static public Type unverifiable_code_type;
static public Type methodimpl_attr_type;
static public Type marshal_as_attr_type;
+ static public Type new_constraint_attr_type;
static public Type param_array_type;
static public Type guid_attr_type;
static public Type void_ptr_type;
static public Type indexer_name_type;
static public Type exception_type;
+ static public Type activator_type;
static public Type invalid_operation_exception_type;
static public object obsolete_attribute_type;
static public object conditional_attribute_type;
static public Type in_attribute_type;
+ static public Type cls_compliant_attribute_type;
+ static public Type typed_reference_type;
+ static public Type arg_iterator_type;
//
// An empty array of types
static public MethodInfo string_concat_string_string;
static public MethodInfo string_concat_string_string_string;
static public MethodInfo string_concat_string_string_string_string;
+ static public MethodInfo string_concat_string_dot_dot_dot;
static public MethodInfo string_concat_object_object;
+ static public MethodInfo string_concat_object_object_object;
+ static public MethodInfo string_concat_object_dot_dot_dot;
static public MethodInfo string_isinterneted_string;
static public MethodInfo system_type_get_type_from_handle;
static public MethodInfo object_getcurrent_void;
static public MethodInfo int_array_get_lower_bound_int;
static public MethodInfo int_array_get_upper_bound_int;
static public MethodInfo void_array_copyto_array_int;
+ static public MethodInfo activator_create_instance;
//
// The attribute constructors.
// </remarks>
static PtrHashtable builder_to_ifaces;
+ // <remarks>
+ // Tracks the generic parameters.
+ // </remarks>
+ static PtrHashtable builder_to_type_param;
+
// <remarks>
// Maps MethodBase.RuntimeTypeHandle to a Type array that contains
// the arguments to the method
static Hashtable builder_to_method;
+ // <remarks>
+ // Contains all public types from referenced assemblies.
+ // This member is used only if CLS Compliance verification is required.
+ // </remarks>
+ public static Hashtable all_imported_types;
+
struct Signature {
public string name;
public Type [] args;
method_internal_params = null;
builder_to_attr = null;
builder_to_method = null;
+ builder_to_type_param = null;
fields = null;
references = null;
method_internal_params = new PtrHashtable ();
indexer_arguments = new PtrHashtable ();
builder_to_ifaces = new PtrHashtable ();
+ builder_to_type_param = new PtrHashtable ();
NoTypes = new Type [0];
NoTypeExprs = new TypeExpr [0];
builder_to_attr.Add (t, tc);
}
+ public static void AddTypeParameter (Type t, TypeParameter tparam, TypeExpr[] ifaces)
+ {
+ if (!builder_to_type_param.Contains (t)) {
+ builder_to_type_param.Add (t, tparam);
+
+ if (ifaces != null)
+ builder_to_ifaces [t] = ifaces;
+ }
+ }
+
/// <summary>
/// Returns the DeclSpace whose Type is `t' or null if there is no
/// DeclSpace for `t' (ie, the Type comes from a library)
return container;
}
+ if (t is GenericTypeParameterBuilder) {
+ IMemberContainer container = builder_to_type_param [t] as IMemberContainer;
+
+ if (container != null)
+ return container;
+ }
+
return TypeHandle.GetTypeHandle (t);
}
{
return (TypeContainer) builder_to_attr [t];
}
+
+ public static TypeParameter LookupTypeParameter (Type t)
+ {
+ return (TypeParameter) builder_to_type_param [t];
+ }
+
+ public static bool HasConstructorConstraint (Type t)
+ {
+ if (!t.IsGenericParameter)
+ throw new InvalidOperationException ();
+
+ TypeParameter tparam = LookupTypeParameter (t);
+ if (tparam != null)
+ return tparam.HasConstructorConstraint;
+ else {
+ object[] attrs = t.GetCustomAttributes (
+ TypeManager.new_constraint_attr_type, false);
+
+ return attrs.Length > 0;
+ }
+ }
/// <summary>
/// Registers an assembly to load types from.
modules = n;
}
+ public static Module[] Modules {
+ get {
+ return modules;
+ }
+ }
+
static Hashtable references = new Hashtable ();
//
//
if (ret == null){
if (pointers [t] == null)
- pointers [t] = CodeGen.ModuleBuilder.GetType (tname);
+ pointers [t] = CodeGen.Module.Builder.GetType (tname);
ret = (Type) pointers [t];
}
}
}
+ /// <summary>
+ /// Fills static table with exported types from all referenced assemblies.
+ /// This information is required for CLS Compliance tests.
+ /// </summary>
+ public static void LoadAllImportedTypes ()
+ {
+ if (!CodeGen.Assembly.IsClsCompliant)
+ return;
+
+ all_imported_types = new Hashtable ();
+ foreach (Assembly a in assemblies) {
+ foreach (Type t in a.GetExportedTypes ()) {
+ all_imported_types [t.FullName] = t;
+ }
+ }
+ }
+
public static bool NamespaceClash (string name, Location loc)
{
if (Namespace.LookupNamespace (name, false) == null)
/// </summary>
static public string CSharpName (Type t)
{
+ if (t.FullName == null)
+ return t.Name;
+
return Regex.Replace (t.FullName,
@"^System\." +
@"(Int32|UInt32|Int16|UInt16|Int64|UInt64|" +
/// </summary>
static public string GetFullNameSignature (MemberInfo mi)
{
- return mi.DeclaringType.FullName.Replace ('+', '.') + '.' + mi.Name;
+ string n = mi.Name;
+ if (n == ".ctor")
+ n = mi.DeclaringType.Name;
+
+ return mi.DeclaringType.FullName.Replace ('+', '.') + '.' + n;
+ }
+
+ static public string GetFullName (Type t)
+ {
+ if (t.FullName == null)
+ return t.Name;
+
+ string name = t.FullName.Replace ('+', '.');
+
+ DeclSpace tc = LookupDeclSpace (t);
+ if ((tc != null) && tc.IsGeneric) {
+ TypeParameter[] tparam = tc.TypeParameters;
+
+ StringBuilder sb = new StringBuilder (name);
+ sb.Append ("<");
+ for (int i = 0; i < tparam.Length; i++) {
+ if (i > 0)
+ sb.Append (",");
+ sb.Append (tparam [i].Name);
+ }
+ sb.Append (">");
+ return sb.ToString ();
+ } else if (t.HasGenericArguments && !t.IsGenericInstance) {
+ Type[] tparam = t.GetGenericArguments ();
+
+ StringBuilder sb = new StringBuilder (name);
+ sb.Append ("<");
+ for (int i = 0; i < tparam.Length; i++) {
+ if (i > 0)
+ sb.Append (",");
+ sb.Append (tparam [i].Name);
+ }
+ sb.Append (">");
+ return sb.ToString ();
+ }
+
+ return name;
}
/// <summary>
//
ParameterData iparams = LookupParametersByBuilder (mb);
- if (iparams == null){
- ParameterInfo [] pi = mb.GetParameters ();
- iparams = new ReflectionParameters (pi);
- }
+ if (iparams == null)
+ iparams = new ReflectionParameters (mb);
for (int i = 0; i < iparams.Count; i++) {
if (i > 0) {
dllimport_type = CoreLookupType ("System.Runtime.InteropServices.DllImportAttribute");
methodimpl_attr_type = CoreLookupType ("System.Runtime.CompilerServices.MethodImplAttribute");
marshal_as_attr_type = CoreLookupType ("System.Runtime.InteropServices.MarshalAsAttribute");
+ new_constraint_attr_type = CoreLookupType ("System.Runtime.CompilerServices.NewConstraintAttribute");
param_array_type = CoreLookupType ("System.ParamArrayAttribute");
in_attribute_type = CoreLookupType ("System.Runtime.InteropServices.InAttribute");
+ typed_reference_type = CoreLookupType ("System.TypedReference");
+ arg_iterator_type = CoreLookupType ("System.ArgIterator");
//
// Sigh. Remove this before the release. Wonder what versions of Mono
indexer_name_type = CoreLookupType ("System.Runtime.CompilerServices.IndexerNameAttribute");
exception_type = CoreLookupType ("System.Exception");
+ activator_type = CoreLookupType ("System.Activator");
invalid_operation_exception_type = CoreLookupType ("System.InvalidOperationException");
//
//
obsolete_attribute_type = CoreLookupType ("System.ObsoleteAttribute");
conditional_attribute_type = CoreLookupType ("System.Diagnostics.ConditionalAttribute");
+ cls_compliant_attribute_type = CoreLookupType ("System.CLSCompliantAttribute");
//
// When compiling corlib, store the "real" types here.
args [2] = enum_type;
args [3] = void_type;
- set_corlib_type_builders.Invoke (CodeGen.AssemblyBuilder, args);
+ set_corlib_type_builders.Invoke (CodeGen.Assembly.Builder, args);
} else {
// Compatibility for an older version of the class libs.
set_corlib_type_builders = GetMethod (
args [1] = value_type;
args [2] = enum_type;
- set_corlib_type_builders.Invoke (CodeGen.AssemblyBuilder, args);
+ set_corlib_type_builders.Invoke (CodeGen.Assembly.Builder, args);
}
}
Type [] string_string_string_string = { string_type, string_type, string_type, string_type };
string_concat_string_string_string_string = GetMethod (
string_type, "Concat", string_string_string_string);
+ Type[] params_string = { TypeManager.LookupType ("System.String[]") };
+ string_concat_string_dot_dot_dot = GetMethod (
+ string_type, "Concat", params_string);
Type [] object_object = { object_type, object_type };
string_concat_object_object = GetMethod (
string_type, "Concat", object_object);
+ Type [] object_object_object = { object_type, object_type, object_type };
+ string_concat_object_object_object = GetMethod (
+ string_type, "Concat", object_object_object);
+ Type[] params_object = { TypeManager.LookupType ("System.Object[]") };
+ string_concat_object_dot_dot_dot = GetMethod (
+ string_type, "Concat", params_object);
Type [] string_ = { string_type };
string_isinterneted_string = GetMethod (
// Object
object_ctor = GetConstructor (object_type, void_arg);
+ // Activator
+ Type [] type_arg = { type_type };
+ activator_create_instance = GetMethod (
+ activator_type, "CreateInstance", type_arg);
}
const BindingFlags instance_and_static = BindingFlags.Static | BindingFlags.Instance;
/// our return value will already contain all inherited members and the caller don't need
/// to check base classes and interfaces anymore.
/// </summary>
- private static MemberList MemberLookup_FindMembers (Type t, MemberTypes mt, BindingFlags bf,
+ private static MemberInfo [] MemberLookup_FindMembers (Type t, MemberTypes mt, BindingFlags bf,
string name, out bool used_cache)
{
//
}
// If there is no MemberCache, we need to use the "normal" FindMembers.
+ // Note, this is a VERY uncommon route!
MemberList list;
Timer.StartTimer (TimerType.FindMembers);
FilterWithClosure_delegate, name);
Timer.StopTimer (TimerType.FindMembers);
used_cache = false;
- return list;
+ return (MemberInfo []) list;
+ }
+
+ if (t is GenericTypeParameterBuilder) {
+ TypeParameter tparam = (TypeParameter) builder_to_type_param [t];
+
+ MemberList list;
+ Timer.StartTimer (TimerType.FindMembers);
+ list = tparam.FindMembers (mt, bf | BindingFlags.DeclaredOnly,
+ FilterWithClosure_delegate, name);
+ Timer.StopTimer (TimerType.FindMembers);
+ used_cache = false;
+ return (MemberInfo []) list;
}
//
public static bool IsDelegateType (Type t)
{
+ if (t.IsGenericInstance)
+ t = t.GetGenericTypeDefinition ();
+
if (t.IsSubclassOf (TypeManager.delegate_type))
return true;
else
return ds.IsGeneric;
}
+
+ public static bool HasGenericArguments (Type t)
+ {
+ return GetNumberOfTypeArguments (t) > 0;
+ }
+
+ public static int GetNumberOfTypeArguments (Type t)
+ {
+ DeclSpace tc = LookupDeclSpace (t);
+ if (tc != null)
+ return tc.IsGeneric ? tc.CountTypeParameters : 0;
+ else
+ return t.HasGenericArguments ? t.GetGenericArguments ().Length : 0;
+ }
+
+ public static Type[] GetTypeArguments (Type t)
+ {
+ DeclSpace tc = LookupDeclSpace (t);
+ if (tc != null) {
+ if (!tc.IsGeneric)
+ throw new InvalidOperationException ();
+
+ 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 ();
+ }
//
// Whether a type is unmanaged. This is used by the unsafe code (25.2)
if (t is TypeBuilder){
TypeContainer tc = LookupTypeContainer (t);
+ if (tc.Fields != null){
foreach (Field f in tc.Fields){
if (f.FieldBuilder.IsStatic)
continue;
if (!IsUnmanagedType (f.FieldBuilder.FieldType))
return false;
}
+ } else
+ return true;
} else {
FieldInfo [] fields = t.GetFields ();
return IsEqualGenericType (a, b);
}
+ public static bool MayBecomeEqualGenericTypes (Type a, Type b)
+ {
+ if (a.IsGenericParameter) {
+ //
+ // If a is an array of a's type, they may never
+ // become equal.
+ //
+ while (b.IsArray) {
+ b = b.GetElementType ();
+ if (a.Equals (b))
+ return false;
+ }
+
+ //
+ // If b is a generic parameter or an actual type,
+ // they may become equal:
+ //
+ // class X<T,U> : I<T>, I<U>
+ // class X<T> : I<T>, I<float>
+ //
+ if (b.IsGenericParameter || !b.IsGenericInstance)
+ return true;
+
+ //
+ // We're now comparing a type parameter with a
+ // generic instance. They may become equal unless
+ // the type parameter appears anywhere in the
+ // generic instance:
+ //
+ // class X<T,U> : I<T>, I<X<U>>
+ // -> error because you could instanciate it as
+ // X<X<int>,int>
+ //
+ // class X<T> : I<T>, I<X<T>> -> ok
+ //
+
+ Type[] bargs = GetTypeArguments (b);
+ for (int i = 0; i < bargs.Length; i++) {
+ if (a.Equals (bargs [i]))
+ return false;
+ }
+
+ return true;
+ }
+
+ if (b.IsGenericParameter)
+ return MayBecomeEqualGenericTypes (b, a);
+
+ //
+ // At this point, neither a nor b are a type parameter.
+ //
+ // If one of them is a generic instance, let
+ // MayBecomeEqualGenericInstances() compare them (if the
+ // other one is not a generic instance, they can never
+ // become equal).
+ //
+
+ if (a.IsGenericInstance || b.IsGenericInstance)
+ return MayBecomeEqualGenericInstances (a, b);
+
+ //
+ // If both of them are arrays.
+ //
+
+ if (a.IsArray && b.IsArray) {
+ if (a.GetArrayRank () != b.GetArrayRank ())
+ return false;
+
+ a = a.GetElementType ();
+ b = b.GetElementType ();
+
+ return MayBecomeEqualGenericTypes (a, b);
+ }
+
+ //
+ // Ok, two ordinary types.
+ //
+
+ return a.Equals (b);
+ }
+
+ //
+ // Checks whether two generic instances may become equal for some
+ // particular instantiation (26.3.1).
+ //
+ public static bool MayBecomeEqualGenericInstances (Type a, Type b)
+ {
+ if (!a.IsGenericInstance || !b.IsGenericInstance)
+ return false;
+ if (a.GetGenericTypeDefinition () != b.GetGenericTypeDefinition ())
+ return false;
+
+ Type[] aargs = GetTypeArguments (a);
+ Type[] bargs = GetTypeArguments (b);
+
+ if (aargs.Length != bargs.Length)
+ return false;
+
+ for (int i = 0; i < aargs.Length; i++) {
+ if (MayBecomeEqualGenericTypes (aargs [i], bargs [i]))
+ return true;
+ }
+
+ return false;
+ }
+
+ public static bool IsSubclassOf (Type type, Type parent)
+ {
+ if (type.IsGenericInstance && !parent.IsGenericInstance)
+ type = type.GetGenericTypeDefinition ();
+
+ return type.IsSubclassOf (parent);
+ }
+
//
// Checks whether `type' is a subclass or nested child of `parent'.
//
iface_cache [t] = result;
return result;
+ } else if (t is GenericTypeParameterBuilder){
+ TypeExpr[] type_ifaces = (TypeExpr []) builder_to_ifaces [t];
+ if (type_ifaces == null)
+ type_ifaces = NoTypeExprs;
+
+ iface_cache [t] = type_ifaces;
+ return type_ifaces;
} else {
Type [] ifaces = t.GetInterfaces ();
if (ifaces.Length == 0)
/// </remarks>
public static string IndexerPropertyName (Type t)
{
+ if (t.IsGenericInstance)
+ t = t.GetGenericTypeDefinition ();
+
if (t is TypeBuilder) {
if (t.IsInterface) {
Interface i = LookupInterface (t);
return "Item";
}
+ static MethodInfo pinned_method = null;
public static void MakePinned (LocalBuilder builder)
{
- //
- // FIXME: Flag the "LocalBuilder" type as being
- // pinned. Figure out API.
- //
+ if (pinned_method == null) {
+ pinned_method = typeof (LocalBuilder).GetMethod ("MakePinned", BindingFlags.Instance | BindingFlags.NonPublic);
+ if (pinned_method == null) {
+ Report.Warning (-24, new Location (-1), "Microsoft.NET does not support making pinned variables." +
+ "This code may cause errors on a runtime with a moving GC");
+
+ return;
+ }
+ }
+
+ pinned_method.Invoke (builder, null);
}
//
// The name is assumed to be the same.
//
- public static ArrayList CopyNewMethods (ArrayList target_list, MemberList new_members)
+ public static ArrayList CopyNewMethods (ArrayList target_list, IList new_members)
{
if (target_list == null){
target_list = new ArrayList ();
IsObsoleteError = 1 << 1,
ShouldIgnore = 1 << 2
}
+
+ static public bool IsGenericMethod (MethodBase mb)
+ {
+ if (mb.DeclaringType is TypeBuilder) {
+ MethodData method = (MethodData) builder_to_method [mb];
+ if (method == null)
+ return false;
+
+ return method.GenericMethod != null;
+ }
+
+ return mb.IsGenericMethodDefinition;
+ }
//
// Returns the TypeManager.MethodFlags for this method.
static public MethodFlags GetMethodFlags (MethodBase mb, Location loc)
{
MethodFlags flags = 0;
-
+
+ if (mb.Mono_IsInflatedMethod)
+ mb = mb.GetGenericMethodDefinition ();
+
if (mb.DeclaringType is TypeBuilder){
MethodData method = (MethodData) builder_to_method [mb];
if (method == null) {
return method.GetMethodFlags (loc);
}
-#if FIXME
- if (mb.IsInflatedGeneric) {
- MethodBase generic = mb.GetGenericMethodDefinition ();
-
- return GetMethodFlags (generic, loc);
- }
-#endif
-
object [] attrs = mb.GetCustomAttributes (true);
foreach (object ta in attrs){
if (!(ta is System.Attribute)){
return false;
if (((closure_qualifier_type == null) || (closure_qualifier_type == closure_invocation_type)) &&
- IsEqual (m.DeclaringType, closure_invocation_type))
+ (closure_invocation_type != null) && IsEqual (m.DeclaringType, closure_invocation_type))
return true;
//
// that might return multiple matches.
//
public static MemberInfo [] MemberLookup (Type invocation_type, Type qualifier_type,
- Type queried_type, MemberTypes mt,
+ Type queried_type, MemberTypes mt,
BindingFlags original_bf, string name)
{
Timer.StartTimer (TimerType.MemberLookup);
//
if (invocation_type != null){
string invocation_name = invocation_type.FullName;
- if (invocation_name.IndexOf ('+') != -1){
+ if ((invocation_name != null) && (invocation_name.IndexOf ('+') != -1)){
string container = queried_type.FullName + "+";
int container_length = container.Length;
}
}
+ // This is from the first time we find a method
+ // in most cases, we do not actually find a method in the base class
+ // so we can just ignore it, and save the arraylist allocation
+ MemberInfo [] first_members_list = null;
+ bool use_first_members_list = false;
+
do {
- MemberList list;
+ MemberInfo [] list;
//
// `NonPublic' is lame, because it includes both protected and
Timer.StopTimer (TimerType.MemberLookup);
- list = MemberLookup_FindMembers (current_type, mt, bf, name, out used_cache);
+ list = MemberLookup_FindMembers (
+ current_type, mt, bf, name, out used_cache);
Timer.StartTimer (TimerType.MemberLookup);
current_type = TypeManager.object_type;
}
- if (list.Count == 0)
+ if (list.Length == 0)
continue;
//
// searches, which means that our above FindMembers will
// return two copies of the same.
//
- if (list.Count == 1 && !(list [0] is MethodBase)){
- return (MemberInfo []) list;
+ if (list.Length == 1 && !(list [0] is MethodBase)){
+ return list;
}
//
// name
//
if (list [0] is PropertyInfo)
- return (MemberInfo []) list;
+ return list;
//
// We found an event: the cache lookup returns both the event and
// its private field.
//
if (list [0] is EventInfo) {
- if ((list.Count == 2) && (list [1] is FieldInfo))
+ if ((list.Length == 2) && (list [1] is FieldInfo))
return new MemberInfo [] { list [0] };
// Oooops
// mode.
//
- method_list = CopyNewMethods (method_list, list);
- mt &= (MemberTypes.Method | MemberTypes.Constructor);
+ if (first_members_list != null) {
+ if (use_first_members_list) {
+ method_list = CopyNewMethods (method_list, first_members_list);
+ use_first_members_list = false;
+ }
+
+ method_list = CopyNewMethods (method_list, list);
+ } else {
+ first_members_list = list;
+ use_first_members_list = true;
+
+ mt &= (MemberTypes.Method | MemberTypes.Constructor);
+ }
} while (searching);
+ if (use_first_members_list) {
+ foreach (MemberInfo mi in first_members_list) {
+ if (! (mi is MethodBase)) {
+ method_list = CopyNewMethods (method_list, first_members_list);
+ return (MemberInfo []) method_list.ToArray (typeof (MemberInfo));
+ }
+ }
+ return (MemberInfo []) first_members_list;
+ }
+
if (method_list != null && method_list.Count > 0) {
return (MemberInfo []) method_list.ToArray (typeof (MemberInfo));
}
private static TypeHandle array_type = null;
private Type type;
+ private string full_name;
private bool is_interface;
private MemberCache member_cache;
private TypeHandle (Type type)
{
this.type = type;
+ full_name = type.FullName != null ? type.FullName : type.Name;
if (type.BaseType != null)
BaseType = GetTypeHandle (type.BaseType);
- this.is_interface = type.IsInterface;
+ this.is_interface = type.IsInterface || type.IsGenericParameter;
this.member_cache = new MemberCache (this);
}
public string Name {
get {
- return type.FullName;
+ return full_name;
}
}
public MemberList GetMembers (MemberTypes mt, BindingFlags bf)
{
MemberInfo [] members;
+ if (type is GenericTypeParameterBuilder)
+ return MemberList.Empty;
if (mt == MemberTypes.Event)
members = type.GetEvents (bf | BindingFlags.DeclaredOnly);
else
public MemberList FindMembers (MemberTypes mt, BindingFlags bf, string name,
MemberFilter filter, object criteria)
{
- return member_cache.FindMembers (mt, bf, name, filter, criteria);
+ return new MemberList (member_cache.FindMembers (mt, bf, name, filter, criteria));
}
public MemberCache MemberCache {