Exemplo n.º 1
0
        private void EnsureSignatureIsLoaded()
        {
            if ((object)_lazyType == null)
            {
                var  moduleSymbol = _containingType.ContainingPEModule;
                bool isVolatile;
                ImmutableArray <ModifierInfo <TypeSymbol> > customModifiers;
                TypeSymbol type = (new MetadataDecoder(moduleSymbol, _containingType)).DecodeFieldSignature(_handle, out isVolatile, out customModifiers);
                ImmutableArray <CustomModifier> customModifiersArray = CSharpCustomModifier.Convert(customModifiers);
                type = DynamicTypeDecoder.TransformType(type, customModifiersArray.Length, _handle, moduleSymbol);

                type            = TupleTypeSymbol.TransformToTupleIfCompatible(type); // temporary shallow unification
                _lazyIsVolatile = isVolatile;

                TypeSymbol fixedElementType;
                int        fixedSize;
                if (customModifiersArray.IsEmpty && IsFixedBuffer(out fixedSize, out fixedElementType))
                {
                    _lazyFixedSize = fixedSize;
                    _lazyFixedImplementationType = type as NamedTypeSymbol;
                    type = new PointerTypeSymbol(fixedElementType);
                }

                ImmutableInterlocked.InterlockedCompareExchange(ref _lazyCustomModifiers, customModifiersArray, default(ImmutableArray <CustomModifier>));
                Interlocked.CompareExchange(ref _lazyType, type, null);
            }
        }
Exemplo n.º 2
0
        /// <summary>
        /// Same as <see cref="SubstituteType"/>, but with special behavior around tuples.
        /// In particular, if substitution makes type tuple compatible, transform it into a tuple type.
        /// </summary>
        internal TypeWithModifiers SubstituteTypeWithTupleUnification(TypeSymbol previous)
        {
            TypeWithModifiers result = SubstituteType(previous);

            // Make it a tuple if it became compatible with one.
            if ((object)result.Type != null && !previous.IsTupleCompatible())
            {
                var possiblyTuple = TupleTypeSymbol.TransformToTupleIfCompatible(result.Type);
                if ((object)result.Type != possiblyTuple)
                {
                    result = new TypeWithModifiers(possiblyTuple, result.CustomModifiers);
                }
            }

            return(result);
        }
Exemplo n.º 3
0
        private PEParameterSymbol(
            PEModuleSymbol moduleSymbol,
            Symbol containingSymbol,
            int ordinal,
            bool isByRef,
            TypeSymbol type,
            ParameterHandle handle,
            int countOfCustomModifiers,
            out bool isBad)
        {
            Debug.Assert((object)moduleSymbol != null);
            Debug.Assert((object)containingSymbol != null);
            Debug.Assert(ordinal >= 0);
            Debug.Assert((object)type != null);

            isBad             = false;
            _moduleSymbol     = moduleSymbol;
            _containingSymbol = containingSymbol;
            _ordinal          = (ushort)ordinal;

            _handle = handle;

            RefKind refKind = RefKind.None;

            if (handle.IsNil)
            {
                refKind = isByRef ? RefKind.Ref : RefKind.None;

                type  = TupleTypeSymbol.TransformToTupleIfCompatible(type);
                _type = type;

                _lazyCustomAttributes = ImmutableArray <CSharpAttributeData> .Empty;
                _lazyHiddenAttributes = ImmutableArray <CSharpAttributeData> .Empty;
                _lazyDefaultValue     = ConstantValue.NotAvailable;
                _lazyIsParams         = ThreeState.False;
            }
            else
            {
                try
                {
                    moduleSymbol.Module.GetParamPropsOrThrow(handle, out _name, out _flags);
                }
                catch (BadImageFormatException)
                {
                    isBad = true;
                }

                if (isByRef)
                {
                    ParameterAttributes inOutFlags = _flags & (ParameterAttributes.Out | ParameterAttributes.In);

                    if (inOutFlags == ParameterAttributes.Out)
                    {
                        refKind = RefKind.Out;
                    }
                    else if (moduleSymbol.Module.HasIsReadOnlyAttribute(handle))
                    {
                        refKind = RefKind.In;
                    }
                    else
                    {
                        refKind = RefKind.Ref;
                    }
                }

                // CONSIDER: Can we make parameter type computation lazy?
                type = DynamicTypeDecoder.TransformType(type, countOfCustomModifiers, handle, moduleSymbol, refKind);

                _type = TupleTypeDecoder.DecodeTupleTypesIfApplicable(type, handle, moduleSymbol);
            }

            bool hasNameInMetadata = !string.IsNullOrEmpty(_name);

            if (!hasNameInMetadata)
            {
                // As was done historically, if the parameter doesn't have a name, we give it the name "value".
                _name = "value";
            }

            _packedFlags = new PackedFlags(refKind, attributesAreComplete: handle.IsNil, hasNameInMetadata: hasNameInMetadata);

            Debug.Assert(refKind == this.RefKind);
            Debug.Assert(hasNameInMetadata == this.HasNameInMetadata);
        }
Exemplo n.º 4
0
        internal PEPropertySymbol(
            PEModuleSymbol moduleSymbol,
            PENamedTypeSymbol containingType,
            PropertyDefinitionHandle handle,
            PEMethodSymbol getMethod,
            PEMethodSymbol setMethod)
        {
            Debug.Assert((object)moduleSymbol != null);
            Debug.Assert((object)containingType != null);
            Debug.Assert(!handle.IsNil);

            _containingType = containingType;
            var module = moduleSymbol.Module;
            PropertyAttributes      mdFlags = 0;
            BadImageFormatException mrEx    = null;

            try
            {
                module.GetPropertyDefPropsOrThrow(handle, out _name, out mdFlags);
            }
            catch (BadImageFormatException e)
            {
                mrEx = e;

                if ((object)_name == null)
                {
                    _name = string.Empty;
                }
            }

            _getMethod = getMethod;
            _setMethod = setMethod;
            _handle    = handle;

            var                     metadataDecoder = new MetadataDecoder(moduleSymbol, containingType);
            SignatureHeader         callingConvention;
            BadImageFormatException propEx;
            var                     propertyParams = metadataDecoder.GetSignatureForProperty(handle, out callingConvention, out propEx, allowByRefReturn: true);

            Debug.Assert(propertyParams.Length > 0);

            SignatureHeader         unusedCallingConvention;
            BadImageFormatException getEx = null;
            var getMethodParams           = (object)getMethod == null ? null : metadataDecoder.GetSignatureForMethod(getMethod.Handle, out unusedCallingConvention, out getEx, allowByRefReturn: true);
            BadImageFormatException setEx = null;
            var setMethodParams           = (object)setMethod == null ? null : metadataDecoder.GetSignatureForMethod(setMethod.Handle, out unusedCallingConvention, out setEx, allowByRefReturn: false);

            // NOTE: property parameter names are not recorded in metadata, so we have to
            // use the parameter names from one of the indexers
            // NB: prefer setter names to getter names if both are present.
            bool isBad;

            _parameters = GetParameters(moduleSymbol, this, propertyParams, setMethodParams ?? getMethodParams, out isBad);

            if (propEx != null || getEx != null || setEx != null || mrEx != null || isBad)
            {
                _lazyUseSiteDiagnostic = new CSDiagnosticInfo(ErrorCode.ERR_BindToBogus, this);
            }

            _typeCustomModifiers = CSharpCustomModifier.Convert(propertyParams[0].CustomModifiers);

            _refKind = propertyParams[0].IsByRef ? RefKind.Ref : RefKind.None;

            // CONSIDER: Can we make parameter type computation lazy?
            TypeSymbol originalPropertyType = propertyParams[0].Type;

            _propertyType = DynamicTypeDecoder.TransformType(originalPropertyType, _typeCustomModifiers.Length, handle, moduleSymbol);

            // Dynamify object type if necessary
            _propertyType = _propertyType.AsDynamicIfNoPia(_containingType);

            _propertyType = TupleTypeSymbol.TransformToTupleIfCompatible(_propertyType); // temporary shallow unification

            // A property is bogus and must be accessed by calling its accessors directly if the
            // accessor signatures do not agree, both with each other and with the property,
            // or if it has parameters and is not an indexer or indexed property.
            bool callMethodsDirectly = !DoSignaturesMatch(module, metadataDecoder, propertyParams, _getMethod, getMethodParams, _setMethod, setMethodParams) ||
                                       MustCallMethodsDirectlyCore();

            if (!callMethodsDirectly)
            {
                if ((object)_getMethod != null)
                {
                    _getMethod.SetAssociatedProperty(this, MethodKind.PropertyGet);
                }

                if ((object)_setMethod != null)
                {
                    _setMethod.SetAssociatedProperty(this, MethodKind.PropertySet);
                }
            }

            if (callMethodsDirectly)
            {
                _flags |= Flags.CallMethodsDirectly;
            }

            if ((mdFlags & PropertyAttributes.SpecialName) != 0)
            {
                _flags |= Flags.IsSpecialName;
            }

            if ((mdFlags & PropertyAttributes.RTSpecialName) != 0)
            {
                _flags |= Flags.IsRuntimeSpecialName;
            }
        }