Exemplo n.º 1
0
        /// <summary>
        /// Item1 - True, if isExpression returns true
        /// Item2 - If Item1 is true, it contains the type of the alias that is defined in the isExpression
        /// </summary>
        private Tuple <bool, AbstractType> evalIsExpression_EvalSpecToken(IsExpression isExpression, AbstractType typeToCheck, bool DoAliasHandling = false)
        {
            bool         r   = false;
            AbstractType res = null;

            switch (isExpression.TypeSpecializationToken)
            {
            /*
             * To handle semantic tokens like "return" or "super" it's just needed to
             * look into the current resolver context -
             * then, we'll be able to gather either the parent method or the currently scoped class definition.
             */
            case DTokens.Struct:
            case DTokens.Union:
            case DTokens.Class:
            case DTokens.Interface:
                if (r = typeToCheck is UserDefinedType &&
                        ((TemplateIntermediateType)typeToCheck).Definition.ClassType == isExpression.TypeSpecializationToken)
                {
                    res = typeToCheck;
                }
                break;

            case DTokens.Enum:
                if (!(typeToCheck is EnumType))
                {
                    break;
                }
                {
                    var tr = (UserDefinedType)typeToCheck;
                    r   = true;
                    res = tr.Base;
                }
                break;

            case DTokens.Function:
            case DTokens.Delegate:
                if (typeToCheck is DelegateType)
                {
                    var isFun = false;
                    var dgr   = (DelegateType)typeToCheck;
                    if (!dgr.IsFunctionLiteral)
                    {
                        r = isExpression.TypeSpecializationToken == (
                            (isFun = ((DelegateDeclaration)dgr.DeclarationOrExpressionBase).IsFunction) ? DTokens.Function : DTokens.Delegate);
                    }
                    // Must be a delegate otherwise
                    else
                    {
                        isFun = !(r = isExpression.TypeSpecializationToken == DTokens.Delegate);
                    }

                    if (r)
                    {
                        //TODO
                        if (isFun)
                        {
                            // TypeTuple of the function parameter types. For C- and D-style variadic functions, only the non-variadic parameters are included.
                            // For typesafe variadic functions, the ... is ignored.
                        }
                        else
                        {
                            // the function type of the delegate
                        }
                    }
                }
                else                         // Normal functions are also accepted as delegates
                {
                    r = isExpression.TypeSpecializationToken == DTokens.Delegate &&
                        typeToCheck is MemberSymbol &&
                        ((DSymbol)typeToCheck).Definition is DMethod;

                    //TODO: Alias handling, same as couple of lines above
                }
                break;

            case DTokens.Super:                     //TODO: Test this
                var dc = DResolver.SearchClassLikeAt(ctxt.ScopedBlock, isExpression.Location) as DClassLike;

                if (dc != null)
                {
                    var udt = DResolver.ResolveBaseClasses(new ClassType(dc, dc, null), ctxt, true) as ClassType;

                    if (r = udt.Base != null && ResultComparer.IsEqual(typeToCheck, udt.Base))
                    {
                        var l = new List <AbstractType>();
                        if (udt.Base != null)
                        {
                            l.Add(udt.Base);
                        }
                        if (udt.BaseInterfaces != null && udt.BaseInterfaces.Length != 0)
                        {
                            l.AddRange(udt.BaseInterfaces);
                        }

                        res = new DTuple(isExpression, l);
                    }
                }
                break;

            case DTokens.Const:
            case DTokens.Immutable:
            case DTokens.InOut:                     // TODO?
            case DTokens.Shared:
                if (r = typeToCheck.Modifier == isExpression.TypeSpecializationToken)
                {
                    res = typeToCheck;
                }
                break;

            case DTokens.Return:                     // TODO: Test
                IStatement _u = null;
                var        dm = DResolver.SearchBlockAt(ctxt.ScopedBlock, isExpression.Location, out _u) as DMethod;

                if (dm != null)
                {
                    var retType_ = TypeDeclarationResolver.GetMethodReturnType(dm, ctxt);

                    if (r = retType_ != null && ResultComparer.IsEqual(typeToCheck, retType_))
                    {
                        res = retType_;
                    }
                }
                break;
            }

            return(new Tuple <bool, AbstractType>(r, res));
        }