using System.Reflection.Emit;
using System.Collections;
- public class Const : MemberCore {
- public readonly string ConstantType;
+ public class Const : FieldBase {
public Expression Expr;
- public Attributes OptAttributes;
- public FieldBuilder FieldBuilder;
+ EmitContext const_ec;
+ bool resolved = false;
object ConstantValue = null;
Type type;
+ bool in_transit = false;
+
public const int AllowedModifiers =
Modifiers.NEW |
Modifiers.PUBLIC |
Modifiers.INTERNAL |
Modifiers.PRIVATE;
- public Const (string constant_type, string name, Expression expr, int mod_flags,
+ public Const (Expression constant_type, string name, Expression expr, int mod_flags,
Attributes attrs, Location loc)
- : base (name, loc)
+ : base (constant_type, mod_flags, AllowedModifiers, name, null, attrs, loc)
{
- ConstantType = constant_type;
- Name = name;
Expr = expr;
- ModFlags = Modifiers.Check (AllowedModifiers, mod_flags, Modifiers.PRIVATE);
- OptAttributes = attrs;
}
public FieldAttributes FieldAttr {
/// </summary>
public override bool Define (TypeContainer parent)
{
- type = RootContext.LookupType (parent, ConstantType, true, Location);
+ type = parent.ResolveType (Type, false, Location);
if (type == null)
return false;
- if (!TypeManager.IsBuiltinType (type) &&
- (!type.IsSubclassOf (TypeManager.enum_type))) {
+ const_ec = new EmitContext (parent, Location, null, type, ModFlags);
+
+ Type ttype = type;
+ while (ttype.IsArray)
+ ttype = TypeManager.GetElementType (ttype);
+
+ if (!TypeManager.IsBuiltinType (ttype) &&
+ (!ttype.IsSubclassOf (TypeManager.enum_type))) {
Report.Error (
-3, Location,
"Constant type is not valid (only system types are allowed)");
Type ptype = parent.TypeBuilder.BaseType;
if (ptype != null) {
- MemberInfo [] mi = TypeContainer.FindMembers (
+ MemberList list = TypeContainer.FindMembers (
ptype, MemberTypes.Field, BindingFlags.Public,
- Type.FilterName, Name);
+ System.Type.FilterName, Name);
- if (mi == null || mi.Length == 0)
+ if (list.Count == 0)
if ((ModFlags & Modifiers.NEW) != 0)
WarningNotHiding (parent);
return true;
}
+ //
+ // Changes the type of the constant expression `expr' to the Type `type'
+ // Returns null on failure.
+ //
+ public static Constant ChangeType (Location loc, Constant expr, Type type)
+ {
+ if (type == TypeManager.object_type)
+ return expr;
+
+ bool fail;
+
+ // from the null type to any reference-type.
+ if (expr is NullLiteral && !type.IsValueType && !TypeManager.IsEnumType (type))
+ return NullLiteral.Null;
+
+ if (!Convert.ImplicitStandardConversionExists (expr, type)){
+ Convert.Error_CannotImplicitConversion (loc, expr.Type, type);
+ return null;
+ }
+
+ object constant_value = TypeManager.ChangeType (expr.GetValue (), type, out fail);
+ if (fail){
+ Convert.Error_CannotImplicitConversion (loc, expr.Type, type);
+
+ //
+ // We should always catch the error before this is ever
+ // reached, by calling Convert.ImplicitStandardConversionExists
+ //
+ throw new Exception (
+ String.Format ("LookupConstantValue: This should never be reached {0} {1}", expr.Type, type));
+ }
+
+ Constant retval;
+ if (type == TypeManager.int32_type)
+ retval = new IntConstant ((int) constant_value);
+ else if (type == TypeManager.uint32_type)
+ retval = new UIntConstant ((uint) constant_value);
+ else if (type == TypeManager.int64_type)
+ retval = new LongConstant ((long) constant_value);
+ else if (type == TypeManager.uint64_type)
+ retval = new ULongConstant ((ulong) constant_value);
+ else if (type == TypeManager.float_type)
+ retval = new FloatConstant ((float) constant_value);
+ else if (type == TypeManager.double_type)
+ retval = new DoubleConstant ((double) constant_value);
+ else if (type == TypeManager.string_type)
+ retval = new StringConstant ((string) constant_value);
+ else if (type == TypeManager.short_type)
+ retval = new ShortConstant ((short) constant_value);
+ else if (type == TypeManager.ushort_type)
+ retval = new UShortConstant ((ushort) constant_value);
+ else if (type == TypeManager.sbyte_type)
+ retval = new SByteConstant ((sbyte) constant_value);
+ else if (type == TypeManager.byte_type)
+ retval = new ByteConstant ((byte) constant_value);
+ else if (type == TypeManager.char_type)
+ retval = new CharConstant ((char) constant_value);
+ else if (type == TypeManager.bool_type)
+ retval = new BoolConstant ((bool) constant_value);
+ else
+ throw new Exception ("LookupConstantValue: Unhandled constant type: " + type);
+
+ return retval;
+ }
+
/// <summary>
/// Looks up the value of a constant field. Defines it if it hasn't
/// already been. Similar to LookupEnumValue in spirit.
/// </summary>
- public object LookupConstantValue (EmitContext ec)
+ public bool LookupConstantValue (out object value)
{
- if (ConstantValue != null)
- return ConstantValue;
-
- Expr = Expr.Resolve (ec);
+ if (resolved) {
+ value = ConstantValue;
+ return true;
+ }
+
+ if (in_transit) {
+ Report.Error (110, Location,
+ "The evaluation of the constant value for `" +
+ Name + "' involves a circular definition.");
+ value = null;
+ return false;
+ }
+
+ in_transit = true;
+ int errors = Report.Errors;
+
+ //
+ // We might have cleared Expr ourselves in a recursive definition
+ //
+ if (Expr == null){
+ value = null;
+ return false;
+ }
+
+ Expr = Expr.Resolve (const_ec);
+
+ in_transit = false;
if (Expr == null) {
- Report.Error (150, Location, "A constant value is expected");
- return null;
+ if (errors == Report.Errors)
+ Report.Error (150, Location, "A constant value is expected");
+ value = null;
+ return false;
}
- if (!(Expr is Constant)) {
- Report.Error (150, Location, "A constant value is expected");
- return null;
+ Expression real_expr = Expr;
+
+ Constant ce = Expr as Constant;
+ if (ce == null){
+ UnCheckedExpr un_expr = Expr as UnCheckedExpr;
+ CheckedExpr ch_expr = Expr as CheckedExpr;
+ EmptyCast ec_expr = Expr as EmptyCast;
+
+ if ((un_expr != null) && (un_expr.Expr is Constant))
+ Expr = un_expr.Expr;
+ else if ((ch_expr != null) && (ch_expr.Expr is Constant))
+ Expr = ch_expr.Expr;
+ else if ((ec_expr != null) && (ec_expr.Child is Constant))
+ Expr = ec_expr.Child;
+ else if (Expr is ArrayCreation) {
+ ArrayCreation ac = (ArrayCreation) Expr;
+
+ Expr = ac.TurnIntoConstant ();
+ if (Expr == null){
+ Report.Error (150, Location, "A constant value is expected");
+ value = null;
+ return false;
+ }
+ } else {
+ if (errors == Report.Errors)
+ Report.Error (150, Location, "A constant value is expected");
+ value = null;
+ return false;
+ }
+
+ ce = Expr as Constant;
}
- ConstantValue = ((Constant) Expr).GetValue ();
+ if (type != real_expr.Type) {
+ ce = ChangeType (Location, ce, type);
+ if (ce == null){
+ value = null;
+ return false;
+ }
+ Expr = ce;
+ }
+ ConstantValue = ce.GetValue ();
if (type.IsEnum){
//
// This sadly does not work for our user-defined enumerations types ;-(
//
- ConstantValue = System.Enum.ToObject (
- type, ConstantValue);
+ try {
+ ConstantValue = System.Enum.ToObject (
+ type, ConstantValue);
+ } catch (ArgumentException){
+ Report.Error (
+ -16, Location,
+ ".NET SDK 1.0 does not permit to create the constant "+
+ " field from a user-defined enumeration");
+ }
}
FieldBuilder.SetConstant (ConstantValue);
- if (!TypeManager.RegisterField (FieldBuilder, ConstantValue))
- return null;
+ if (!TypeManager.RegisterFieldValue (FieldBuilder, ConstantValue))
+ throw new Exception ("Cannot register const value");
- return ConstantValue;
+ value = ConstantValue;
+ resolved = true;
+ return true;
}
/// <summary>
/// Emits the field value by evaluating the expression
/// </summary>
- public void EmitConstant (TypeContainer parent)
+ public override void Emit (TypeContainer parent)
{
- EmitContext ec = new EmitContext (parent, Location, null, type, ModFlags);
- LookupConstantValue (ec);
-
- return;
+ object value;
+ LookupConstantValue (out value);
+
+ if (OptAttributes != null) {
+ OptAttributes.Emit (const_ec, this);
+ }
+
+ base.Emit (parent);
}
}
}