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I need to create a structure that looks like an int (but has an extra field that I need...), so I created a new structure named TestStruct added one method (test()) that I needed and overloaded some operators, and it seemed to be working well...

The sample below shows the problem. If the structure test() method is executed from the Val property then the Val property seems to lose the value, but if the method is executed on the Val2 variable, this one seems to keep the right value...

Why does this happen?

static class Program
    /// <summary>
    /// The main entry point for the application.
    /// </summary>
    static void Main()
        new TestClass();

public class TestClass
    public TestStruct Val { get; set; }
    private TestStruct Val2;

    public TestClass()
        Console.WriteLine(Val + "-> why is it not 10?");

        //Direct assignment works well...
        Val = 123;
        Console.WriteLine(Val  + "-> direct assingment works..");

        //This way works too. Why doesn't it work with "get;" and "set;"?
        Console.WriteLine(Val2 + "-> it works this way");

public struct TestStruct
    private Int32 _Value;
    public long Offset { get; set; }

    public static implicit operator TestStruct(Int32 value)
        return new TestStruct { _Value = value };

    public static implicit operator Int32(TestStruct value)
        return value._Value;

    public void test()
        _Value = 10;
share|improve this question
A mutable struct, these be dark times. – Anthony Pegram Jul 21 '11 at 2:14
@Anthony Pegram: What's evil is not mutable value types, but the way compilers seem to assume that copies may be used interchangeably with the originals. The paradigm of storing information in value types that are passed by reference is in many regards vastly superior to the paradigm of using promiscuous reference types for everything. If class 'foo' has a mutable structure 'bar', that structure can be passed by reference to other functions in such a way that they can modify bar while they're in scope, but once they return 'bar' will be safe from outside modification. If 'bar' were a class... – supercat Jul 21 '11 at 22:57
@Anthony Pegram: ...any outside code which ever got a reference to it would be able to modify it using that reference forevermore. While it would be possible pass a wrapper object instead of the real one, and invalidate the wrapper after the called function returned, that's much ickier than simply passing a value type by reference, which would be the right paradigm if .Net languages didn't have some holes in their value type support. – supercat Jul 21 '11 at 22:59

4 Answers 4

up vote 10 down vote accepted

Your struct is wrong.

For a very large number of reasons, you should never make a mutable struct.

Just like an int or DateTime value is immutable and can never change, so too a specific value of your struct must never change at all.

Instead, you can make functions that return a new, different value .

Here are some reasons that mutable structs are evil:


To answer the question, Val.test() is equivalent to get_Val().test().
Since structs are value types, `get_Val() (the automatically-generated property getter) returns a copy of the struct.
The original struct in the private backing field is not affected.

share|improve this answer
Thanks, those links helped me out understanding how it works, now it makes sense ;) – BraCa Jul 21 '11 at 10:44
@EricLippert: What other kind of type represents a group of independent but related variables which one wants to be able to work with individually or collectively, but which should not have an identity? An exposed-field struct is a group of independent variables which can be worked with individually or collectively but should have no identity apart from its storage location. I've seen 20 zillion people saying "mutable structs are evil", but immutable types are cumbersome and it's hard to avoid mutable class types acquiring unwanted identities. What other types exist? – supercat Oct 10 '13 at 1:55
@supercat: That's a very abstract question. Can you give me a concrete example? – Eric Lippert Oct 10 '13 at 5:49
@EricLippert: Sure. Consider the lowly rectangle. If a rectangle is stored as an exposed-field structure, code which only needs to resize it or move its origin point can do so without having to rewrite the whole thing, and member accesses to a rectangle--even one declared readonly, can avoid copying the whole thing to a temporary variable. If it's stored as an immutable class, changes become much less efficient. If it's stored as a mutable class, any code that wants to receive or expose a rectangle's location must copy the coordinates to a new instance. – supercat Oct 10 '13 at 15:44
@EricLippert: I would posit that what makes a "Rectangle" a good usage case for an exposed-field struct is not that it's used in "high-performance code", but rather that a storage location of that type represents a set of four numbers whose values can be chosen independently, but which can only be changed by writing that storage location. If Rectangle's members are properties it won't be clear whether Height can be negative, or whether Y+Height is guaranteed not to overflow. If they're simply int fields, it will be clear that code which accepts a Rectangle should... – supercat Oct 10 '13 at 16:07

It's a struct, so it's a value type - it's copied by value, not by reference.

Properties are just syntactic sugar around method calls, Val compiles down to this:

private TestStruct _valBackingField;
public TestStruct get_Val {
    return _valBackingField;

When accessing a struct through a property, you are getting a fresh copy every time you access the Getter. When accessing a struct through a field, you are getting the same object every time.

That's why mutable value types are considered evil™.

share|improve this answer
+1 for evil™ :) – Jalal Aldeen Saa'd Jul 21 '11 at 2:35
Now I see why ppl usually stay away from this Thanks – BraCa Jul 21 '11 at 10:45

When you use Val, the property is returning a copy , it's that copy you modify, then you access the property again which gets another copy.

If you change the struct to a class this problem should go away because if the difference in how classes and structs are treated.

share|improve this answer

After reading some links, I understand the problem..

I've fix it by changing the test() method to return a new structure with the new value and then instead of doing Val.test() I do Val = Val.test();.

I think a similar situation occurs when we want to replace some chars in a string, we must do something like str = str.replace("xx","yy");

Thank you all for helping me out. I didn't expect to get all those replies so quickly

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