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Value types behavior shows that whatever value we are holding cannot be changed through some other variable .

But I still have a confusion in my mind about what i mentioned in the title of this post . Can anyone clarify?

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up vote 17 down vote accepted

Value types can be either mutable or (modulo some weird edge cases) immutable, depending on how you write them.


public struct MutableValueType
    public int MyInt { get; set; }


public struct ImmutableValueType
    private readonly int myInt;
    public ImmutableValueType(int i) { this.myInt = i; }

    public int MyInt { get { return this.myInt; } }

The built-in value types (int, double and the like) are immutable, but you can very easily create your own mutable structs.

One piece of advice: don't. Mutable value types are a bad idea, and should be avoided. For example, what does this code do:

SomeType t = new SomeType();
t.X = 5;

SomeType u = t;
t.X = 10;


It depends. If SomeType is a value type, it prints 5, which is a pretty confusing result.

See this question for more info on why you should avoid mutable value types.

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Just two observations - in the mutable case, the field could (and probably should) still be behind a property. In the immutable case, the field could be explicitly readonly. – Marc Gravell Aug 17 '11 at 6:14
@Marc Good points. I actually considered going back and making the readonly edit; suppose I'll make both now. Thanks. – dlev Aug 17 '11 at 6:15
@dlev, so when you have something like the following. int i = 5; i = 5+2; The 5+2 is passed to a new int and the referenced returned to i? IMHO when SomeType prints 5 I'm not confused, it's when SomeType prints 10 that boggles me. Good answer btw. – Jethro Aug 17 '11 at 6:16
@dlev, but by changing the memory held by <code>i</code> are we not changing the value of <code>i</code> making it mutable. I've always known <code>Strings</code> as being immutable, hence when you do someting like this <code>str = str + "change";</code> you are in fact calling the <code>String.Concat</code> which creates a new block of memory and then points str to that block of memory. Is this what is happening with <code>i</code> or does the Integers original memory block get changed? Hope that makes sense. – Jethro Aug 17 '11 at 6:29
In your example, if SomeType is a value type with an integer field X, u.X will be 5. That information and the code above are sufficient to show that information; it should hardly be "unexpected". Now suppose t were a class type, and anyplace between the creation of t and the WriteLine call--even before the "t.x=10", there was a call to SomeInheritableClassObject.SomeVirtualFunction(t). Without examining all possible overrides of SomeVirtualFunction, there's no way to know what the WriteLine would output. I'd regard the predictable behavior of mutable structs to be far preferable. – supercat Oct 6 '11 at 19:45

all primitive value types like int, double,float are immutable.But structs by itself are you have to take measures to make them as immutable as it can create lot of confusions.

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Ok , But wat about reference types ? while reading through documents i came to know that they can be either mutable or immutable . how is that ? – Kuntady Nithesh Aug 17 '11 at 4:55
@Nitesh . That also depends upon how you implement it .The System.Text.StringBuilder class is an example of a mutable reference type. It contains members that can change the value of an instance of the class. An example of an immutable reference type is the System.String class. After it has been instantiated, its value can never change – Ashley John Aug 17 '11 at 5:00

Any value-type instance which holds any information can be mutated by code which can write the storage location wherein it are contained, and no value type-instance can be mutated by code which cannot write the storage location wherein it is contained. These characteristics make privately-held storage locations of mutable value types ideal data containers in many scenarios, since they combine the updating convenience that stems from mutability, with the control that would come from immutability. Note that it is possible to write the code for a value type in such a way that it's impossible to mutate an existing instance without first having an instance (perhaps a newly created temporary instance) which contains the desired data, and overwriting the contents of the former instance with the contents of the latter, but that won't make the value type any more or less mutable than it would have been absent such ability. In many cases, it merely serves to make mutation awkward and to make it look as though a statement like:

  MyKeyValuePair =
    new KeyValuePair<long,long>(MyKeyValuePair.Key+1, MyKeyValuePair.Value+1>;

will create a new instance but leave the existing instance unaffected. If KeyValuePair were an immutable class, and one thread was performing a MyKeyValuePair.ToString() while another thread was executing the above code, the ToString call would act upon either the old or new instance, and would thus yield either both old values or both new values. Because KeyValuePair is a struct, however, the above statement will create a new instance, but it won't make MyKeyValuePair refer to the new instance--it will merely use the new instance as a template whose fields will be copied to MyKeyValuePair. If KeyValuePair were a mutable struct, the most natural expression of the likely-intended meaning for the above code would be more like:

  MyKeyValuePair.Key += 1;
  MyKeyValuePair.Value += 1;

or perhaps:

  var temp = MyKeyValuePair;
  MyKeyValuePair.Key = temp.Key+1;
  MyKeyValuePair.Value = temp.Value+1;

and the threading implications would be much clearer.

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