemberKind.TypeParameter:
+ return ((TypeParameterSpec) t).IsValueType;
+ case MemberKind.Struct:
+ case MemberKind.Enum:
+ return true;
+ default:
+ return false;
+ }
+ }
+
public override MemberSpec InflateMember (TypeParameterInflator inflator)
{
var targs = IsGeneric ? MemberDefinition.TypeParameters : TypeSpec.EmptyTypes;
return new InflatedTypeSpec (inflator.Context, this, inflator.TypeInstance, targs);
}
+ //
+ // Inflates current type using specific type arguments
+ //
public InflatedTypeSpec MakeGenericType (IModuleContext context, TypeSpec[] targs)
{
if (targs.Length == 0 && !IsNested)
}
}
+ if (MemberDefinition.TypeParametersCount > 0) {
+ foreach (var tp in MemberDefinition.TypeParameters) {
+ var tp_missing = tp.GetMissingDependencies ();
+ if (tp_missing != null) {
+ if (missing == null)
+ missing = new List<TypeSpec> ();
+
+ missing.AddRange (tp_missing);
+ }
+ }
+ }
+
if (missing != null || BaseType == null)
return missing;
}
}
+ //
+ // Special version used for types which must exist in corlib or
+ // the compiler cannot work
+ //
public sealed class BuiltinTypeSpec : TypeSpec
{
public enum Type
Exception,
Attribute,
Other,
-
- Null,
}
readonly Type type;
}
}
+ //
+ // Various type comparers used by compiler
+ //
static class TypeSpecComparer
{
//
if (!IsEqual (a.Types[i], b.Types[i]))
return false;
- const Parameter.Modifier ref_out = Parameter.Modifier.REF | Parameter.Modifier.OUT;
- if ((a.FixedParameters[i].ModFlags & ref_out) != (b.FixedParameters[i].ModFlags & ref_out))
+ if ((a.FixedParameters[i].ModFlags & Parameter.Modifier.RefOutMask) != (b.FixedParameters[i].ModFlags & Parameter.Modifier.RefOutMask))
return false;
}
}
for (int i = 0; i < targs_definition.Length; ++i) {
+ if (TypeSpecComparer.IsEqual (t1_targs[i], t2_targs[i]))
+ continue;
+
Variance v = targs_definition[i].Variance;
if (v == Variance.None) {
- if (t1_targs[i] == t2_targs[i])
- continue;
return false;
}
//
public static bool IsEqual (TypeSpec a, TypeSpec b)
{
- if (a.MemberDefinition != b.MemberDefinition)
+ if (a.MemberDefinition != b.MemberDefinition) {
+ var base_ifaces = a.Interfaces;
+ if (base_ifaces != null) {
+ foreach (var base_iface in base_ifaces) {
+ if (base_iface.Arity > 0 && IsEqual (base_iface, b))
+ return true;
+ }
+ }
+
return false;
+ }
var ta = a.TypeArguments;
var tb = b.TypeArguments;
// class X<T> : I<T>, I<float>
//
if (b.IsGenericParameter)
- return a.DeclaringType == b.DeclaringType;
+ return a != b && a.DeclaringType == b.DeclaringType;
//
// We're now comparing a type parameter with a
if (b_a == null)
return false;
- return IsEqual (a_a.Element, b_a.Element) && a_a.Rank == b_a.Rank;
+ return a_a.Rank == b_a.Rank && IsEqual (a_a.Element, b_a.Element);
}
if (!a.IsGeneric || !b.IsGeneric) {
{
IAssemblyDefinition DeclaringAssembly { get; }
string Namespace { get; }
+ bool IsPartial { get; }
int TypeParametersCount { get; }
TypeParameterSpec[] TypeParameters { get; }
public static readonly InternalType MethodGroup = new InternalType ("method group");
public static readonly InternalType NullLiteral = new InternalType ("null");
public static readonly InternalType FakeInternalType = new InternalType ("<fake$type>");
+ public static readonly InternalType Namespace = new InternalType ("<namespace>");
+ public static readonly InternalType ErrorType = new InternalType ("<error>");
readonly string name;
- InternalType (string name, MemberCache cache)
- : this (name)
- {
- this.cache = cache;
- }
-
InternalType (string name)
: base (MemberKind.InternalCompilerType, null, null, null, Modifiers.PUBLIC)
{
cache = MemberCache.Empty;
// Make all internal types CLS-compliant, non-obsolete
- state = (state & ~(StateFlags.CLSCompliant_Undetected | StateFlags.Obsolete_Undetected)) | StateFlags.CLSCompliant;
+ state = (state & ~(StateFlags.CLSCompliant_Undetected | StateFlags.Obsolete_Undetected | StateFlags.MissingDependency_Undetected)) | StateFlags.CLSCompliant;
}
#region Properties
}
}
+ bool ITypeDefinition.IsPartial {
+ get {
+ return false;
+ }
+ }
+
public override string Name {
get {
return name;
#endregion
}
+ //
+ // Common base class for composite types
+ //
public abstract class ElementTypeSpec : TypeSpec, ITypeDefinition
{
protected ElementTypeSpec (MemberKind kind, TypeSpec element, MetaType info)
{
this.Element = element;
- // Some flags can be copied directly from the element
- const StateFlags shared_flags = StateFlags.CLSCompliant | StateFlags.CLSCompliant_Undetected
- | StateFlags.Obsolete | StateFlags.Obsolete_Undetected | StateFlags.HasDynamicElement;
- state &= ~shared_flags;
- state |= (element.state & shared_flags);
+ state &= ~SharedStateFlags;
+ state |= (element.state & SharedStateFlags);
if (element.BuiltinType == BuiltinTypeSpec.Type.Dynamic)
state |= StateFlags.HasDynamicElement;
public TypeSpec Element { get; private set; }
+ bool ITypeDefinition.IsPartial {
+ get {
+ return false;
+ }
+ }
+
public override string Name {
get {
throw new NotSupportedException ();
return null;
}
+ public override string GetSignatureForDocumentation ()
+ {
+ return Element.GetSignatureForDocumentation () + GetPostfixSignature ();
+ }
+
public override string GetSignatureForError ()
{
return Element.GetSignatureForError () + GetPostfixSignature ();
return sb.ToString ();
}
+ public override string GetSignatureForDocumentation ()
+ {
+ StringBuilder sb = new StringBuilder ();
+ GetElementSignatureForDocumentation (sb);
+ return sb.ToString ();
+ }
+
+ void GetElementSignatureForDocumentation (StringBuilder sb)
+ {
+ var ac = Element as ArrayContainer;
+ if (ac == null)
+ sb.Append (Element.GetSignatureForDocumentation ());
+ else
+ ac.GetElementSignatureForDocumentation (sb);
+
+ sb.Append ("[");
+ for (int i = 1; i < rank; i++) {
+ if (i == 1)
+ sb.Append ("0:");
+
+ sb.Append (",0:");
+ }
+ sb.Append ("]");
+ }
+
public static ArrayContainer MakeType (ModuleContainer module, TypeSpec element)
{
return MakeType (module, element, 1);