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I want a true deep copy. In Java, this was easy, but how do you do it in C#?

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marked as duplicate by Sheridan, Simon Halsey, trutheality, Pranav C Balan, Chris Feb 23 at 3:43

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

1  
this is one way: thomashapp.com/node/106 another is to use binary serialization. –  Mladen Sep 24 '08 at 19:41
    
What does a Deep Copy do? Does it copy the bitstream? –  SpoiledTechie.com Sep 24 '08 at 19:41
17  
A deep copy is something that copies EVERY field of an object. A shallow copy will only create a new object and point all the fields to the original. –  swilliams Sep 24 '08 at 19:46
1  
A framework for copying/cloning .NET objects: github.com/havard/copyable –  jgauffin Feb 18 '11 at 13:14
2  
A deep copy creates a second instance of the object with the same values. A shallow copy (oversimplified) is like creating a second reference to an object. –  Michael Blackburn Mar 30 '11 at 19:49

11 Answers 11

up vote 313 down vote accepted

I've seen a few different approaches to this, but I use a generic utility method as such:

public static T DeepClone<T>(T obj)
{
 using (var ms = new MemoryStream())
 {
   var formatter = new BinaryFormatter();
   formatter.Serialize(ms, obj);
   ms.Position = 0;

   return (T) formatter.Deserialize(ms);
 }
}

Notes:

  • Your class MUST be marked as [Serializable] in order for this to work.
  • Your source file must include the following code:

    using System.Runtime.Serialization.Formatters.Binary;
    using System.IO;
    
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1  
What happen if the object have event, Do they lost everything because of the serialization? –  Patrick Desjardins Sep 24 '08 at 19:56
4  
Event subscribes are included into serialization graph, since BinaryFormatter uses fields via reflection, and events are just fields of delegate types plus add/remove/invoke methods. You can use [field: NonSerialized] on event to avoid this. –  Ilya Ryzhenkov Sep 24 '08 at 20:16
19  
This only works if all members are marked [Serializable] –  Christopher Sep 30 '08 at 15:06
3  
@Sean87: above the class declaration, add [Serializable]. so [Serializable]public class Foo { } will make Foo marked as serializable. –  Dan Atkinson Aug 3 '11 at 22:51
5  
Recursive MemberwiseClone will do deep copy too, it works 3 times faster then BinaryFormatter, doesn't require default constructor or any attributes. See my answer: stackoverflow.com/a/11308879/235715 –  Alex Burtsev Jul 12 '12 at 4:19

Building on Kilhoffer's solution...

With C# 3.0 you can create an extension method as follows:

public static class ExtensionMethods
{
    // Deep clone
    public static T DeepClone<T>(this T a)
    {
        using (MemoryStream stream = new MemoryStream())
        {
            BinaryFormatter formatter = new BinaryFormatter();
            formatter.Serialize(stream, a);
            stream.Position = 0;
            return (T) formatter.Deserialize(stream);
        }
    }
}

which extends any class that's been marked as [Serializable] with a DeepClone method

MyClass copy = obj.DeepClone();
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23  
To that add "public static T DeepClone<T>(this T a) where T : ISerializable" –  Amir Rezaei Feb 11 '11 at 14:35
11  
@Amir - it isn't necessary for the class to implement ISerializable, Marking with SerializableAttribute is sufficient. The attribute uses reflection to perform serialization, while the interface allows you to write a custom serializer –  Neil Feb 14 '11 at 16:10
9  
I agree with your statement, but I like Amir's suggestion b/c it provides compile-time checking. Is there any way to reconcile the two? –  Michael Blackburn Mar 30 '11 at 19:47
1  
Passed unit test var stringbuilder = new StringBuilder("TestData"); var copy = stringbuilder.DeepClone(); Assert.IsFalse(Equals(stringbuilder,copy)); Thanks a lot. –  QuiteNothing May 6 '12 at 18:17
1  
@Neil This method is 10x slower than the NestedMemberwiseClone method, see my post on this page. –  Contango May 20 '12 at 18:02

I wrote deep object copy extension method, based on recursive "MemberwiseClone", it is fast (3 times faster then BinaryFormatter), it works with any object, you don't need default constructor or serializable attributes.

https://raw.github.com/Burtsev-Alexey/net-object-deep-copy/master/ObjectExtensions.cs

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2  
Thanks Alex, yes I needed to call copy instead and that worked! –  theJerm Feb 19 '13 at 20:23
1  
@DanKaufman Can you create an issue at github and describe the problem you have? –  Alex Burtsev Jun 20 '13 at 8:09
1  
@Killercam it's a static(for performance) reference to protected "MemberwiseClone" method, which I use to create new instance of object. msdn.microsoft.com/library/system.object.memberwiseclone.aspx –  Alex Burtsev Sep 14 '13 at 9:38
1  
@MattSmith You are absolutely right about GetHashCode, checked it, yep StackOverflow exception - gist.github.com/Burtsev-Alexey/11227277 –  Alex Burtsev Apr 23 at 18:33
1  
@MattSmith It was working for delegates, but I intently disabled it (by setting null), see github.com/Burtsev-Alexey/net-object-deep-copy/issues/7, the subscribers were cloned, in the end if you had two object A and B connected (by event subscription) you would get objects A' and B' connected, this is correct but that's not what most people want when the clone objects. –  Alex Burtsev Apr 23 at 18:39

You can use Nested MemberwiseClone to do a deep copy. Its almost the same speed as copying a value struct, and its an order of magnitude faster than (a) reflection or (b) serialization (as described in other answers on this page).

Note that if you use Nested MemberwiseClone for a deep copy, you have to manually implement a ShallowCopy for each nested level in the class, and a DeepCopy which calls all said ShallowCopy methods to create a complete clone. This is simple: only a few lines in total, see the demo code below.

Here is the output of the code showing the relative performance difference (4.77 seconds for deep nested MemberwiseCopy vs. 39.93 seconds for Serialization). Using nested MemberwiseCopy is almost as fast as copying a struct, and copying a struct is pretty darn close to the theoretical maximum speed .NET is capable of.

    Demo of shallow and deep copy, using classes and MemberwiseClone:
      Create Bob
        Bob.Age=30, Bob.Purchase.Description=Lamborghini
      Clone Bob >> BobsSon
      Adjust BobsSon details
        BobsSon.Age=2, BobsSon.Purchase.Description=Toy car
      Proof of deep copy: If BobsSon is a true clone, then adjusting BobsSon details will not affect Bob:
        Bob.Age=30, Bob.Purchase.Description=Lamborghini
      Elapsed time: 00:00:04.7795670,30000000
    Demo of shallow and deep copy, using structs and value copying:
      Create Bob
        Bob.Age=30, Bob.Purchase.Description=Lamborghini
      Clone Bob >> BobsSon
      Adjust BobsSon details:
        BobsSon.Age=2, BobsSon.Purchase.Description=Toy car
      Proof of deep copy: If BobsSon is a true clone, then adjusting BobsSon details will not affect Bob:
        Bob.Age=30, Bob.Purchase.Description=Lamborghini
      Elapsed time: 00:00:01.0875454,30000000
    Demo of deep copy, using class and serialize/deserialize:
      Elapsed time: 00:00:39.9339425,30000000

To understand how to do a deep copy using MemberwiseCopy, here is the demo project:

// Nested MemberwiseClone example. 
// Added to demo how to deep copy a reference class.
[Serializable] // Not required if using MemberwiseClone, only used for speed comparison using serialization.
public class Person
{
    public Person(int age, string description)
    {
        this.Age = age;
        this.Purchase.Description = description;
    }
    [Serializable] // Not required if using MemberwiseClone
    public class PurchaseType
    {
        public string Description;
        public PurchaseType ShallowCopy()
        {
            return (PurchaseType)this.MemberwiseClone();
        }
    }
    public PurchaseType Purchase = new PurchaseType();
    public int Age;
    // Add this if using nested MemberwiseClone.
    // This is a class, which is a reference type, so cloning is more difficult.
    public Person ShallowCopy()
    {
        return (Person)this.MemberwiseClone();
    }
    // Add this if using nested MemberwiseClone.
    // This is a class, which is a reference type, so cloning is more difficult.
    public Person DeepCopy()
    {
            // Clone the root ...
        Person other = (Person) this.MemberwiseClone();
            // ... then clone the nested class.
        other.Purchase = this.Purchase.ShallowCopy();
        return other;
    }
}
// Added to demo how to copy a value struct (this is easy - a deep copy happens by default)
public struct PersonStruct
{
    public PersonStruct(int age, string description)
    {
        this.Age = age;
        this.Purchase.Description = description;
    }
    public struct PurchaseType
    {
        public string Description;
    }
    public PurchaseType Purchase;
    public int Age;
    // This is a struct, which is a value type, so everything is a clone by default.
    public PersonStruct ShallowCopy()
    {
        return (PersonStruct)this;
    }
    // This is a struct, which is a value type, so everything is a clone by default.
    public PersonStruct DeepCopy()
    {
        return (PersonStruct)this;
    }
}
// Added only for a speed comparison.
public class MyDeepCopy
{
    public static T DeepCopy<T>(T obj)
    {
        object result = null;
        using (var ms = new MemoryStream())
        {
            var formatter = new BinaryFormatter();
            formatter.Serialize(ms, obj);
            ms.Position = 0;
            result = (T)formatter.Deserialize(ms);
            ms.Close();
        }
        return (T)result;
    }
}

Then, call the demo from main:

    void MyMain(string[] args)
    {
        {
            Console.Write("Demo of shallow and deep copy, using classes and MemberwiseCopy:\n");
            var Bob = new Person(30, "Lamborghini");
            Console.Write("  Create Bob\n");
            Console.Write("    Bob.Age={0}, Bob.Purchase.Description={1}\n", Bob.Age, Bob.Purchase.Description);
            Console.Write("  Clone Bob >> BobsSon\n");
            var BobsSon = Bob.DeepCopy();
            Console.Write("  Adjust BobsSon details\n");
            BobsSon.Age = 2;
            BobsSon.Purchase.Description = "Toy car";
            Console.Write("    BobsSon.Age={0}, BobsSon.Purchase.Description={1}\n", BobsSon.Age, BobsSon.Purchase.Description);
            Console.Write("  Proof of deep copy: If BobsSon is a true clone, then adjusting BobsSon details will not affect Bob:\n");
            Console.Write("    Bob.Age={0}, Bob.Purchase.Description={1}\n", Bob.Age, Bob.Purchase.Description);
            Debug.Assert(Bob.Age == 30);
            Debug.Assert(Bob.Purchase.Description == "Lamborghini");
            var sw = new Stopwatch();
            sw.Start();
            int total = 0;
            for (int i = 0; i < 100000; i++)
            {
                var n = Bob.DeepCopy();
                total += n.Age;
            }
            Console.Write("  Elapsed time: {0},{1}\n", sw.Elapsed, total);
        }
        {               
            Console.Write("Demo of shallow and deep copy, using structs:\n");
            var Bob = new PersonStruct(30, "Lamborghini");
            Console.Write("  Create Bob\n");
            Console.Write("    Bob.Age={0}, Bob.Purchase.Description={1}\n", Bob.Age, Bob.Purchase.Description);
            Console.Write("  Clone Bob >> BobsSon\n");
            var BobsSon = Bob.DeepCopy();
            Console.Write("  Adjust BobsSon details:\n");
            BobsSon.Age = 2;
            BobsSon.Purchase.Description = "Toy car";
            Console.Write("    BobsSon.Age={0}, BobsSon.Purchase.Description={1}\n", BobsSon.Age, BobsSon.Purchase.Description);
            Console.Write("  Proof of deep copy: If BobsSon is a true clone, then adjusting BobsSon details will not affect Bob:\n");
            Console.Write("    Bob.Age={0}, Bob.Purchase.Description={1}\n", Bob.Age, Bob.Purchase.Description);                
            Debug.Assert(Bob.Age == 30);
            Debug.Assert(Bob.Purchase.Description == "Lamborghini");
            var sw = new Stopwatch();
            sw.Start();
            int total = 0;
            for (int i = 0; i < 100000; i++)
            {
                var n = Bob.DeepCopy();
                total += n.Age;
            }
            Console.Write("  Elapsed time: {0},{1}\n", sw.Elapsed, total);
        }
        {
            Console.Write("Demo of deep copy, using class and serialize/deserialize:\n");
            int total = 0;
            var sw = new Stopwatch();
            sw.Start();
            var Bob = new Person(30, "Lamborghini");
            for (int i = 0; i < 100000; i++)
            {
                var BobsSon = MyDeepCopy.DeepCopy<Person>(Bob);
                total += BobsSon.Age;
            }
            Console.Write("  Elapsed time: {0},{1}\n", sw.Elapsed, total);
        }
        Console.ReadKey();
    }

Again, note that if you use Nested MemberwiseClone for a deep copy, you have to manually implement a ShallowCopy for each nested level in the class, and a DeepCopy which calls all said ShallowCopy methods to create a complete clone. This is simple: only a few lines in total, see the demo code above.

Note that when it comes to cloning an object, there is is a big difference between a "struct" and a "class":

  • If you have a "struct", it's a value type so you can just copy it, and the contents will be cloned.
  • If you have a "class", it's a reference type, so if you copy it, all you are doing is copying the pointer to it. To create a true clone, you have to be more creative, and use a method which creates another copy of the original object in memory.
  • Cloning objects incorrectly can lead to very difficult-to-pin-down bugs. In production code, I tend to implement a checksum to double check that the object has been cloned properly, and hasn't been corrupted by another reference to it. This checksum can be switched off in Release mode.
  • I find this method quite useful: often, you only want to clone parts of the object, not the entire thing. It's also essential for any use case where you are modifying objects, then feeding the modified copies into a queue.

Update

It's probably possible to use reflection to recursively walk through the object graph to do a deep copy. WCF uses this technique to serialize an object, including all of its children. The trick is to annotate all of the child objects with an attribute that makes it discoverable. You might lose some performance benefits, however.

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1  
Good post. Any idea why serialization is so much slower? Also, how would your checksum work? Why not just have an equality checker? –  user420667 Apr 1 '12 at 15:33
3  
I can confirm that this is much faster than the serialization method. The cost is: writing more code; the maintenance risk of adding a field without adding it to the clone method; need to write helper classes for any 3rd party classes (such as Dictionary<>) –  Neil May 23 '12 at 14:37
1  
You can create an extension method that works on any object, see my answer stackoverflow.com/a/11308879/235715 –  Alex Burtsev Jul 12 '12 at 4:16
3  
It's too bad neither Java nor .NET distinguishes among references that encapsulate identity, mutable state, both, or neither. Conceptually, there should only be one type of "clone": a new object where each reference encapsulates the same thing as in the corresponding reference in the original. If a reference encapsulates identity, the clone's reference must refer to the same object. If it encapsulates mutable state but not identity, the clone must receive a reference to a different object with the same state [otherwise both references would erroneously... –  supercat Sep 23 '13 at 19:53
3  
...encapsulate identity as well as state]. An object reference that encapsulates both identity and state cannot be cloned except by copying everything else which holds a reference to that object--a feat which is often difficult or impossible. While references to some types of object will usually be used to encapsulate identity, and references to others will usually encapsulate mutable state, knowing the type of an object is not sufficient to the purpose for which a reference is held. –  supercat Sep 23 '13 at 20:01

I believe that the BinaryFormatter approach is relatively slow (which came as a surprise to me!). You might be able to use ProtoBuf .Net for some objects if they meet the requirements of ProtoBuf. From the ProtoBuf Getting Started page (http://code.google.com/p/protobuf-net/wiki/GettingStarted):

Notes on types supported:

custom classes that:

  • are marked as data-contract
  • have a parameterless constructor
  • for Silverlight: are public
  • many common primitives etc
  • single dimension arrays: T[]
  • List / IList
  • Dictionary / IDictionary
  • any type which implements IEnumerable and has an Add(T) method

The code assumes that types will be mutable around the elected members. Accordingly, custom structs are not supported, since they should be immutable.

If your class meets these requirements you could try:

public static void deepCopy<T>(ref T object2Copy, ref T objectCopy)
        {
            using (var stream = new MemoryStream())
            {
                Serializer.Serialize(stream, object2Copy);
                stream.Position = 0;
                objectCopy = Serializer.Deserialize<T>(stream);
            }

        }

Which VERY fast indeed...

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Wonder how fast it is compared to the Nested MemberwiseClone answer above? –  Contango Sep 24 '13 at 20:15

Maybe you only need a shallow copy, in that case use Object.MemberWiseClone().

There are good recommendations in the documentation for MemberWiseClone() for strategies to deep copy: -

http://msdn.microsoft.com/en-us/library/system.object.memberwiseclone.aspx

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2  
Good try, but he specifically asked for a deep clone. –  Levitikon Sep 26 '11 at 17:38
    
You can do a deep clone with MemberwiseClone, all you do is add nesting. See answer from @Gravitas above. –  Contango Dec 30 '11 at 19:22
    
See comment from @DotNetDeveloper –  DotNetDeveloper Aug 29 '13 at 9:41
    public static object CopyObject(object input)
    {
        if (input != null)
        {
            object result = Activator.CreateInstance(input.GetType());
            foreach (FieldInfo field in input.GetType().GetFields(Consts.AppConsts.FullBindingList))
            {
                if (field.FieldType.GetInterface("IList", false) == null)
                {
                    field.SetValue(result, field.GetValue(input));
                }
                else
                {
                    IList listObject = (IList)field.GetValue(result);
                    if (listObject != null)
                    {
                        foreach (object item in ((IList)field.GetValue(input)))
                        {
                            listObject.Add(CopyObject(item));
                        }
                    }
                }
            }
            return result;
        }
        else
        {
            return null;
        }
    }

this way is a few times faster than BinarySerialization AND this does not require the [Serializable] attribute

share|improve this answer
    
You're not continuing the deep copy down your non-IList branch and I think you would have issues with ICollection/IEnumerable. –  Rob McCready Jul 5 '11 at 7:04
    
Using the "Nested MemberwiseClone" technique is an order of magnitude faster again (see my post under @Gravitas). –  Contango Jan 1 '12 at 23:29

You can try this

    public static object DeepCopy(object obj)
    {
        if (obj == null)
            return null;
        Type type = obj.GetType();

        if (type.IsValueType || type == typeof(string))
        {
            return obj;
        }
        else if (type.IsArray)
        {
            Type elementType = Type.GetType(
                 type.FullName.Replace("[]", string.Empty));
            var array = obj as Array;
            Array copied = Array.CreateInstance(elementType, array.Length);
            for (int i = 0; i < array.Length; i++)
            {
                copied.SetValue(DeepCopy(array.GetValue(i)), i);
            }
            return Convert.ChangeType(copied, obj.GetType());
        }
        else if (type.IsClass)
        {

            object toret = Activator.CreateInstance(obj.GetType());
            FieldInfo[] fields = type.GetFields(BindingFlags.Public |
                        BindingFlags.NonPublic | BindingFlags.Instance);
            foreach (FieldInfo field in fields)
            {
                object fieldValue = field.GetValue(obj);
                if (fieldValue == null)
                    continue;
                field.SetValue(toret, DeepCopy(fieldValue));
            }
            return toret;
        }
        else
            throw new ArgumentException("Unknown type");
    }

Thanks to DetoX83 article on code project.

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It works only if your obj has default constructor! –  Cyrus Aug 23 at 12:50

best way:

    public interface IDeepClonable<T> where T : class
    {
        T DeepClone();
    }
    public class MyObj : IDeepClonable<MyObj>
    {
        public MyObj Clone()
        {
            var myObj = new MyObj();
            myObj._field1 = _field1;//value type
            myObj._field2 = _field2;//value type
            myObj._field3 = _field3;//value type

            if (_child != null)
            {
                myObj._child = _child.DeepClone(); //reference type .DeepClone() that does the same
            }

            int len = _array.Length;
            myObj._array = new MyObj[len]; // array / collection
            for (int i = 0; i < len; i++)
            {
                myObj._array[i] = _array[i];
            }

            return myObj;
        }

        private bool _field1;
        public bool Field1
        {
            get { return _field1; }
            set { _field1 = value; }
        }

        private int _field2;
        public int Property2
        {
            get { return _field2; }
            set { _field2 = value; }
        }

        private string _field3;
        public string Property3
        {
            get { return _field3; }
            set { _field3 = value; }
        }

        private MyObj _child;
        private MyObj Child
        {
            get { return _child; }
            set { _child = value; }
        }

        private MyObj[] _array = new MyObj[4];
    }
share|improve this answer

The MSDN documentation seems to hint that Clone should perform a deep copy, but it is never explicitly stated:

The ICloneable interface contains one member, Clone, which is intended to support cloning beyond that supplied by MemberWiseClone… The MemberwiseClone method creates a shallow copy…

You can find my post helpful.

http://pragmaticcoding.com/index.php/cloning-objects-in-c/

share|improve this answer

I have a simpler idea. Use linq with new selection.

public class Fruit
{
  public string Name {get; set;}
  public int SeedCount {get; set;}
}

void SomeMethod()
{
  List<Fruit> originalFruits = new List<Fruit>();
  originalFruits.Add(new Fruit {Name="Apple", SeedCount=10});
  originalFruits.Add(new Fruit {Name="Banana", SeedCount=0});

  //Deep Copy
  List<Fruit> deepCopiedFruits = from f in originalFruits
              select new Fruit {Name=f.Name, SeedCount=f.SeedCount};
}
share|improve this answer
2  
It's not simpler when you have mutable reference types, many properties, lists with sublists, etc. This can work in a few simple scenarios, but is still error-prone when your Fruit class adds another property and you forget to change your method. –  Nelson Rothermel Feb 4 '13 at 19:32
    
Reference assignment 'Name=f.Name' is shallow copying. –  Tarec Feb 5 at 10:35
    
if we have 100 properties then our whole day will be consumed just writing such code for one object and so on... –  Umar Abbas Apr 10 at 5:49

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