Пример #1
0
 public void SetProperty(PropertySymbol prop)
 {
     Debug.Assert(isPropertyAccessor());
     _prop = prop;
 }
Пример #2
0
 public PropWithType(PropertySymbol prop, AggregateType ats)
 {
     Set(prop, ats);
 }
Пример #3
0
        protected Symbol newBasicSym(
            SYMKIND kind,
            Name name,
            ParentSymbol parent)
        {
            // The parser creates names with PN_MISSING when attempting to recover from errors
            // To prevent spurious errors, we create SYMs with a different name (PN_MISSINGSYM)
            // so that they are never found when doing lookup.
            if (name == m_pMissingNameNode)
            {
                name = m_pMissingNameSym;
            }

            Symbol sym;
            switch (kind)
            {
                case SYMKIND.SK_NamespaceSymbol:
                    sym = new NamespaceSymbol();
                    sym.name = name;
                    break;
                case SYMKIND.SK_NamespaceDeclaration:
                    sym = new NamespaceDeclaration();
                    sym.name = name;
                    break;
                case SYMKIND.SK_AssemblyQualifiedNamespaceSymbol:
                    sym = new AssemblyQualifiedNamespaceSymbol();
                    sym.name = name;
                    break;
                case SYMKIND.SK_AggregateSymbol:
                    sym = new AggregateSymbol();
                    sym.name = name;
                    break;
                case SYMKIND.SK_AggregateDeclaration:
                    sym = new AggregateDeclaration();
                    sym.name = name;
                    break;
                case SYMKIND.SK_TypeParameterSymbol:
                    sym = new TypeParameterSymbol();
                    sym.name = name;
                    break;
                case SYMKIND.SK_FieldSymbol:
                    sym = new FieldSymbol();
                    sym.name = name;
                    break;
                case SYMKIND.SK_LocalVariableSymbol:
                    sym = new LocalVariableSymbol();
                    sym.name = name;
                    break;
                case SYMKIND.SK_MethodSymbol:
                    sym = new MethodSymbol();
                    sym.name = name;
                    break;
                case SYMKIND.SK_PropertySymbol:
                    sym = new PropertySymbol();
                    sym.name = name;
                    break;
                case SYMKIND.SK_EventSymbol:
                    sym = new EventSymbol();
                    sym.name = name;
                    break;
                case SYMKIND.SK_TransparentIdentifierMemberSymbol:
                    sym = new TransparentIdentifierMemberSymbol();
                    sym.name = name;
                    break;
                case SYMKIND.SK_Scope:
                    sym = new Scope();
                    sym.name = name;
                    break;
                case SYMKIND.SK_LabelSymbol:
                    sym = new LabelSymbol();
                    sym.name = name;
                    break;
                case SYMKIND.SK_GlobalAttributeDeclaration:
                    sym = new GlobalAttributeDeclaration();
                    sym.name = name;
                    break;
                case SYMKIND.SK_UnresolvedAggregateSymbol:
                    sym = new UnresolvedAggregateSymbol();
                    sym.name = name;
                    break;
                case SYMKIND.SK_InterfaceImplementationMethodSymbol:
                    sym = new InterfaceImplementationMethodSymbol();
                    sym.name = name;
                    break;
                case SYMKIND.SK_IndexerSymbol:
                    sym = new IndexerSymbol();
                    sym.name = name;
                    break;
                case SYMKIND.SK_ParentSymbol:
                    sym = new ParentSymbol();
                    sym.name = name;
                    break;
                case SYMKIND.SK_IteratorFinallyMethodSymbol:
                    sym = new IteratorFinallyMethodSymbol();
                    sym.name = name;
                    break;
                default:
                    throw Error.InternalCompilerError();
            }

            sym.setKind(kind);

            if (parent != null)
            {
                // Set the parent element of the child symbol.
                parent.AddToChildList(sym);
                m_pSymTable.InsertChild(parent, sym);
            }

            return (sym);
        }
Пример #4
0
 protected void ErrAppendProperty(PropertySymbol prop, SubstContext pctx)
 {
     ErrAppendParentSym(prop, pctx);
     if (prop.IsExpImpl() && prop.swtSlot.Sym != null)
     {
         SubstContext ctx = new SubstContext(GetTypeManager().SubstType(prop.swtSlot.GetType(), pctx).AsAggregateType());
         ErrAppendSym(prop.swtSlot.Sym, ctx);
     }
     else if (prop.IsExpImpl())
     {
         if (prop.errExpImpl != null)
             ErrAppendType(prop.errExpImpl, pctx, false);
         if (prop.isIndexer())
         {
             ErrAppendChar('.');
             ErrAppendIndexer(prop.AsIndexerSymbol(), pctx);
         }
     }
     else if (prop.isIndexer())
     {
         ErrAppendIndexer(prop.AsIndexerSymbol(), pctx);
     }
     else
     {
         ErrAppendName(prop.name);
     }
 }
Пример #5
0
        /******************************************************************************
        *   Search just the given type (not any bases). Returns true iff it finds
        *   something (which will have been recorded by RecordType).
        *
        *   pfHideByName is set to true iff something was found that hides all
        *   members of base types (eg, a hidebyname method).
        ******************************************************************************/
        private bool SearchSingleType(AggregateType typeCur, out bool pfHideByName)
        {
            bool fFoundSome = false;

            pfHideByName = false;

            // Make sure this type is accessible. It may not be due to private inheritance
            // or friend assemblies.
            bool fInaccess = !CSemanticChecker.CheckTypeAccess(typeCur, _symWhere);

            if (fInaccess && (_csym != 0 || _swtInaccess != null))
            {
                return(false);
            }

            // Loop through symbols.
            Symbol symCur;

            for (symCur = SymbolLoader.LookupAggMember(_name, typeCur.OwningAggregate, symbmask_t.MASK_Member);
                 symCur != null;
                 symCur = symCur.LookupNext(symbmask_t.MASK_Member))
            {
                Debug.Assert(!(symCur is AggregateSymbol));
                // Check for arity.
                // For non-zero arity, only methods of the correct arity are considered.
                // For zero arity, don't filter out any methods since we do type argument
                // inferencing.
                // All others are only considered when arity is zero.
                if (_arity > 0 && (!(symCur is MethodSymbol curMeth) || curMeth.typeVars.Count != _arity))
                {
                    if (!_swtBadArity)
                    {
                        _swtBadArity.Set(symCur, typeCur);
                    }

                    continue;
                }

                // Check for user callability.
                if (symCur.IsOverride() && !symCur.IsHideByName())
                {
                    continue;
                }

                MethodOrPropertySymbol methProp = symCur as MethodOrPropertySymbol;
                MethodSymbol           meth     = symCur as MethodSymbol;
                if (methProp != null && (_flags & MemLookFlags.UserCallable) != 0 && !methProp.isUserCallable())
                {
                    // If its an indexed property method symbol, let it through.
                    // This is too liberal, but maintained for compatibility.
                    if (meth == null ||
                        !meth.isPropertyAccessor() ||
                        (!symCur.name.Text.StartsWith("set_", StringComparison.Ordinal) || meth.Params.Count <= 1) &&
                        (!symCur.name.Text.StartsWith("get_", StringComparison.Ordinal) || meth.Params.Count <= 0))
                    {
                        if (!_swtInaccess)
                        {
                            _swtInaccess.Set(symCur, typeCur);
                        }

                        continue;
                    }
                }

                if (fInaccess || !CSemanticChecker.CheckAccess(symCur, typeCur, _symWhere, _typeQual))
                {
                    // Not accessible so get the next sym.
                    if (!_swtInaccess)
                    {
                        _swtInaccess.Set(symCur, typeCur);
                    }
                    if (fInaccess)
                    {
                        return(false);
                    }
                    continue;
                }

                PropertySymbol prop = symCur as PropertySymbol;

                // Make sure that whether we're seeing a ctor, operator, or indexer is consistent with the flags.
                if (((_flags & MemLookFlags.Ctor) == 0) != (meth == null || !meth.IsConstructor()) ||
                    ((_flags & MemLookFlags.Operator) == 0) != (meth == null || !meth.isOperator) ||
                    ((_flags & MemLookFlags.Indexer) == 0) != !(prop is IndexerSymbol))
                {
                    if (!_swtBad)
                    {
                        _swtBad.Set(symCur, typeCur);
                    }
                    continue;
                }

                // We can't call CheckBogus on methods or indexers because if the method has the wrong
                // number of parameters people don't think they should have to /r the assemblies containing
                // the parameter types and they complain about the resulting CS0012 errors.
                if (!(symCur is MethodSymbol) && (_flags & MemLookFlags.Indexer) == 0 && CSemanticChecker.CheckBogus(symCur))
                {
                    // A bogus member - we can't use these, so only record them for error reporting.
                    if (!_swtBogus)
                    {
                        _swtBogus.Set(symCur, typeCur);
                    }
                    continue;
                }

                // if we are in a calling context then we should only find a property if it is delegate valued
                if ((_flags & MemLookFlags.MustBeInvocable) != 0)
                {
                    if ((symCur is FieldSymbol field && !IsDelegateType(field.GetType(), typeCur) && !IsDynamicMember(symCur)) ||
                        (prop != null && !IsDelegateType(prop.RetType, typeCur) && !IsDynamicMember(symCur)))
                    {
                        if (!_swtBad)
                        {
                            _swtBad.Set(symCur, typeCur);
                        }
                        continue;
                    }
                }

                if (methProp != null)
                {
                    MethPropWithType mwpInsert = new MethPropWithType(methProp, typeCur);
                    _methPropWithTypeList.Add(mwpInsert);
                }

                // We have a visible symbol.
                fFoundSome = true;

                if (_swtFirst)
                {
                    if (!typeCur.IsInterfaceType)
                    {
                        // Non-interface case.
                        Debug.Assert(_fMulti || typeCur == _prgtype[0]);
                        if (!_fMulti)
                        {
                            if (_swtFirst.Sym is FieldSymbol && symCur is EventSymbol
                                // The isEvent bit is only set on symbols which come from source...
                                // This is not a problem for the compiler because the field is only
                                // accessible in the scope in which it is declared,
                                // but in the EE we ignore accessibility...
                                && _swtFirst.Field().isEvent
                                )
                            {
                                // m_swtFirst is just the field behind the event symCur so ignore symCur.
                                continue;
                            }
                            else if (_swtFirst.Sym is FieldSymbol && symCur is EventSymbol)
                            {
                                // symCur is the matching event.
                                continue;
                            }
                            goto LAmbig;
                        }
                        if (_swtFirst.Sym.getKind() != symCur.getKind())
                        {
                            if (typeCur == _prgtype[0])
                            {
                                goto LAmbig;
                            }
                            // This one is hidden by the first one. This one also hides any more in base types.
                            pfHideByName = true;
                            continue;
                        }
                    }
                    // Interface case.
                    // m_fMulti   : n n n y y y y y
                    // same-kind  : * * * y n n n n
                    // fDiffHidden: * * * * y n n n
                    // meth       : * * * * * y n *  can n happen? just in case, we better handle it....
                    // hack       : n * y * * y * n
                    // meth-2     : * n y * * * * *
                    // res        : A A S R H H A A
                    else if (!_fMulti)
                    {
                        // Give method groups priority.
                        if (!(symCur is MethodSymbol))
                        {
                            goto LAmbig;
                        }
                        // Erase previous results so we'll record this method as the first.
                        _prgtype = new List <AggregateType>();
                        _csym    = 0;
                        _swtFirst.Clear();
                        _swtAmbig.Clear();
                    }
                    else if (_swtFirst.Sym.getKind() != symCur.getKind())
                    {
                        if (!typeCur.DiffHidden)
                        {
                            // Give method groups priority.
                            if (!(_swtFirst.Sym is MethodSymbol))
                            {
                                goto LAmbig;
                            }
                        }
                        // This one is hidden by another. This one also hides any more in base types.
                        pfHideByName = true;
                        continue;
                    }
                }

                RecordType(typeCur, symCur);

                if (methProp != null && methProp.isHideByName)
                {
                    pfHideByName = true;
                }
                // We've found a symbol in this type but need to make sure there aren't any conflicting
                // syms here, so keep searching the type.
            }

            Debug.Assert(!fInaccess || !fFoundSome);

            return(fFoundSome);

LAmbig:
            // Ambiguous!
            if (!_swtAmbig)
            {
                _swtAmbig.Set(symCur, typeCur);
            }
            pfHideByName = true;
            return(true);
        }
Пример #6
0
        public EXPRPropertyInfo CreatePropertyInfo(PropertySymbol prop, AggregateType propertyType)
        {
            Debug.Assert(prop != null);
            Debug.Assert(propertyType != null);
            EXPRPropertyInfo propInfo = new EXPRPropertyInfo();

            propInfo.kind = ExpressionKind.EK_PROPERTYINFO;
            propInfo.type = GetTypes().GetOptPredefAgg(PredefinedType.PT_PROPERTYINFO).getThisType();
            propInfo.flags = 0;
            propInfo.Property = new PropWithType(prop, propertyType);

            return propInfo;
        }
Пример #7
0
 public void SetProperty(PropertySymbol prop)
 {
     Debug.Assert(isPropertyAccessor());
     _prop = prop;
 }
Пример #8
0
 public PropWithType(PropertySymbol prop, AggregateType ats)
 {
     Set(prop, ats);
 }
Пример #9
0
 public ExprPropertyInfo CreatePropertyInfo(PropertySymbol prop, AggregateType propertyType) =>
 new ExprPropertyInfo(Types.GetPredefAgg(PredefinedType.PT_PROPERTYINFO).getThisType(), prop, propertyType);
Пример #10
0
        private Symbol NewBasicSymbol(
            SYMKIND kind,
            Name name,
            ParentSymbol parent)
        {
            Symbol sym;

            switch (kind)
            {
            case SYMKIND.SK_NamespaceSymbol:
                sym      = new NamespaceSymbol();
                sym.name = name;
                break;

            case SYMKIND.SK_AssemblyQualifiedNamespaceSymbol:
                sym      = new AssemblyQualifiedNamespaceSymbol();
                sym.name = name;
                break;

            case SYMKIND.SK_AggregateSymbol:
                sym      = new AggregateSymbol();
                sym.name = name;
                break;

            case SYMKIND.SK_AggregateDeclaration:
                sym      = new AggregateDeclaration();
                sym.name = name;
                break;

            case SYMKIND.SK_TypeParameterSymbol:
                sym      = new TypeParameterSymbol();
                sym.name = name;
                break;

            case SYMKIND.SK_FieldSymbol:
                sym      = new FieldSymbol();
                sym.name = name;
                break;

            case SYMKIND.SK_LocalVariableSymbol:
                sym      = new LocalVariableSymbol();
                sym.name = name;
                break;

            case SYMKIND.SK_MethodSymbol:
                sym      = new MethodSymbol();
                sym.name = name;
                break;

            case SYMKIND.SK_PropertySymbol:
                sym      = new PropertySymbol();
                sym.name = name;
                break;

            case SYMKIND.SK_EventSymbol:
                sym      = new EventSymbol();
                sym.name = name;
                break;

            case SYMKIND.SK_Scope:
                sym      = new Scope();
                sym.name = name;
                break;

            case SYMKIND.SK_IndexerSymbol:
                sym      = new IndexerSymbol();
                sym.name = name;
                break;

            default:
                throw Error.InternalCompilerError();
            }

            sym.setKind(kind);

            if (parent != null)
            {
                // Set the parent element of the child symbol.
                parent.AddToChildList(sym);
                _symbolTable.InsertChild(parent, sym);
            }

            return(sym);
        }
Пример #11
0
        protected Symbol newBasicSym(
            SYMKIND kind,
            Name name,
            ParentSymbol parent)
        {
            // The parser creates names with PN_MISSING when attempting to recover from errors
            // To prevent spurious errors, we create SYMs with a different name (PN_MISSINGSYM)
            // so that they are never found when doing lookup.
            if (name == m_pMissingNameNode)
            {
                name = m_pMissingNameSym;
            }

            Symbol sym;

            switch (kind)
            {
            case SYMKIND.SK_NamespaceSymbol:
                sym      = new NamespaceSymbol();
                sym.name = name;
                break;

            case SYMKIND.SK_NamespaceDeclaration:
                sym      = new NamespaceDeclaration();
                sym.name = name;
                break;

            case SYMKIND.SK_AssemblyQualifiedNamespaceSymbol:
                sym      = new AssemblyQualifiedNamespaceSymbol();
                sym.name = name;
                break;

            case SYMKIND.SK_AggregateSymbol:
                sym      = new AggregateSymbol();
                sym.name = name;
                break;

            case SYMKIND.SK_AggregateDeclaration:
                sym      = new AggregateDeclaration();
                sym.name = name;
                break;

            case SYMKIND.SK_TypeParameterSymbol:
                sym      = new TypeParameterSymbol();
                sym.name = name;
                break;

            case SYMKIND.SK_FieldSymbol:
                sym      = new FieldSymbol();
                sym.name = name;
                break;

            case SYMKIND.SK_LocalVariableSymbol:
                sym      = new LocalVariableSymbol();
                sym.name = name;
                break;

            case SYMKIND.SK_MethodSymbol:
                sym      = new MethodSymbol();
                sym.name = name;
                break;

            case SYMKIND.SK_PropertySymbol:
                sym      = new PropertySymbol();
                sym.name = name;
                break;

            case SYMKIND.SK_EventSymbol:
                sym      = new EventSymbol();
                sym.name = name;
                break;

            case SYMKIND.SK_TransparentIdentifierMemberSymbol:
                sym      = new TransparentIdentifierMemberSymbol();
                sym.name = name;
                break;

            case SYMKIND.SK_Scope:
                sym      = new Scope();
                sym.name = name;
                break;

            case SYMKIND.SK_LabelSymbol:
                sym      = new LabelSymbol();
                sym.name = name;
                break;

            case SYMKIND.SK_GlobalAttributeDeclaration:
                sym      = new GlobalAttributeDeclaration();
                sym.name = name;
                break;

            case SYMKIND.SK_UnresolvedAggregateSymbol:
                sym      = new UnresolvedAggregateSymbol();
                sym.name = name;
                break;

            case SYMKIND.SK_InterfaceImplementationMethodSymbol:
                sym      = new InterfaceImplementationMethodSymbol();
                sym.name = name;
                break;

            case SYMKIND.SK_IndexerSymbol:
                sym      = new IndexerSymbol();
                sym.name = name;
                break;

            case SYMKIND.SK_ParentSymbol:
                sym      = new ParentSymbol();
                sym.name = name;
                break;

            case SYMKIND.SK_IteratorFinallyMethodSymbol:
                sym      = new IteratorFinallyMethodSymbol();
                sym.name = name;
                break;

            default:
                throw Error.InternalCompilerError();
            }

            sym.setKind(kind);

            if (parent != null)
            {
                // Set the parent element of the child symbol.
                parent.AddToChildList(sym);
                m_pSymTable.InsertChild(parent, sym);
            }

            return(sym);
        }