I need help to solve a problem, my problem is as follows, I have the following object
public class Teste
{
public string Descricao { get; set; }
public Time Time { get; set; }
}
.
public class Time
{
public string Nome { get; set; }
public Time (string nome)
{
Nome = nome;
}
}
I would like to be able to obtain the complete path of a certain property.
var teste = new Teste();
teste.Descricao = "bar";
teste.Time = new Time("foo");
var b = GetProperties(teste, "Nome");
//expected return: "Time.Nome"
I was testing something I arrived at the following method
public static IEnumerable<Tuple<string, string>> GetProperties(object obj, string propertyPath)
{
var objType = obj.GetType();
if (objType.IsValueType || objType.Equals(typeof(string)))
return Enumerable.Repeat(Tuple.Create(propertyPath, obj.ToString()), 1);
else
{
if (obj == null)
return Enumerable.Repeat(Tuple.Create(propertyPath, string.Empty), 1);
else
{
return from prop in objType.GetProperties()
where prop.CanRead && !prop.GetIndexParameters().Any()
let propValue = prop.GetValue(obj, null)
let propType = prop.PropertyType
from nameValPair in GetProperties(propValue, string.Format("{0}.{1}", propertyPath, prop.Name))
select nameValPair;
}
}
}
but it returns everything to me and I would like it to return a specific property.
I think there are some issues with searching properties that come from system modules. You have to decide which properties are worth recursively descending and which ones are not. Also, you'll have to maintain a list of objects that you have already visited to ensure that you do not follow cycles. I think a breadth-first search would be best, but for this example, I'll code a depth-first search. Also, I just return the first match, not all matches, you can adjust as needed. Furthermore, it returns a (mostly useless) string version of the path rather than a list of reflected properties that would be needed to actually access it (You'd have to do reflection again to locate the properties by name to retrieve the value from this "path" string.)
I'll start you off with a basic implementation. Likely someone else can improve upon it.
static string GetPropertyPath(object obj, string name, List<object> visited = null)
{
// does the object have the property?
Type t = obj.GetType();
var properties = t.GetProperties();
foreach (var property in properties) {
if (property.Name == name) {
// that's it!
return name;
}
}
// if we get here, it's because we didn't find the property.
if (visited == null) {
visited = new List<object>();
visited.Add(obj);
}
// Get all the properties of the first object and keep searching,
// keeping track of objects we've visited already.
foreach (var property in properties) {
// Limit which kinds of properties we search
if (object.ReferenceEquals(typeof(Program).Module, property.Module)) {
// get the value of the property
object obj2 = property.GetValue(obj);
// Do not search any previously visited objects
if (!visited.Any(o => object.ReferenceEquals(o, obj2))) {
visited.Add(obj2);
string path = GetPropertyPath(obj2, name, visited);
if (path != null) {
// found it!
return property.Name + "." + path;
}
}
}
}
return null;
}
Example
static void Main(string[] args)
{
var teste = new Teste();
teste.Descricao = "bar";
teste.Time = new Time("foo");
var b = GetPropertyPath(teste, "Nome"); // "Time.Nome"
}
Let say I have class:
public class TestClass
{
public string Prop1 { get; set; }
public int Field1 = 1234567890;
public string Method1() { return "ABCDEFGHIJKLMNOPQRSTUVXYZ"; }
}
... class instance and list:
TestClass TC = new TestClass();
List<object> TCValues = new List<object>();
... and populate the list with values in loop:
foreach (var v in TC.GetType().GetProperties()) // or .GetFields()
{
TCValues.Add(v.GetValue(TC, null));
}
... problem is that in my particular case I need to get list of all class members first, then filter them to properties and fields (ignoring methods of course) and then read their values as I did in first example:
foreach (var v in TC.GetType().GetMembers())
{
if (v.MemberType == System.Reflection.MemberTypes.Property || v.MemberType == System.Reflection.MemberTypes.Field)
{
TCValues.Add(v.?????????); // Can't get values !
}
}
... I understand that GetMembers() returns class MemberInfo which unlike PropertyInfo and FieldInfo doesn't contain method GetValue(). Is there any way to read values from filtered property and field members inside the loop iterating through MemberInfo collection ?
In your foreach-Loop try
foreach (var v in TC.GetType().GetMembers())
{
if (v is PropertyInfo)
{
var value = ((PropertyInfo)v).GetValue(TC, null);
TCValues.Add(value);
}
else if (v is FieldInfo)
{
var value = ((FieldInfo) v).GetValue(TC);
TCValues.Add(value);
}
}
TC.GetType().GetProperty(propName).GetValue(TC);
You have to cast the members to the correct type:
foreach (var v in TC.GetType().GetMembers())
{
if (v.MemberType == System.Reflection.MemberTypes.Property)
{
TCValues.Add(((System.Reflection.PropertyInfo)v).GetValue(TC,null));
}
else if (v.MemberType == System.Reflection.MemberTypes.Field)
{
TCValues.Add(((System.Reflection.FieldInfo)v).GetValue(TC));
}
}
I have a base class called Part and derived classes like Wire or Connector and many more that inherit from Part.
Now I want to implement a search function that searches all Properties of the derived classes for a string.
If necessary that string should be tried to be converted to the type of the Property. The Properties can also be Lists and should be searched on the first level.
class Part
{
public int Id { get; set; }
public string Name { get; set; }
}
class Wire : Part
{
public NumberWithUnit Diameter { get; set; }
public Weight Weight { get; set; }
}
class Connector : Part
{
public List<Part> ConnectedParts { get; set; }
}
I know how to generally search through the Properties of base types with Reflection like this
private bool SearchProperties<T>(T part, string searchString) where T : Part
{
var props = typeof(T).GetProperties();
foreach (var prop in props)
{
var value = prop.GetValue(part);
if (value is string)
{
if (string.Equals(value, searchString))
return true;
}
else if (value is int)
{
int v;
if (int.TryParse(searchString, out v))
{
if(v == (int) value)
return true;
}
}
}
return false;
}
But that would be a long list of types and I have Properties of Type Weight for instance and many more. Is there some kind of general way to search without casting all types?
Consider going the opposite direction with your conversion. Rather than converting your search string into each possible value, just convert the value into a string:
private bool SearchProperties<T>(T part, string searchString) where T : Part
{
var props = typeof(T).GetProperties();
foreach (var prop in props)
{
var value = prop.GetValue(part);
if (value is IEnumerable)
{
// special handling for collections
}
else if(value != null)
{
string valueString = value.ToString();
if (string.Equals(valueString, searchString))
return true;
}
}
return false;
}
Besides working pretty well for most built-in types, the only thing you have to do to get it to work for Weight, etc. is make sure they implement ToString().
Another solution would be to use TypeDescriptor:
private bool SearchProperties<T>(T part, string searchString) where T : Part
{
var props = typeof(T).GetProperties();
foreach (var prop in props)
{
var value = prop.GetValue(part);
if (value is IEnumerable)
{
// special handling for collections
}
else if(value != null)
{
object searchValue = null;
try
{
searchValue = TypeDescriptor.GetConverter(value).ConvertFromString(searchString);
} catch {}
if (searchValue != null && object.Equals(value, searchValue))
return true;
}
}
return false;
}
TypeDescriptor works well for most built-in types, but requires extra work if you're dealing with custom types.
I think the following should cover the most of the practical scenarios:
public static bool SearchProperties(object target, string searchString)
{
if (target == null) return false;
// Common types
var convertible = target as IConvertible;
if (convertible != null)
{
var typeCode = convertible.GetTypeCode();
if (typeCode == TypeCode.String) return target.ToString() == searchString;
if (typeCode == TypeCode.DBNull) return false;
if (typeCode != TypeCode.Object)
{
try
{
var value = Convert.ChangeType(searchString, typeCode);
return target.Equals(value);
}
catch { return false; }
}
}
if (target is DateTimeOffset)
{
DateTimeOffset value;
return DateTimeOffset.TryParse(searchString, out value) && value == (DateTimeOffset)target;
}
var enumerable = target as IEnumerable;
if (enumerable != null)
{
// Collection
foreach (var item in enumerable)
if (SearchProperties(item, searchString)) return true;
}
else
{
// Complex type
var properties = target.GetType().GetProperties();
foreach (var property in properties)
{
if (property.GetMethod == null || property.GetMethod.GetParameters().Length > 0) continue;
var value = property.GetValue(target);
if (SearchProperties(value, searchString)) return true;
}
}
return false;
}
I will give you one different idea to do it.
You could try something like that:
private bool SearchProperties<T, W>(T part, W searchValue) where T : Part
{
var props = typeof(T).GetProperties();
foreach (var prop in props)
{
if (typeof(W) == prop.PropertyType)
{
var value = prop.GetValue(part, null);
if (searchValue.Equals(value))
return true;
}
}
return false;
}
You need to call the method like this:
private void button12_Click(object sender, EventArgs e)
{
Part p = new Part();
p.Id = 2;
p.Name = "test";
p.bla = new Bla();
SearchProperties<Part, int>(p, 2);
}
And if you need to compare the complex properties (Weight, ...) by a different way from GetHashCode you could override the method Equals or the == operator.
class Weight
{
public int Id { get; set; }
public override bool Equals(object obj)
{
return Id == ((Weight)obj).Id;
}
}
Given the following objects:
public class Customer {
public String Name { get; set; }
public String Address { get; set; }
}
public class Invoice {
public String ID { get; set; }
public DateTime Date { get; set; }
public Customer BillTo { get; set; }
}
I'd like to use reflection to go through the Invoice to get the Name property of a Customer. Here's what I'm after, assuming this code would work:
Invoice inv = GetDesiredInvoice(); // magic method to get an invoice
PropertyInfo info = inv.GetType().GetProperty("BillTo.Address");
Object val = info.GetValue(inv, null);
Of course, this fails since "BillTo.Address" is not a valid property of the Invoice class.
So, I tried writing a method to split the string into pieces on the period, and walk the objects looking for the final value I was interested in. It works okay, but I'm not entirely comfortable with it:
public Object GetPropValue(String name, Object obj) {
foreach (String part in name.Split('.')) {
if (obj == null) { return null; }
Type type = obj.GetType();
PropertyInfo info = type.GetProperty(part);
if (info == null) { return null; }
obj = info.GetValue(obj, null);
}
return obj;
}
Any ideas on how to improve this method, or a better way to solve this problem?
EDIT after posting, I saw a few related posts... There doesn't seem to be an answer that specifically addresses this question, however. Also, I'd still like the feedback on my implementation.
I use following method to get the values from (nested classes) properties like
"Property"
"Address.Street"
"Address.Country.Name"
public static object GetPropertyValue(object src, string propName)
{
if (src == null) throw new ArgumentException("Value cannot be null.", "src");
if (propName == null) throw new ArgumentException("Value cannot be null.", "propName");
if(propName.Contains("."))//complex type nested
{
var temp = propName.Split(new char[] { '.' }, 2);
return GetPropertyValue(GetPropertyValue(src, temp[0]), temp[1]);
}
else
{
var prop = src.GetType().GetProperty(propName);
return prop != null ? prop.GetValue(src, null) : null;
}
}
Here is the Fiddle: https://dotnetfiddle.net/PvKRH0
I know I'm a bit late to the party, and as others said, your implementation is fine
...for simple use cases.
However, I've developed a library that solves exactly that use case, Pather.CSharp.
It is also available as Nuget Package.
Its main class is Resolver with its Resolve method.
You pass it an object and the property path, and it will return the desired value.
Invoice inv = GetDesiredInvoice(); // magic method to get an invoice
var resolver = new Resolver();
object result = resolver.Resolve(inv, "BillTo.Address");
But it can also resolve more complex property paths, including array and dictionary access.
So, for example, if your Customer had multiple addresses
public class Customer {
public String Name { get; set; }
public IEnumerable<String> Addresses { get; set; }
}
you could access the second one using Addresses[1].
Invoice inv = GetDesiredInvoice(); // magic method to get an invoice
var resolver = new Resolver();
object result = resolver.Resolve(inv, "BillTo.Addresses[1]");
I actually think your logic is fine. Personally, I would probably change it around so you pass the object as the first parameter (which is more inline with PropertyInfo.GetValue, so less surprising).
I also would probably call it something more like GetNestedPropertyValue, to make it obvious that it searches down the property stack.
You have to access the ACTUAL object that you need to use reflection on. Here is what I mean:
Instead of this:
Invoice inv = GetDesiredInvoice(); // magic method to get an invoice
PropertyInfo info = inv.GetType().GetProperty("BillTo.Address");
Object val = info.GetValue(inv, null);
Do this (edited based on comment):
Invoice inv = GetDesiredInvoice(); // magic method to get an invoice
PropertyInfo info = inv.GetType().GetProperty("BillTo");
Customer cust = (Customer)info.GetValue(inv, null);
PropertyInfo info2 = cust.GetType().GetProperty("Address");
Object val = info2.GetValue(cust, null);
Look at this post for more information:
Using reflection to set a property of a property of an object
In hopes of not sounding too late to the party, I would like to add my solution:
Definitely use recursion in this situation
public static Object GetPropValue(String name, object obj, Type type)
{
var parts = name.Split('.').ToList();
var currentPart = parts[0];
PropertyInfo info = type.GetProperty(currentPart);
if (info == null) { return null; }
if (name.IndexOf(".") > -1)
{
parts.Remove(currentPart);
return GetPropValue(String.Join(".", parts), info.GetValue(obj, null), info.PropertyType);
} else
{
return info.GetValue(obj, null).ToString();
}
}
You don't explain the source of your "discomfort," but your code basically looks sound to me.
The only thing I'd question is the error handling. You return null if the code tries to traverse through a null reference or if the property name doesn't exist. This hides errors: it's hard to know whether it returned null because there's no BillTo customer, or because you misspelled it "BilTo.Address"... or because there is a BillTo customer, and its Address is null! I'd let the method crash and burn in these cases -- just let the exception escape (or maybe wrap it in a friendlier one).
Here is another implementation that will skip a nested property if it is an enumerator and continue deeper. Properties of type string are not affected by the Enumeration Check.
public static class ReflectionMethods
{
public static bool IsNonStringEnumerable(this PropertyInfo pi)
{
return pi != null && pi.PropertyType.IsNonStringEnumerable();
}
public static bool IsNonStringEnumerable(this object instance)
{
return instance != null && instance.GetType().IsNonStringEnumerable();
}
public static bool IsNonStringEnumerable(this Type type)
{
if (type == null || type == typeof(string))
return false;
return typeof(IEnumerable).IsAssignableFrom(type);
}
public static Object GetPropValue(String name, Object obj)
{
foreach (String part in name.Split('.'))
{
if (obj == null) { return null; }
if (obj.IsNonStringEnumerable())
{
var toEnumerable = (IEnumerable)obj;
var iterator = toEnumerable.GetEnumerator();
if (!iterator.MoveNext())
{
return null;
}
obj = iterator.Current;
}
Type type = obj.GetType();
PropertyInfo info = type.GetProperty(part);
if (info == null) { return null; }
obj = info.GetValue(obj, null);
}
return obj;
}
}
based on this question and on
How to know if a PropertyInfo is a collection
by Berryl
I use this in a MVC project to dynamically Order my data by simply passing the Property to sort by
Example:
result = result.OrderBy((s) =>
{
return ReflectionMethods.GetPropValue("BookingItems.EventId", s);
}).ToList();
where BookingItems is a list of objects.
> Get Nest properties e.g., Developer.Project.Name
private static System.Reflection.PropertyInfo GetProperty(object t, string PropertName)
{
if (t.GetType().GetProperties().Count(p => p.Name == PropertName.Split('.')[0]) == 0)
throw new ArgumentNullException(string.Format("Property {0}, is not exists in object {1}", PropertName, t.ToString()));
if (PropertName.Split('.').Length == 1)
return t.GetType().GetProperty(PropertName);
else
return GetProperty(t.GetType().GetProperty(PropertName.Split('.')[0]).GetValue(t, null), PropertName.Split('.')[1]);
}
if (info == null) { /* throw exception instead*/ }
I would actually throw an exception if they request a property that doesn't exist. The way you have it coded, if I call GetPropValue and it returns null, I don't know if that means the property didn't exist, or the property did exist but it's value was null.
public static string GetObjectPropertyValue(object obj, string propertyName)
{
bool propertyHasDot = propertyName.IndexOf(".") > -1;
string firstPartBeforeDot;
string nextParts = "";
if (!propertyHasDot)
firstPartBeforeDot = propertyName.ToLower();
else
{
firstPartBeforeDot = propertyName.Substring(0, propertyName.IndexOf(".")).ToLower();
nextParts = propertyName.Substring(propertyName.IndexOf(".") + 1);
}
foreach (var property in obj.GetType().GetProperties())
if (property.Name.ToLower() == firstPartBeforeDot)
if (!propertyHasDot)
if (property.GetValue(obj, null) != null)
return property.GetValue(obj, null).ToString();
else
return DefaultValue(property.GetValue(obj, null), propertyName).ToString();
else
return GetObjectPropertyValue(property.GetValue(obj, null), nextParts);
throw new Exception("Property '" + propertyName.ToString() + "' not found in object '" + obj.ToString() + "'");
}
I wanted to share my solution although it may be too late. This solution is primarily to check if the nested property exists. But it can be easily tweaked to return the property value if needed.
private static PropertyInfo _GetPropertyInfo(Type type, string propertyName)
{
//***
//*** Check if the property name is a complex nested type
//***
if (propertyName.Contains("."))
{
//***
//*** Get the first property name of the complex type
//***
var tempPropertyName = propertyName.Split(".", 2);
//***
//*** Check if the property exists in the type
//***
var prop = _GetPropertyInfo(type, tempPropertyName[0]);
if (prop != null)
{
//***
//*** Drill down to check if the nested property exists in the complex type
//***
return _GetPropertyInfo(prop.PropertyType, tempPropertyName[1]);
}
else
{
return null;
}
}
else
{
return type.GetProperty(propertyName, BindingFlags.IgnoreCase | BindingFlags.Public | BindingFlags.Instance);
}
}
I had to refer to few posts to come up with this solution. I think this will work for multiple nested property types.
My internet connection was down when I need to solve the same problem, so I had to 're-invent the wheel':
static object GetPropertyValue(Object fromObject, string propertyName)
{
Type objectType = fromObject.GetType();
PropertyInfo propInfo = objectType.GetProperty(propertyName);
if (propInfo == null && propertyName.Contains('.'))
{
string firstProp = propertyName.Substring(0, propertyName.IndexOf('.'));
propInfo = objectType.GetProperty(firstProp);
if (propInfo == null)//property name is invalid
{
throw new ArgumentException(String.Format("Property {0} is not a valid property of {1}.", firstProp, fromObject.GetType().ToString()));
}
return GetPropertyValue(propInfo.GetValue(fromObject, null), propertyName.Substring(propertyName.IndexOf('.') + 1));
}
else
{
return propInfo.GetValue(fromObject, null);
}
}
Pretty sure this solves the problem for any string you use for property name, regardless of extent of nesting, as long as everything's a property.
Based on the original code from #jheddings, I have created a extension method version with generic type and verifications:
public static T GetPropertyValue<T>(this object sourceObject, string propertyName)
{
if (sourceObject == null) throw new ArgumentNullException(nameof(sourceObject));
if (string.IsNullOrWhiteSpace(propertyName)) throw new ArgumentException(nameof(propertyName));
foreach (string currentPropertyName in propertyName.Split('.'))
{
if (string.IsNullOrWhiteSpace(currentPropertyName)) throw new InvalidOperationException($"Invalid property '{propertyName}'");
PropertyInfo propertyInfo = sourceObject.GetType().GetProperty(currentPropertyName);
if (propertyInfo == null) throw new InvalidOperationException($"Property '{currentPropertyName}' not found");
sourceObject = propertyInfo.GetValue(sourceObject);
}
return sourceObject is T result ? result : default;
}
I wrote a method that received one object type as the argument from the input and returns dictionary<string,string>
public static Dictionary<string, string> GetProperties(Type placeHolderType)
{
var result = new Dictionary<string, string>();
var properties = placeHolderType.GetProperties();
foreach (var propertyInfo in properties)
{
string name = propertyInfo.Name;
string description = GetDescriptionTitle(propertyInfo);
if (IsNonString(propertyInfo.PropertyType))
{
var list = GetProperties(propertyInfo.PropertyType);
foreach (var item in list)
{
result.Add($"{propertyInfo.PropertyType.Name}_{item.Key}", item.Value);
}
}
else
{
result.Add(name, description);
}
}
return result;
}
public static bool IsNonString(Type type)
{
if (type == null || type == typeof(string))
return false;
return typeof(IPlaceHolder).IsAssignableFrom(type);
}
private static string GetDescriptionTitle(MemberInfo memberInfo)
{
if (Attribute.GetCustomAttribute(memberInfo, typeof(DescriptionAttribute)) is DescriptionAttribute descriptionAttribute)
{
return descriptionAttribute.Description;
}
return memberInfo.Name;
}
public static object GetPropertyValue(object src, string propName)
{
if (src == null) throw new ArgumentException("Value cannot be null.", "src");
if (propName == null) throw new ArgumentException("Value cannot be null.", "propName");
var prop = src.GetType().GetProperty(propName);
if (prop != null)
{
return prop.GetValue(src, null);
}
else
{
var props = src.GetType().GetProperties();
foreach (var property in props)
{
var propInfo = src.GetType().GetProperty(property.Name);
if (propInfo != null)
{
var propVal = propInfo.GetValue(src, null);
if (src.GetType().GetProperty(property.Name).PropertyType.IsClass)
{
return GetPropertyValue(propVal, propName);
}
return propVal;
}
}
return null;
}
usage: calling part
var emp = new Employee() { Person = new Person() { FirstName = "Ashwani" } };
var val = GetPropertyValue(emp, "FirstName");
above can search the property value at any level
Try inv.GetType().GetProperty("BillTo+Address");
I am writing a Clone method using reflection. How do I detect that a property is an indexed property using reflection? For example:
public string[] Items
{
get;
set;
}
My method so far:
public static T Clone<T>(T from, List<string> propertiesToIgnore) where T : new()
{
T to = new T();
Type myType = from.GetType();
PropertyInfo[] myProperties = myType.GetProperties();
for (int i = 0; i < myProperties.Length; i++)
{
if (myProperties[i].CanWrite && !propertiesToIgnore.Contains(myProperties[i].Name))
{
myProperties[i].SetValue(to,myProperties[i].GetValue(from,null),null);
}
}
return to;
}
if (propertyInfo.GetIndexParameters().Length > 0)
{
// Property is an indexer
}
Sorry, but
public string[] Items { get; set; }
is not an indexed property, it's merely of an array type!
However the following is:
public string this[int index]
{
get { ... }
set { ... }
}
What you want is the GetIndexParameters() method. If the array that it returns has more than 0 items, that means it's an indexed property.
See the MSDN documentation for more details.
If you call property.GetValue(obj,null), and the property IS indexed, then you will get a parameter count mismatch exception. Better to check whether the property is indexed using GetIndexParameters() and then decide what to do.
Here is some code that worked for me:
foreach (PropertyInfo property in obj.GetType().GetProperties())
{
object value = property.GetValue(obj, null);
if (value is object[])
{
....
}
}
P.S. .GetIndexParameters().Length > 0) works for the case described in this article: http://msdn.microsoft.com/en-us/library/b05d59ty.aspx
So if you care about the property named Chars for a value of type string, use that, but it does not work for most of the arrays I was interested in, including, I am pretty sure, a string array from the original question.
You can convert the indexer to IEnumerable
public static IEnumerable<T> AsEnumerable<T>(this object o) where T : class {
var list = new List<T>();
System.Reflection.PropertyInfo indexerProperty = null;
foreach (System.Reflection.PropertyInfo pi in o.GetType().GetProperties()) {
if (pi.GetIndexParameters().Length > 0) {
indexerProperty = pi;
break;
}
}
if (indexerProperty.IsNotNull()) {
var len = o.GetPropertyValue<int>("Length");
for (int i = 0; i < len; i++) {
var item = indexerProperty.GetValue(o, new object[]{i});
if (item.IsNotNull()) {
var itemObject = item as T;
if (itemObject.IsNotNull()) {
list.Add(itemObject);
}
}
}
}
return list;
}
public static bool IsNotNull(this object o) {
return o != null;
}
public static T GetPropertyValue<T>(this object source, string property) {
if (source == null)
throw new ArgumentNullException("source");
var sourceType = source.GetType();
var sourceProperties = sourceType.GetProperties();
var properties = sourceProperties
.Where(s => s.Name.Equals(property));
if (properties.Count() == 0) {
sourceProperties = sourceType.GetProperties(BindingFlags.Instance | BindingFlags.NonPublic);
properties = sourceProperties.Where(s => s.Name.Equals(property));
}
if (properties.Count() > 0) {
var propertyValue = properties
.Select(s => s.GetValue(source, null))
.FirstOrDefault();
return propertyValue != null ? (T)propertyValue : default(T);
}
return default(T);
}