756

I have a generic list of objects in C#, and wish to clone the list. The items within the list are cloneable, but there doesn't seem to be an option to do list.Clone().

Is there an easy way around this?

7
  • 56
    You should say if you're looking for a deep copy or a shallow copy
    – orip
    Nov 23, 2008 at 10:25
  • 13
    What are deep and shallow copies? Sep 27, 2012 at 11:03
  • 6
    @ColonelPanic en.wikipedia.org/wiki/Object_copy#Shallow_copy Oct 13, 2012 at 20:24
  • 3
    @orip Isn't clone() by definition a deep copy? In C# you can pass pointers around easily with =, I thought.
    – Chris
    Dec 18, 2012 at 20:51
  • 17
    @Chris a shallow copy copies one level deeper than pointer copy. Eg a shallow copy of a list will have the same elements, but will be a different list.
    – orip
    Dec 18, 2012 at 22:15

30 Answers 30

697

If your elements are value types, then you can just do:

List<YourType> newList = new List<YourType>(oldList);

However, if they are reference types and you want a deep copy (assuming your elements properly implement ICloneable), you could do something like this:

List<ICloneable> oldList = new List<ICloneable>();
List<ICloneable> newList = new List<ICloneable>(oldList.Count);

oldList.ForEach((item) =>
    {
        newList.Add((ICloneable)item.Clone());
    });

Obviously, replace ICloneable in the above generics and cast with whatever your element type is that implements ICloneable.

If your element type doesn't support ICloneable but does have a copy-constructor, you could do this instead:

List<YourType> oldList = new List<YourType>();
List<YourType> newList = new List<YourType>(oldList.Count);

oldList.ForEach((item)=>
    {
        newList.Add(new YourType(item));
    });

Personally, I would avoid ICloneable because of the need to guarantee a deep copy of all members. Instead, I'd suggest the copy-constructor or a factory method like YourType.CopyFrom(YourType itemToCopy) that returns a new instance of YourType.

Any of these options could be wrapped by a method (extension or otherwise).

21
  • 3
    I think List<T>.ConvertAll might look nicer than creating a new list and doing a foreach+add.
    – MichaelGG
    Oct 21, 2008 at 17:42
  • 2
    @Dimitri: No, that's not true. The problem is, when ICloneable was defined, the definition never stated whether the clone was deep or shallow, so you cannot determine which type of Clone operation will be done when an object implements it. This means that if you want to do a deep clone of List<T>, you will have to do it without ICloneable to be sure it is a deep copy.
    – Jeff Yates
    Sep 10, 2010 at 14:36
  • 8
    Why not use the AddRange method? (newList.AddRange(oldList.Select(i => i.Clone()) or newList.AddRange(oldList.Select(i => new YourType(i))
    – phoog
    Dec 21, 2010 at 16:00
  • 5
    @phoog: I think that it is a little less readable/understandable when scanning the code, that's all. Readability wins for me.
    – Jeff Yates
    Dec 22, 2010 at 15:18
  • 2
    @JeffYates: One insufficiently-considered wrinkle is that things generally only need to be copied if there exists some execution path which would mutate them. It's very common to have immutable types hold a reference to an instance of mutable type, but never expose that instance to anything that will mutate it. Needless copying of things that aren't ever going to change can sometimes be a major performance drain, increasing memory usage by orders of magnitude.
    – supercat
    Sep 23, 2013 at 21:25
460

You can use an extension method.

static class Extensions
{
    public static IList<T> Clone<T>(this IList<T> listToClone) where T: ICloneable
    {
        return listToClone.Select(item => (T)item.Clone()).ToList();
    }
}
10
  • 77
    I think List.ConvertAll might do this in faster time, since it can pre-allocate the entire array for the list, versus having to resize all the time.
    – MichaelGG
    Oct 21, 2008 at 17:43
  • 2
    @MichaelGG, what if you don't want to Convert but just Clone/Duplicate the items in the list? Would this work? || var clonedList = ListOfStrings.ConvertAll(p => p); Aug 17, 2014 at 15:42
  • 32
    @IbrarMumtaz: That is the same as var clonedList = new List<string>(ListOfStrings); Sep 16, 2014 at 14:00
  • 4
    Nice solution! By the way I prefer public static List<T> CLone<T>... It is more useful in the cases like this, because no further cast needed: List<MyType> cloned = listToClone.Clone();
    – Plutoz
    May 15, 2015 at 7:02
  • 7
    Isn't this just half the answer since it relies on an implementation of ICloneable, which would be the important part of the question?
    – Everts
    Dec 16, 2019 at 7:19
114

For a shallow copy, you can instead use the GetRange method of the generic List class.

List<int> oldList = new List<int>( );
// Populate oldList...

List<int> newList = oldList.GetRange(0, oldList.Count);

Quoted from: Generics Recipes

3
  • 63
    You can also achieve this by using the List<T>'s contructor to specify a List<T> from which to copy from. eg var shallowClonedList = new List<MyObject>(originalList);
    – Arkiliknam
    Feb 16, 2012 at 14:58
  • 13
    I often use List<int> newList = oldList.ToList(). Same effect. However, Arkiliknam's solution is best for readability in my opinion. Oct 25, 2012 at 18:27
  • 2
    @DanBechard Years later, but I prefer ToList as it avoids all the redundancies - I wonder which is actually more performant... looked it up. Looks list ToList calls new List<T> which ultimately will use Array.CopyTo, so about the same.
    – NetMage
    Nov 20, 2020 at 18:59
95
public static object DeepClone(object obj) 
{
    object objResult = null;

    using (var ms = new MemoryStream())
    {
        var bf = new BinaryFormatter();
        bf.Serialize(ms, obj);

        ms.Position = 0;
        objResult = bf.Deserialize(ms);
     }

     return objResult;
}

This is one way to do it with C# and .NET 2.0. Your object requires to be [Serializable()]. The goal is to lose all references and build new ones.

7
  • 15
    +1 - i like this answer - it is quick, dirty, nasty and very effective. I used in silverlight, and used the DataContractSerializer as the BinarySerializer was not available. Who needs to write pages of object cloning code when you can just do this? :)
    – slugster
    Mar 2, 2010 at 11:52
  • 3
    I like this. While it's nice to do things "right", quick and dirty often comes in handy.
    – Odrade
    Dec 15, 2010 at 18:11
  • 3
    Quick! but: Why dirty?
    – raiserle
    Dec 12, 2013 at 11:54
  • 2
    This deep clones and is fast and easy. Carefull on other suggestions on this page. I tried several and they don't deep clone.
    – RandallTo
    May 29, 2015 at 3:14
  • 2
    Only negative aspect, if you can call it that, is that your classes have to be marked Serializable for this to work. Sep 4, 2015 at 9:38
52

To clone a list just call .ToList(). This creates a shallow copy.

Microsoft (R) Roslyn C# Compiler version 2.3.2.62116
Loading context from 'CSharpInteractive.rsp'.
Type "#help" for more information.
> var x = new List<int>() { 3, 4 };
> var y = x.ToList();
> x.Add(5)
> x
List<int>(3) { 3, 4, 5 }
> y
List<int>(2) { 3, 4 }
> 
2
  • 62
    A little warning this is a shallow copy ... This will create two list objects, but the objects inside will be the same. I.e. changing one property will change the same object / property in the original list.
    – Mark G
    Jan 2, 2018 at 13:08
  • @MarkG this is safe as long as you are using value types.
    – Nour
    Sep 24, 2022 at 13:36
24

After a slight modification you can also clone:

public static T DeepClone<T>(T obj)
{
    T objResult;
    using (MemoryStream ms = new MemoryStream())
    {
        BinaryFormatter bf = new BinaryFormatter();
        bf.Serialize(ms, obj);
        ms.Position = 0;
        objResult = (T)bf.Deserialize(ms);
    }
    return objResult;
}
3
  • Do not forget the T should be serializable, otherwise you get System.Runtime.Serialization.SerializationException. Nov 23, 2017 at 11:28
  • Good answer. One hint: You could add if (!obj.GetType().IsSerializable) return default(T); as the first statement which prevents the exception. And if you change it to an extension method, you could even use the Elvis operator like var b = a?.DeepClone(); (given var a = new List<string>() { "a", "b" }; for example).
    – Matt
    Feb 22, 2018 at 14:53
  • BinaryFormatter is made obsolete in .NET 7. See Deserialization risks in use of BinaryFormatter and related types
    – kkuilla
    Apr 11, 2023 at 18:39
18

Unless you need an actual clone of every single object inside your List<T>, the best way to clone a list is to create a new list with the old list as the collection parameter.

List<T> myList = ...;
List<T> cloneOfMyList = new List<T>(myList);

Changes to myList such as insert or remove will not affect cloneOfMyList and vice versa.

The actual objects the two Lists contain are still the same however.

6
  • 1
    I agree with user49126, I'm seeing that it is a shallow copy and changes made to one list are reflected in the other list.
    – Seidleroni
    Nov 19, 2015 at 15:30
  • 2
    @Seidleroni, you are wrong. The changes made to the list itens are afected on the other list, changes in the list itself are not. Apr 19, 2016 at 17:53
  • 2
    This is shallow copy. Aug 5, 2016 at 17:58
  • How is this a shallow copy?
    – mko
    Sep 27, 2018 at 11:41
  • 3
    @WellingtonZanelli Just confirmed that removing an element from myList removes it from cloneOfMyList as well. Dec 16, 2019 at 22:13
17

Use AutoMapper (or whatever mapping lib you prefer) to clone is simple and a lot maintainable.

Define your mapping:

Mapper.CreateMap<YourType, YourType>();

Do the magic:

YourTypeList.ConvertAll(Mapper.Map<YourType, YourType>);
16

If you only care about value types...

And you know the type:

List<int> newList = new List<int>(oldList);

If you don't know the type before, you'll need a helper function:

List<T> Clone<T>(IEnumerable<T> oldList)
{
    return newList = new List<T>(oldList);
}

The just:

List<string> myNewList = Clone(myOldList);
1
  • 20
    This doesn't clone the elements.
    – Jeff Yates
    Oct 21, 2008 at 16:57
12

If you have already referenced Newtonsoft.Json in your project and your objects are serializeable you could always use:

List<T> newList = JsonConvert.DeserializeObject<T>(JsonConvert.SerializeObject(listToCopy))

Possibly not the most efficient way to do it, but unless you're doing it 100s of 1000s of times you may not even notice the speed difference.

2
  • 6
    It's not about the speed difference, it's about the readability. If I came to this line of code I would slap my head and wonder why they introducted a third-party library to serialize and then deserialize an object which I would have no idea why it's happening. Also, this wouldn't work for a model list with objects that have a circular structure. Feb 4, 2015 at 16:41
  • 2
    This code worked excellently for me for deep cloning. The app is migrating document boilerplate from Dev to QA to Prod. Each object is a packet of several document template objects, and each document in turn is comprised of a list of paragraph objects. This code let me serialize the .NET "source" objects and immediately deserialize them to new "target" objects, which then get saved to a SQL database in a different environment. After tons of research, I found lots of stuff, much of which was too cumbersome, and decided to try this. This short and flexible approach was "just right"! Nov 7, 2015 at 7:01
8

For a deep copy, ICloneable is the correct solution, but here's a similar approach to ICloneable using the constructor instead of the ICloneable interface.

public class Student
{
  public Student(Student student)
  {
    FirstName = student.FirstName;
    LastName = student.LastName;
  }

  public string FirstName { get; set; }
  public string LastName { get; set; }
}

// wherever you have the list
List<Student> students;

// and then where you want to make a copy
List<Student> copy = students.Select(s => new Student(s)).ToList();

you'll need the following library where you make the copy

using System.Linq

you could also use a for loop instead of System.Linq, but Linq makes it concise and clean. Likewise you could do as other answers have suggested and make extension methods, etc., but none of that is necessary.

3
  • 1
    That's called a "copy constructor". It's a v error prone approach, whenever you add a new field to Student, you have to remember to add it to the copy constructor. The main idea behind "clone" is to avoid that problem.
    – kenno
    Dec 1, 2019 at 13:36
  • 2
    Even with ICloneable, you have to have a "Clone" method on your class. Unless you use reflection (which you could also use in the above approach), that Clone method is going to look real similar to the copy constructor approach above, and will suffer from the same issue of having to update for new/changed fields. But that's saying "The class has to be updated when fields of the class change". Of course it does ;)
    – ztorstri
    Dec 4, 2019 at 18:06
  • 1
    There is a SERIOUS LIMITATION with this approach. Consider class StudentB : Student. In a list of Students, some might be StudentBs. new Student(s) will do the wrong thing - it will create a Student, not a StudentB. ICloneable does not have this limitation. (assuming StudentB also implements ICloneable.) Jul 28, 2021 at 15:29
5

I'll be lucky if anybody ever reads this... but in order to not return a list of type object in my Clone methods, I created an interface:

public interface IMyCloneable<T>
{
    T Clone();
}

Then I specified the extension:

public static List<T> Clone<T>(this List<T> listToClone) where T : IMyCloneable<T>
{
    return listToClone.Select(item => (T)item.Clone()).ToList();
}

And here is an implementation of the interface in my A/V marking software. I wanted to have my Clone() method return a list of VidMark (while the ICloneable interface wanted my method to return a list of object):

public class VidMark : IMyCloneable<VidMark>
{
    public long Beg { get; set; }
    public long End { get; set; }
    public string Desc { get; set; }
    public int Rank { get; set; } = 0;

    public VidMark Clone()
    {
        return (VidMark)this.MemberwiseClone();
    }
}

And finally, the usage of the extension inside a class:

private List<VidMark> _VidMarks;
private List<VidMark> _UndoVidMarks;

//Other methods instantiate and fill the lists

private void SetUndoVidMarks()
{
    _UndoVidMarks = _VidMarks.Clone();
}

Anybody like it? Any improvements?

4
 //try this
 List<string> ListCopy= new List<string>(OldList);
 //or try
 List<T> ListCopy=OldList.ToList();
4

There is no need to flag classes as Serializable and in our tests using the Newtonsoft JsonSerializer even faster than using BinaryFormatter. With extension methods usable on every object.

attention: private members are not cloned

Standard .NET JavascriptSerializer option:

public static T DeepCopy<T>(this T value)
{
    JavaScriptSerializer js = new JavaScriptSerializer();

    string json = js.Serialize(value);

    return js.Deserialize<T>(json);
}

Faster option using Newtonsoft JSON:

public static T DeepCopy<T>(this T value)
{
    string json = JsonConvert.SerializeObject(value);

    return JsonConvert.DeserializeObject<T>(json);
}
2
  • 4
    Private members are not cloned using the JSON method. stackoverflow.com/a/78612/885627 Nov 22, 2017 at 15:08
  • Not sure if this helps anyone. In my case the JSON option was not working (exception: "System.InvalidCastException: Unable to cast object of type 'Newtonsoft.Json.Linq.JObject' to type ...") but it worked when I changed the last line slightly, like this: public static T DeepCloneJSON<T>(this T value) { string json = JsonConvert.SerializeObject(value); return (T)JsonConvert.DeserializeObject(json, value.GetType()); }
    – luiggig
    Jul 15, 2022 at 17:06
3
public static Object CloneType(Object objtype)
{
    Object lstfinal = new Object();

    using (MemoryStream memStream = new MemoryStream())
    {
        BinaryFormatter binaryFormatter = new BinaryFormatter(null, new StreamingContext(StreamingContextStates.Clone));
        binaryFormatter.Serialize(memStream, objtype); memStream.Seek(0, SeekOrigin.Begin);
        lstfinal = binaryFormatter.Deserialize(memStream);
    }

    return lstfinal;
}
3
public class CloneableList<T> : List<T>, ICloneable where T : ICloneable
{
  public object Clone()
  {
    var clone = new List<T>();
    ForEach(item => clone.Add((T)item.Clone()));
    return clone;
  }
}
0
3
    public List<TEntity> Clone<TEntity>(List<TEntity> o1List) where TEntity : class , new()
    {
        List<TEntity> retList = new List<TEntity>();
        try
        {
            Type sourceType = typeof(TEntity);
            foreach(var o1 in o1List)
            {
                TEntity o2 = new TEntity();
                foreach (PropertyInfo propInfo in (sourceType.GetProperties()))
                {
                    var val = propInfo.GetValue(o1, null);
                    propInfo.SetValue(o2, val);
                }
                retList.Add(o2);
            }
            return retList;
        }
        catch
        {
            return retList;
        }
    }
3

If you need a cloned list with the same capacity, you can try this:

public static List<T> Clone<T>(this List<T> oldList)
{
    var newList = new List<T>(oldList.Capacity);
    newList.AddRange(oldList);
    return newList;
}
2

You can use extension method:

namespace extension
{
    public class ext
    {
        public static List<double> clone(this List<double> t)
        {
            List<double> kop = new List<double>();
            int x;
            for (x = 0; x < t.Count; x++)
            {
                kop.Add(t[x]);
            }
            return kop;
        }
   };

}

You can clone all objects by using their value type members for example, consider this class:

public class matrix
{
    public List<List<double>> mat;
    public int rows,cols;
    public matrix clone()
    { 
        // create new object
        matrix copy = new matrix();
        // firstly I can directly copy rows and cols because they are value types
        copy.rows = this.rows;  
        copy.cols = this.cols;
        // but now I can no t directly copy mat because it is not value type so
        int x;
        // I assume I have clone method for List<double>
        for(x=0;x<this.mat.count;x++)
        {
            copy.mat.Add(this.mat[x].clone());
        }
        // then mat is cloned
        return copy; // and copy of original is returned 
    }
};

Note: if you do any change on copy (or clone) it will not affect the original object.

1
  • This is a very basic example that has no use in real world programming. You have to clone a list of complex objects with children of lists of other objects and so on. Oct 27, 2021 at 19:53
2

Using a cast may be helpful, in this case, for a shallow copy:

IList CloneList(IList list)
{
    IList result;
    result = (IList)Activator.CreateInstance(list.GetType());
    foreach (object item in list) result.Add(item);
    return result;
}

applied to generic list:

List<T> Clone<T>(List<T> argument) => (List<T>)CloneList(argument);
2

If I need deep copy of collection, I have favorite approach like this:

public static IEnumerable<T> DeepCopy<T>(this IEnumerable<T> collectionToDeepCopy)
{
    var serializedCollection = JsonConvert.SerializeObject(collectionToDeepCopy);
    return JsonConvert.DeserializeObject<IEnumerable<T>>(serializedCollection);
}
1
  • Serializing data to text is very resource expensive compared to the actual job that needs to be done. This can be ok if you are not working on production code tho, just a one-time thing.
    – Preza8
    Feb 12, 2022 at 20:30
1

I use automapper to copy an object. I just setup a mapping that maps one object to itself. You can wrap this operation any way you like.

http://automapper.codeplex.com/

1

You can use the List<T>.ConvertAll(Converter<T, T>) method to create a new list containing all the elements of the original list, and use a conversion function that returns the input value.

List<int> originalList = new List<int> { 1, 2, 3, 4, 5 };
List<int> clonedList = new List<int>(originalList.ConvertAll(x => x));
0

I've made for my own some extension which converts ICollection of items that not implement IClonable

static class CollectionExtensions
{
    public static ICollection<T> Clone<T>(this ICollection<T> listToClone)
    {
        var array = new T[listToClone.Count];
        listToClone.CopyTo(array,0);
        return array.ToList();
    }
}
1
  • seems some collections (e.g. DataGrid's SelectedItems at Silverlight) skip the implementation of CopyTo which is a problem with this approach Jun 14, 2015 at 13:35
0

You could also simply convert the list to an array using ToArray, and then clone the array using Array.Clone(...). Depending on your needs, the methods included in the Array class could meet your needs.

2
  • This does not work; changes to the values in the cloned array STILL change the values in the original list. Feb 2, 2017 at 15:34
  • you can use var clonedList = ListOfStrings.ConvertAll(p => p); as given by @IbrarMumtaz .... Works effectively... Changes to one list are kept to itself and doesn't to reflect in another
    – zainul
    Feb 13, 2017 at 7:01
0

The following code should transfer onto a list with minimal changes.

Basically it works by inserting a new random number from a greater range with each successive loop. If there exist numbers already that are the same or higher than it, shift those random numbers up one so they transfer into the new larger range of random indexes.

// Example Usage
int[] indexes = getRandomUniqueIndexArray(selectFrom.Length, toSet.Length);

for(int i = 0; i < toSet.Length; i++)
    toSet[i] = selectFrom[indexes[i]];


private int[] getRandomUniqueIndexArray(int length, int count)
{
    if(count > length || count < 1 || length < 1)
        return new int[0];

    int[] toReturn = new int[count];
    if(count == length)
    {
        for(int i = 0; i < toReturn.Length; i++) toReturn[i] = i;
        return toReturn;
    }

    Random r = new Random();
    int startPos = count - 1;
    for(int i = startPos; i >= 0; i--)
    {
        int index = r.Next(length - i);
        for(int j = startPos; j > i; j--)
            if(toReturn[j] >= index)
                toReturn[j]++;
        toReturn[i] = index;
    }

    return toReturn;
}
0

Another thing: you could use reflection. If you'll cache this properly, then it'll clone 1,000,000 objects in 5.6 seconds (sadly, 16.4 seconds with inner objects).

[ProtoContract(ImplicitFields = ImplicitFields.AllPublic)]
public class Person
{
       ...
      Job JobDescription
       ...
}

[ProtoContract(ImplicitFields = ImplicitFields.AllPublic)]
public class Job
{...
}

private static readonly Type stringType = typeof (string);

public static class CopyFactory
{
    static readonly Dictionary<Type, PropertyInfo[]> ProperyList = new Dictionary<Type, PropertyInfo[]>();

    private static readonly MethodInfo CreateCopyReflectionMethod;

    static CopyFactory()
    {
        CreateCopyReflectionMethod = typeof(CopyFactory).GetMethod("CreateCopyReflection", BindingFlags.Static | BindingFlags.Public);
    }

    public static T CreateCopyReflection<T>(T source) where T : new()
    {
        var copyInstance = new T();
        var sourceType = typeof(T);

        PropertyInfo[] propList;
        if (ProperyList.ContainsKey(sourceType))
            propList = ProperyList[sourceType];
        else
        {
            propList = sourceType.GetProperties(BindingFlags.Public | BindingFlags.Instance);
            ProperyList.Add(sourceType, propList);
        }

        foreach (var prop in propList)
        {
            var value = prop.GetValue(source, null);
            prop.SetValue(copyInstance,
                value != null && prop.PropertyType.IsClass && prop.PropertyType != stringType ? CreateCopyReflectionMethod.MakeGenericMethod(prop.PropertyType).Invoke(null, new object[] { value }) : value, null);
        }

        return copyInstance;
    }

I measured it in a simple way, by using the Watcher class.

 var person = new Person
 {
     ...
 };

 for (var i = 0; i < 1000000; i++)
 {
    personList.Add(person);
 }
 var watcher = new Stopwatch();
 watcher.Start();
 var copylist = personList.Select(CopyFactory.CreateCopyReflection).ToList();
 watcher.Stop();
 var elapsed = watcher.Elapsed;

RESULT: With inner object PersonInstance - 16.4, PersonInstance = null - 5.6

CopyFactory is just my test class where I have dozen of tests including usage of expression. You could implement this in another form in an extension or whatever. Don't forget about caching.

I didn't test serializing yet, but I doubt in an improvement with a million classes. I'll try something fast protobuf/newton.

P.S.: for the sake of reading simplicity, I only used auto-property here. I could update with FieldInfo, or you should easily implement this by your own.

I recently tested the Protocol Buffers serializer with the DeepClone function out of the box. It wins with 4.2 seconds on a million simple objects, but when it comes to inner objects, it wins with the result 7.4 seconds.

Serializer.DeepClone(personList);

SUMMARY: If you don't have access to the classes, then this will help. Otherwise it depends on the count of the objects. I think you could use reflection up to 10,000 objects (maybe a bit less), but for more than this the Protocol Buffers serializer will perform better.

0

There is a simple way to clone objects in C# using a JSON serializer and deserializer.

You can create an extension class:

using Newtonsoft.Json;

static class typeExtensions
{
    [Extension()]
    public static T jsonCloneObject<T>(T source)
    {
    string json = JsonConvert.SerializeObject(source);
    return JsonConvert.DeserializeObject<T>(json);
    }
}

To clone and object:

obj clonedObj = originalObj.jsonCloneObject;
0

For a deep clone I use reflection as follows:

public List<T> CloneList<T>(IEnumerable<T> listToClone) {
    Type listType = listToClone.GetType();
    Type elementType = listType.GetGenericArguments()[0];
    List<T> listCopy = new List<T>();
    foreach (T item in listToClone) {
        object itemCopy = Activator.CreateInstance(elementType);
        foreach (PropertyInfo property in elementType.GetProperties()) {
            elementType.GetProperty(property.Name).SetValue(itemCopy, property.GetValue(item));
        }
        listCopy.Add((T)itemCopy);
    }
    return listCopy;
}

You can use List or IEnumerable interchangeably.

-1

It may work to copy the existing list with a different reference. The simplest way to do this in C# is the DeepClone option.

List<YourType> oldList = new List<YourType>();
var newList= oldList.DeepClone(); //Create a new memory reference
0

Not the answer you're looking for? Browse other questions tagged or ask your own question.