isSpecialByRefType() public method

public isSpecialByRefType ( ) : bool
return bool
Esempio n. 1
0
            private AggCastResult bindExplicitConversionToAggregate(AggregateType aggTypeDest)
            {
                Debug.Assert(_typeSrc != null);
                Debug.Assert(aggTypeDest != null);

                // TypeReference and ArgIterator can't be boxed (or converted to anything else)
                if (_typeSrc.isSpecialByRefType())
                {
                    return(AggCastResult.Abort);
                }

                AggCastResult result;

                result = bindExplicitConversionFromEnumToAggregate(aggTypeDest);
                if (result != AggCastResult.Failure)
                {
                    return(result);
                }

                result = bindExplicitConversionToEnum(aggTypeDest);
                if (result != AggCastResult.Failure)
                {
                    return(result);
                }

                result = bindExplicitConversionBetweenSimpleTypes(aggTypeDest);
                if (result != AggCastResult.Failure)
                {
                    return(result);
                }

                result = bindExplicitConversionBetweenAggregates(aggTypeDest);
                if (result != AggCastResult.Failure)
                {
                    return(result);
                }

                result = bindExplicitConversionFromPointerToInt(aggTypeDest);
                if (result != AggCastResult.Failure)
                {
                    return(result);
                }

                if (_typeSrc.IsVoidType())
                {
                    // No conversion is allowed to or from a void type (user defined or otherwise)
                    // This is most likely the result of a failed anonymous method or member group conversion
                    return(AggCastResult.Abort);
                }

                result = bindExplicitConversionFromTypeVarToAggregate(aggTypeDest);
                if (result != AggCastResult.Failure)
                {
                    return(result);
                }

                return(AggCastResult.Failure);
            }
Esempio n. 2
0
            /*
             * BindImplicitConversion
             *
             * This is a complex routine with complex parameters. Generally, this should
             * be called through one of the helper methods that insulates you
             * from the complexity of the interface. This routine handles all the logic
             * associated with implicit conversions.
             *
             * exprSrc - the expression being converted. Can be null if only type conversion
             *           info is being supplied.
             * typeSrc - type of the source
             * typeDest - type of the destination
             * exprDest - returns an expression of the src converted to the dest. If null, we
             *            only care about whether the conversion can be attempted, not the
             *            expression tree.
             * flags    - flags possibly customizing the conversions allowed. E.g., can suppress
             *            user-defined conversions.
             *
             * returns true if the conversion can be made, false if not.
             */
            public bool Bind()
            {
                // 13.1 Implicit conversions
                //
                // The following conversions are classified as implicit conversions:
                //
                // *   Identity conversions
                // *   Implicit numeric conversions
                // *   Implicit enumeration conversions
                // *   Implicit reference conversions
                // *   Boxing conversions
                // *   Implicit type parameter conversions
                // *   Implicit constant expression conversions
                // *   User-defined implicit conversions
                // *   Implicit conversions from an anonymous method expression to a compatible delegate type
                // *   Implicit conversion from a method group to a compatible delegate type
                // *   Conversions from the null type (11.2.7) to any nullable type
                // *   Implicit nullable conversions
                // *   Lifted user-defined implicit conversions
                //
                // Implicit conversions can occur in a variety of situations, including function member invocations
                // (14.4.3), cast expressions (14.6.6), and assignments (14.14).

                // Can't convert to or from the error type.
                if (typeSrc == null || typeDest == null || typeDest.IsNeverSameType())
                {
                    return(false);
                }

                Debug.Assert(typeSrc != null && typeDest != null);         // types must be supplied.
                Debug.Assert(exprSrc == null || typeSrc == exprSrc.type);  // type of source should be correct if source supplied
                Debug.Assert(!needsExprDest || exprSrc != null);           // need source expr to create dest expr

                switch (typeDest.GetTypeKind())
                {
                case TypeKind.TK_ErrorType:
                    Debug.Assert(typeDest.AsErrorType().HasTypeParent() || typeDest.AsErrorType().HasNSParent());
                    if (typeSrc != typeDest)
                    {
                        return(false);
                    }
                    if (needsExprDest)
                    {
                        exprDest = exprSrc;
                    }
                    return(true);

                case TypeKind.TK_NullType:
                    // Can only convert to the null type if src is null.
                    if (!typeSrc.IsNullType())
                    {
                        return(false);
                    }
                    if (needsExprDest)
                    {
                        exprDest = exprSrc;
                    }
                    return(true);

                case TypeKind.TK_MethodGroupType:
                    VSFAIL("Something is wrong with Type.IsNeverSameType()");
                    return(false);

                case TypeKind.TK_NaturalIntegerType:
                case TypeKind.TK_ArgumentListType:
                    return(typeSrc == typeDest);

                case TypeKind.TK_VoidType:
                    return(false);

                default:
                    break;
                }

                if (typeSrc.IsErrorType())
                {
                    Debug.Assert(!typeDest.IsErrorType());
                    return(false);
                }

                // 13.1.1 Identity conversion
                //
                // An identity conversion converts from any type to the same type. This conversion exists only
                // such that an entity that already has a required type can be said to be convertible to that type.

                if (typeSrc == typeDest &&
                    ((flags & CONVERTTYPE.ISEXPLICIT) == 0 || (!typeSrc.isPredefType(PredefinedType.PT_FLOAT) && !typeSrc.isPredefType(PredefinedType.PT_DOUBLE))))
                {
                    if (needsExprDest)
                    {
                        exprDest = exprSrc;
                    }
                    return(true);
                }

                if (typeDest.IsNullableType())
                {
                    return(BindNubConversion(typeDest.AsNullableType()));
                }

                if (typeSrc.IsNullableType())
                {
                    return(bindImplicitConversionFromNullable(typeSrc.AsNullableType()));
                }

                if ((flags & CONVERTTYPE.ISEXPLICIT) != 0)
                {
                    flags |= CONVERTTYPE.NOUDC;
                }

                // Get the fundamental types of destination.
                FUNDTYPE ftDest = typeDest.fundType();

                Debug.Assert(ftDest != FUNDTYPE.FT_NONE || typeDest.IsParameterModifierType());

                switch (typeSrc.GetTypeKind())
                {
                default:
                    VSFAIL("Bad type symbol kind");
                    break;

                case TypeKind.TK_MethodGroupType:
                    if (exprSrc.isMEMGRP())
                    {
                        EXPRCALL outExpr;
                        bool     retVal = binder.BindGrpConversion(exprSrc.asMEMGRP(), typeDest, needsExprDest, out outExpr, false);
                        exprDest = outExpr;
                        return(retVal);
                    }
                    return(false);

                case TypeKind.TK_VoidType:
                case TypeKind.TK_ErrorType:
                case TypeKind.TK_ParameterModifierType:
                case TypeKind.TK_ArgumentListType:
                    return(false);

                case TypeKind.TK_NullType:
                    if (bindImplicitConversionFromNull())
                    {
                        return(true);
                    }
                    // If not, try user defined implicit conversions.
                    break;

                case TypeKind.TK_ArrayType:
                    if (bindImplicitConversionFromArray())
                    {
                        return(true);
                    }
                    // If not, try user defined implicit conversions.
                    break;

                case TypeKind.TK_PointerType:
                    if (bindImplicitConversionFromPointer())
                    {
                        return(true);
                    }
                    // If not, try user defined implicit conversions.
                    break;

                case TypeKind.TK_TypeParameterType:
                    if (bindImplicitConversionFromTypeVar(typeSrc.AsTypeParameterType()))
                    {
                        return(true);
                    }
                    // If not, try user defined implicit conversions.
                    break;

                case TypeKind.TK_AggregateType:
                    // TypeReference and ArgIterator can't be boxed (or converted to anything else)
                    if (typeSrc.isSpecialByRefType())
                    {
                        return(false);
                    }
                    if (bindImplicitConversionFromAgg(typeSrc.AsAggregateType()))
                    {
                        return(true);
                    }
                    // If not, try user defined implicit conversions.
                    break;
                }

                // !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
                // RUNTIME BINDER ONLY CHANGE
                // !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
                //
                // Every incoming dynamic operand should be implicitly convertible
                // to any type that it is an instance of.

                if (exprSrc != null &&
                    exprSrc.RuntimeObject != null &&
                    typeDest.AssociatedSystemType.IsInstanceOfType(exprSrc.RuntimeObject) &&
                    binder.GetSemanticChecker().CheckTypeAccess(typeDest, binder.Context.ContextForMemberLookup()))
                {
                    if (needsExprDest)
                    {
                        binder.bindSimpleCast(exprSrc, exprTypeDest, out exprDest, exprSrc.flags & EXPRFLAG.EXF_CANTBENULL);
                    }
                    return(true);
                }

                // !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
                // END RUNTIME BINDER ONLY CHANGE
                // !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!

                // 13.1.8 User-defined implicit conversions
                //
                // A user-defined implicit conversion consists of an optional standard implicit conversion,
                // followed by execution of a user-defined implicit conversion operator, followed by another
                // optional standard implicit conversion. The exact rules for evaluating user-defined
                // conversions are described in 13.4.3.

                if (0 == (flags & CONVERTTYPE.NOUDC))
                {
                    return(binder.bindUserDefinedConversion(exprSrc, typeSrc, typeDest, needsExprDest, out exprDest, true));
                }

                // No conversion was found.

                return(false);
            }
Esempio n. 3
0
        private static bool CheckSingleConstraint(CSemanticChecker checker, ErrorHandling errHandling, Symbol symErr, TypeParameterType var, CType arg, TypeArray typeArgsCls, TypeArray typeArgsMeth, CheckConstraintsFlags flags)
        {
            bool fReportErrors = 0 == (flags & CheckConstraintsFlags.NoErrors);

            if (arg.IsOpenTypePlaceholderType())
            {
                return true;
            }

            if (arg.IsErrorType())
            {
                // Error should have been reported previously.
                return false;
            }

            if (checker.CheckBogus(arg))
            {
                if (fReportErrors)
                {
                    errHandling.ErrorRef(ErrorCode.ERR_BogusType, arg);
                }

                return false;
            }

            if (arg.IsPointerType() || arg.isSpecialByRefType())
            {
                if (fReportErrors)
                {
                    errHandling.Error(ErrorCode.ERR_BadTypeArgument, arg);
                }

                return false;
            }

            if (arg.isStaticClass())
            {
                if (fReportErrors)
                {
                    checker.ReportStaticClassError(null, arg, ErrorCode.ERR_GenericArgIsStaticClass);
                }

                return false;
            }

            bool fError = false;
            if (var.HasRefConstraint() && !arg.IsRefType())
            {
                if (fReportErrors)
                {
                    errHandling.ErrorRef(ErrorCode.ERR_RefConstraintNotSatisfied, symErr, new ErrArgNoRef(var), arg);
                }

                fError = true;
            }

            TypeArray bnds = checker.GetSymbolLoader().GetTypeManager().SubstTypeArray(var.GetBounds(), typeArgsCls, typeArgsMeth);
            int itypeMin = 0;

            if (var.HasValConstraint())
            {
                // If we have a type variable that is constrained to a value type, then we
                // want to check if its a nullable type, so that we can report the 
                // constraint error below. In order to do this however, we need to check 
                // that either the type arg is not a value type, or it is a nullable type.
                //
                // To check whether or not its a nullable type, we need to get the resolved
                // bound from the type argument and check against that.

                bool bIsValueType = arg.IsValType();
                bool bIsNullable = arg.IsNullableType();
                if (bIsValueType && arg.IsTypeParameterType())
                {
                    TypeArray pArgBnds = arg.AsTypeParameterType().GetBounds();
                    if (pArgBnds.size > 0)
                    {
                        bIsNullable = pArgBnds.Item(0).IsNullableType();
                    }
                }

                if (!bIsValueType || bIsNullable)
                {
                    if (fReportErrors)
                    {
                        errHandling.ErrorRef(ErrorCode.ERR_ValConstraintNotSatisfied, symErr, new ErrArgNoRef(var), arg);
                    }

                    fError = true;
                }

                // Since FValCon() is set it is redundant to check System.ValueType as well.
                if (bnds.size != 0 && bnds.Item(0).isPredefType(PredefinedType.PT_VALUE))
                {
                    itypeMin = 1;
                }
            }

            for (int j = itypeMin; j < bnds.size; j++)
            {
                CType typeBnd = bnds.Item(j);
                if (!SatisfiesBound(checker, arg, typeBnd))
                {
                    if (fReportErrors)
                    {
                        // The bound isn't satisfied because of a constaint type. Explain to the user why not.
                        // There are 4 main cases, based on the type of the supplied type argument:
                        //  - reference type, or type parameter known to be a reference type
                        //  - nullable type, from which there is a boxing conversion to the constraint type(see below for details)
                        //  - type varaiable
                        //  - value type
                        // These cases are broken out because: a) The sets of conversions which can be used 
                        // for constraint satisfaction is different based on the type argument supplied, 
                        // and b) Nullable is one funky type, and user's can use all the help they can get
                        // when using it.
                        ErrorCode error;
                        if (arg.IsRefType())
                        {
                            // A reference type can only satisfy bounds to types 
                            // to which they have an implicit reference conversion
                            error = ErrorCode.ERR_GenericConstraintNotSatisfiedRefType;
                        }
                        else if (arg.IsNullableType() && checker.GetSymbolLoader().HasBaseConversion(arg.AsNullableType().GetUnderlyingType(), typeBnd))    // This is inlining FBoxingConv
                        {
                            // nullable types do not satisfy bounds to every type that they are boxable to
                            // They only satisfy bounds of object and ValueType
                            if (typeBnd.isPredefType(PredefinedType.PT_ENUM) || arg.AsNullableType().GetUnderlyingType() == typeBnd)
                            {
                                // Nullable types don't satisfy bounds of EnumType, or the underlying type of the enum
                                // even though the conversion from Nullable to these types is a boxing conversion
                                // This is a rare case, because these bounds can never be directly stated ...
                                // These bounds can only occur when one type paramter is constrained to a second type parameter
                                // and the second type parameter is instantiated with Enum or the underlying type of the first type
                                // parameter
                                error = ErrorCode.ERR_GenericConstraintNotSatisfiedNullableEnum;
                            }
                            else
                            {
                                // Nullable types don't satisfy the bounds of any interface type
                                // even when there is a boxing conversion from the Nullable type to 
                                // the interface type. This will be a relatively common scenario
                                // so we cal it out separately from the previous case.
                                Debug.Assert(typeBnd.isInterfaceType());
                                error = ErrorCode.ERR_GenericConstraintNotSatisfiedNullableInterface;
                            }
                        }
                        else if (arg.IsTypeParameterType())
                        {
                            // Type variables can satisfy bounds through boxing and type variable conversions
                            Debug.Assert(!arg.IsRefType());
                            error = ErrorCode.ERR_GenericConstraintNotSatisfiedTyVar;
                        }
                        else
                        {
                            // Value types can only satisfy bounds through boxing conversions.
                            // Note that the exceptional case of Nullable types and boxing is handled above.
                            error = ErrorCode.ERR_GenericConstraintNotSatisfiedValType;
                        }
                        errHandling.Error(error, new ErrArgRef(symErr), new ErrArg(typeBnd, ErrArgFlags.Unique), var, new ErrArgRef(arg, ErrArgFlags.Unique));
                    }
                    fError = true;
                }
            }

            // Check the newable constraint.
            if (!var.HasNewConstraint() || arg.IsValType())
            {
                return !fError;
            }

            if (arg.isClassType())
            {
                AggregateSymbol agg = arg.AsAggregateType().getAggregate();

                // Due to late binding nature of IDE created symbols, the AggregateSymbol might not
                // have all the information necessary yet, if it is not fully bound.
                // by calling LookupAggMember, it will ensure that we will update all the
                // information necessary at least for the given method.
                checker.GetSymbolLoader().LookupAggMember(checker.GetNameManager().GetPredefName(PredefinedName.PN_CTOR), agg, symbmask_t.MASK_ALL);

                if (agg.HasPubNoArgCtor() && !agg.IsAbstract())
                {
                    return !fError;
                }
            }
            else if (arg.IsTypeParameterType() && arg.AsTypeParameterType().HasNewConstraint())
            {
                return !fError;
            }

            if (fReportErrors)
            {
                errHandling.ErrorRef(ErrorCode.ERR_NewConstraintNotSatisfied, symErr, new ErrArgNoRef(var), arg);
            }

            return false;
        }
Esempio n. 4
0
        private static bool CheckSingleConstraint(CSemanticChecker checker, ErrorHandling errHandling, Symbol symErr, TypeParameterType var, CType arg, TypeArray typeArgsCls, TypeArray typeArgsMeth, CheckConstraintsFlags flags)
        {
            bool fReportErrors = 0 == (flags & CheckConstraintsFlags.NoErrors);

            if (arg.IsOpenTypePlaceholderType())
            {
                return(true);
            }

            if (arg.IsErrorType())
            {
                // Error should have been reported previously.
                return(false);
            }

            if (checker.CheckBogus(arg))
            {
                if (fReportErrors)
                {
                    errHandling.ErrorRef(ErrorCode.ERR_BogusType, arg);
                }

                return(false);
            }

            if (arg.IsPointerType() || arg.isSpecialByRefType())
            {
                if (fReportErrors)
                {
                    errHandling.Error(ErrorCode.ERR_BadTypeArgument, arg);
                }

                return(false);
            }

            if (arg.isStaticClass())
            {
                if (fReportErrors)
                {
                    checker.ReportStaticClassError(null, arg, ErrorCode.ERR_GenericArgIsStaticClass);
                }

                return(false);
            }

            bool fError = false;

            if (var.HasRefConstraint() && !arg.IsRefType())
            {
                if (fReportErrors)
                {
                    errHandling.ErrorRef(ErrorCode.ERR_RefConstraintNotSatisfied, symErr, new ErrArgNoRef(var), arg);
                }

                fError = true;
            }

            TypeArray bnds     = checker.GetSymbolLoader().GetTypeManager().SubstTypeArray(var.GetBounds(), typeArgsCls, typeArgsMeth);
            int       itypeMin = 0;

            if (var.HasValConstraint())
            {
                // If we have a type variable that is constrained to a value type, then we
                // want to check if its a nullable type, so that we can report the
                // constraint error below. In order to do this however, we need to check
                // that either the type arg is not a value type, or it is a nullable type.
                //
                // To check whether or not its a nullable type, we need to get the resolved
                // bound from the type argument and check against that.

                bool bIsValueType = arg.IsValType();
                bool bIsNullable  = arg.IsNullableType();
                if (bIsValueType && arg.IsTypeParameterType())
                {
                    TypeArray pArgBnds = arg.AsTypeParameterType().GetBounds();
                    if (pArgBnds.Count > 0)
                    {
                        bIsNullable = pArgBnds[0].IsNullableType();
                    }
                }

                if (!bIsValueType || bIsNullable)
                {
                    if (fReportErrors)
                    {
                        errHandling.ErrorRef(ErrorCode.ERR_ValConstraintNotSatisfied, symErr, new ErrArgNoRef(var), arg);
                    }

                    fError = true;
                }

                // Since FValCon() is set it is redundant to check System.ValueType as well.
                if (bnds.Count != 0 && bnds[0].isPredefType(PredefinedType.PT_VALUE))
                {
                    itypeMin = 1;
                }
            }

            for (int j = itypeMin; j < bnds.Count; j++)
            {
                CType typeBnd = bnds[j];
                if (!SatisfiesBound(checker, arg, typeBnd))
                {
                    if (fReportErrors)
                    {
                        // The bound isn't satisfied because of a constraint type. Explain to the user why not.
                        // There are 4 main cases, based on the type of the supplied type argument:
                        //  - reference type, or type parameter known to be a reference type
                        //  - nullable type, from which there is a boxing conversion to the constraint type(see below for details)
                        //  - type variable
                        //  - value type
                        // These cases are broken out because: a) The sets of conversions which can be used
                        // for constraint satisfaction is different based on the type argument supplied,
                        // and b) Nullable is one funky type, and user's can use all the help they can get
                        // when using it.
                        ErrorCode error;
                        if (arg.IsRefType())
                        {
                            // A reference type can only satisfy bounds to types
                            // to which they have an implicit reference conversion
                            error = ErrorCode.ERR_GenericConstraintNotSatisfiedRefType;
                        }
                        else if (arg.IsNullableType() && checker.GetSymbolLoader().HasBaseConversion(arg.AsNullableType().GetUnderlyingType(), typeBnd))    // This is inlining FBoxingConv
                        {
                            // nullable types do not satisfy bounds to every type that they are boxable to
                            // They only satisfy bounds of object and ValueType
                            if (typeBnd.isPredefType(PredefinedType.PT_ENUM) || arg.AsNullableType().GetUnderlyingType() == typeBnd)
                            {
                                // Nullable types don't satisfy bounds of EnumType, or the underlying type of the enum
                                // even though the conversion from Nullable to these types is a boxing conversion
                                // This is a rare case, because these bounds can never be directly stated ...
                                // These bounds can only occur when one type paramter is constrained to a second type parameter
                                // and the second type parameter is instantiated with Enum or the underlying type of the first type
                                // parameter
                                error = ErrorCode.ERR_GenericConstraintNotSatisfiedNullableEnum;
                            }
                            else
                            {
                                // Nullable types don't satisfy the bounds of any interface type
                                // even when there is a boxing conversion from the Nullable type to
                                // the interface type. This will be a relatively common scenario
                                // so we cal it out separately from the previous case.
                                Debug.Assert(typeBnd.isInterfaceType());
                                error = ErrorCode.ERR_GenericConstraintNotSatisfiedNullableInterface;
                            }
                        }
                        else if (arg.IsTypeParameterType())
                        {
                            // Type variables can satisfy bounds through boxing and type variable conversions
                            Debug.Assert(!arg.IsRefType());
                            error = ErrorCode.ERR_GenericConstraintNotSatisfiedTyVar;
                        }
                        else
                        {
                            // Value types can only satisfy bounds through boxing conversions.
                            // Note that the exceptional case of Nullable types and boxing is handled above.
                            error = ErrorCode.ERR_GenericConstraintNotSatisfiedValType;
                        }
                        errHandling.Error(error, new ErrArgRef(symErr), new ErrArg(typeBnd, ErrArgFlags.Unique), var, new ErrArgRef(arg, ErrArgFlags.Unique));
                    }
                    fError = true;
                }
            }

            // Check the newable constraint.
            if (!var.HasNewConstraint() || arg.IsValType())
            {
                return(!fError);
            }

            if (arg.isClassType())
            {
                AggregateSymbol agg = arg.AsAggregateType().getAggregate();

                // Due to late binding nature of IDE created symbols, the AggregateSymbol might not
                // have all the information necessary yet, if it is not fully bound.
                // by calling LookupAggMember, it will ensure that we will update all the
                // information necessary at least for the given method.
                checker.GetSymbolLoader().LookupAggMember(checker.GetNameManager().GetPredefName(PredefinedName.PN_CTOR), agg, symbmask_t.MASK_ALL);

                if (agg.HasPubNoArgCtor() && !agg.IsAbstract())
                {
                    return(!fError);
                }
            }
            else if (arg.IsTypeParameterType() && arg.AsTypeParameterType().HasNewConstraint())
            {
                return(!fError);
            }

            if (fReportErrors)
            {
                errHandling.ErrorRef(ErrorCode.ERR_NewConstraintNotSatisfied, symErr, new ErrArgNoRef(var), arg);
            }

            return(false);
        }