Beispiel #1
0
 public virtual ISymbolReference ToReference()
 {
     if (owner == null)
     {
         return(TypeParameterReference.Create(ownerType, index));
     }
     return(new OwnedTypeParameterReference(owner.ToReference(), index));
 }
 /// <summary>
 /// Creates a type parameter reference.
 /// For common type parameter references, this method may return a shared instance.
 /// </summary>
 public static TypeParameterReference Create(SymbolKind ownerType, int index)
 {
     if (index >= 0 && index < 8 && (ownerType == SymbolKind.TypeDefinition || ownerType == SymbolKind.Method))
     {
         TypeParameterReference[] arr    = (ownerType == SymbolKind.TypeDefinition) ? classTypeParameterReferences : methodTypeParameterReferences;
         TypeParameterReference   result = LazyInit.VolatileRead(ref arr[index]);
         if (result == null)
         {
             result = LazyInit.GetOrSet(ref arr[index], new TypeParameterReference(ownerType, index));
         }
         return(result);
     }
     else
     {
         return(new TypeParameterReference(ownerType, index));
     }
 }
 public ITypeReference ToTypeReference()
 {
     return(TypeParameterReference.Create(this.OwnerType, this.Index));
 }
Beispiel #4
0
 public override ITypeReference ToTypeReference()
 {
     return(TypeParameterReference.Create(ownerType, index));
 }
        bool ISupportsInterning.EqualsForInterning(ISupportsInterning other)
        {
            TypeParameterReference r = other as TypeParameterReference;

            return(r != null && index == r.index && ownerType == r.ownerType);
        }
Beispiel #6
0
		static ITypeReference ParseReflectionName(string reflectionTypeName, ref int pos)
		{
			if (pos == reflectionTypeName.Length)
				throw new ReflectionNameParseException(pos, "Unexpected end");
			ITypeReference reference;
			if (reflectionTypeName[pos] == '`') {
				// type parameter reference
				pos++;
				if (pos == reflectionTypeName.Length)
					throw new ReflectionNameParseException(pos, "Unexpected end");
				if (reflectionTypeName[pos] == '`') {
					// method type parameter reference
					pos++;
					int index = ReadTypeParameterCount(reflectionTypeName, ref pos);
					reference = new TypeParameterReference(EntityType.Method, index);
				} else {
					// class type parameter reference
					int index = ReadTypeParameterCount(reflectionTypeName, ref pos);
					reference = new TypeParameterReference(EntityType.TypeDefinition, index);
				}
			} else {
				// not a type parameter reference: read the actual type name
				int tpc;
				string typeName = ReadTypeName(reflectionTypeName, ref pos, out tpc);
				string assemblyName = SkipAheadAndReadAssemblyName(reflectionTypeName, pos);
				reference = CreateGetClassTypeReference(assemblyName, typeName, tpc);
			}
			// read type suffixes
			while (pos < reflectionTypeName.Length) {
				switch (reflectionTypeName[pos++]) {
					case '+':
						int tpc;
						string typeName = ReadTypeName(reflectionTypeName, ref pos, out tpc);
						reference = new NestedTypeReference(reference, typeName, tpc);
						break;
					case '*':
						reference = new PointerTypeReference(reference);
						break;
					case '&':
						reference = new ByReferenceTypeReference(reference);
						break;
					case '[':
						// this might be an array or a generic type
						if (pos == reflectionTypeName.Length)
							throw new ReflectionNameParseException(pos, "Unexpected end");
						if (reflectionTypeName[pos] == '[') {
							// it's a generic type
							List<ITypeReference> typeArguments = new List<ITypeReference>();
							pos++;
							typeArguments.Add(ParseReflectionName(reflectionTypeName, ref pos));
							if (pos < reflectionTypeName.Length && reflectionTypeName[pos] == ']')
								pos++;
							else
								throw new ReflectionNameParseException(pos, "Expected end of type argument");
							
							while (pos < reflectionTypeName.Length && reflectionTypeName[pos] == ',') {
								pos++;
								if (pos < reflectionTypeName.Length && reflectionTypeName[pos] == '[')
									pos++;
								else
									throw new ReflectionNameParseException(pos, "Expected another type argument");
								
								typeArguments.Add(ParseReflectionName(reflectionTypeName, ref pos));
								
								if (pos < reflectionTypeName.Length && reflectionTypeName[pos] == ']')
									pos++;
								else
									throw new ReflectionNameParseException(pos, "Expected end of type argument");
							}
							
							if (pos < reflectionTypeName.Length && reflectionTypeName[pos] == ']') {
								pos++;
								reference = new ParameterizedTypeReference(reference, typeArguments);
							} else {
								throw new ReflectionNameParseException(pos, "Expected end of generic type");
							}
						} else {
							// it's an array
							int dimensions = 1;
							while (pos < reflectionTypeName.Length && reflectionTypeName[pos] == ',') {
								dimensions++;
								pos++;
							}
							if (pos < reflectionTypeName.Length && reflectionTypeName[pos] == ']') {
								pos++; // end of array
								reference = new ArrayTypeReference(reference, dimensions);
							} else {
								throw new ReflectionNameParseException(pos, "Invalid array modifier");
							}
						}
						break;
					case ',':
						// assembly qualified name, ignore everything up to the end/next ']'
						while (pos < reflectionTypeName.Length && reflectionTypeName[pos] != ']')
							pos++;
						break;
					default:
						pos--; // reset pos to the character we couldn't read
						if (reflectionTypeName[pos] == ']')
							return reference; // return from a nested generic
						else
							throw new ReflectionNameParseException(pos, "Unexpected character: '" + reflectionTypeName[pos] + "'");
				}
			}
			return reference;
		}
Beispiel #7
0
		static ITypeReference ParseTypeName(string typeName, ref int pos)
		{
			string reflectionTypeName = typeName;
			if (pos == typeName.Length)
				throw new ReflectionNameParseException(pos, "Unexpected end");
			ITypeReference result;
			if (reflectionTypeName[pos] == '`') {
				// type parameter reference
				pos++;
				if (pos == reflectionTypeName.Length)
					throw new ReflectionNameParseException(pos, "Unexpected end");
				if (reflectionTypeName[pos] == '`') {
					// method type parameter reference
					pos++;
					int index = ReflectionHelper.ReadTypeParameterCount(reflectionTypeName, ref pos);
					result = new TypeParameterReference(EntityType.Method, index);
				} else {
					// class type parameter reference
					int index = ReflectionHelper.ReadTypeParameterCount(reflectionTypeName, ref pos);
					result = new TypeParameterReference(EntityType.TypeDefinition, index);
				}
			} else {
				// not a type parameter reference: read the actual type name
				List<ITypeReference> typeArguments = new List<ITypeReference>();
				int typeParameterCount;
				string typeNameWithoutSuffix = ReadTypeName(typeName, ref pos, true, out typeParameterCount, typeArguments);
				result = new GetPotentiallyNestedClassTypeReference(typeNameWithoutSuffix, typeParameterCount);
				while (pos < typeName.Length && typeName[pos] == '.') {
					pos++;
					string nestedTypeName = ReadTypeName(typeName, ref pos, false, out typeParameterCount, typeArguments);
					result = new NestedTypeReference(result, nestedTypeName, typeParameterCount);
				}
				if (typeArguments.Count > 0) {
					result = new ParameterizedTypeReference(result, typeArguments);
				}
			}
			while (pos < typeName.Length) {
				switch (typeName[pos]) {
					case '[':
						int dimensions = 1;
						do {
							pos++;
							if (pos == typeName.Length)
								throw new ReflectionNameParseException(pos, "Unexpected end");
							if (typeName[pos] == ',')
								dimensions++;
						} while (typeName[pos] != ']');
						result = new ArrayTypeReference(result, dimensions);
						break;
					case '*':
						result = new PointerTypeReference(result);
						break;
					case '@':
						result = new ByReferenceTypeReference(result);
						break;
					default:
						return result;
				}
				pos++;
			}
			return result;
		}