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In the Design Guidelines for Developing Class Libraries, Microsoft say:

Do not assign instances of mutable types to read-only fields.

The objects created using a mutable type can be modified after they are created. For example, arrays and most collections are mutable types while Int32, Uri, and String are immutable types. For fields that hold a mutable reference type, the read-only modifier prevents the field value from being overwritten but does not protect the mutable type from modification.

This simply restates the behaviour of readonly without explaining why it's bad to use readonly. The implication appears to be that many people do not understand what "readonly" does and will wrongly expect readonly fields to be deeply immutable. In effect it advises using "readonly" as code documentation indicating deep immutability - despite the fact that the compiler has no way to enforce this - and disallows its use for its normal function: to ensure that the value of the field doesn't change after the object has been constructed.

I feel uneasy with this recommendation to use "readonly" to indicate something other than its normal meaning understood by the compiler. I feel that it encourages people to misunderstand the meaning of "readonly", and furthermore to expect it to mean something that the author of the code might not intend. I feel that it precludes using it in places it could be useful - e.g. to show that some relationship between two mutable objects remains unchanged for the lifetime of one of those objects. The notion of assuming that readers do not understand the meaning of "readonly" also appears to be in contradiction to other advice from Microsoft, such as FxCop's "Do not initialize unnecessarily" rule, which assumes readers of your code to be experts in the language and should know that (for example) bool fields are automatically initialised to false, and stops you from providing the redundancy that shows "yes, this has been consciously set to false; I didn't just forget to initialize it".

So, first and foremost, why do Microsoft advise against use of readonly for references to mutable types? I'd also be interested to know:

  • Do you follow this Design Guideline in all your code?
  • What do you expect when you see "readonly" in a piece of code you didn't write?
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2  
100% agree. Typical Microsoft guideline. *flush* –  Konrad Rudolph May 10 '10 at 20:31
    
I cannot say that I am free of bias. ;) I felt that Anthony's answer, while accurate, didn't say anything that wasn't already stated in the guideline: readonly references to mutable objects are bad... because the object is mutable. On the other hand, your answer did at least elaborate on why you might want to have readonly references to mutable objects. Now that I look at it, perhaps stakx's answer is - strictly speaking - the most accurate answer to the question I originally asked. –  Weeble May 14 '10 at 15:12

7 Answers 7

up vote 12 down vote accepted

I agree with you completely, and I do sometimes use readonly in my code for mutable reference types.

As an example: I might have some private or protected member -- say, a List<T> -- which I use within a class's methods in all its mutable glory (calling Add, Remove, etc.). I may simply want to put a safeguard in place to ensure that, no matter what, I am always dealing with the same object. This protects both me and other developers from doing something stupid: namely, assigning the member to a new object.

To me, this is often a preferable alternative to using a property with a private set method. Why? Because readonly means the value cannot be changed after instantiation, even by the base class.

In other words, if I had this:

protected List<T> InternalList { get; private set; }

Then I could still set InternalList = new List<T>(); at any arbitrary point in code in my base class. (This would require a very foolish error on my part, yes; but it would still be possible.)

On the other hand, this:

protected readonly List<T> _internalList;

Makes it unmistakably clear that _internalList can only ever refer to one particular object (the one to which _internalList is set in the constructor).

So I am on your side. The idea that one should refrain from using readonly on a mutable reference type is frustrating to me personally, as it basically presupposes a misunderstanding of the readonly keyword.

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+1, perfectly agree, private + readonly = less worries in code. –  csharptest.net May 10 '10 at 18:41
    
I do use private readonly on reference types a lot. It is perfect to ensure i never touch my dependencies in a class. I never expect a readonly private field to be immutable. That said i don't understand the ms guidline either. I think it is better to keep using the feature instead of protecting unaware developers of lessons they should definitely learn. –  console Oct 9 '13 at 9:08

It seems natural that if a field is readonly, you would expect to not be able to change the value or anything having to do with it. If I knew that Bar was a readonly field of Foo, I could obviously not say

Foo foo = new Foo();
foo.Bar = new Baz();

But I can get away with saying

foo.Bar.Name = "Blah";

If the object backing Bar is, in fact, mutable. Microsoft is simply recommending against that subtle, counterintuitive behavior by suggesting that readonly fields be backed by immutable objects.

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You say that seems natural, but it does not seem so to me. It might seem desirable that there be some means of specifying deep immutability, but it does not seem natural that readonly should be it, and even that does not obviously lead to the conclusion that we should behave as if that were readonly's actual meaning when it is not. –  Weeble May 11 '10 at 10:12

DO NOT assign instances of mutable types to readonly fields.

I had a quick look in the Framework Design Guidelines book (pages 161-162), and it basically states what you've already noticed yourself. There's an additional comment by Joe Duffy that explains the guideline's raison-d'être:

What this guideline is trying to protect you from is believing you've exposed a deeply immutable object graph when in fact it is shallow, and then writing code that assumes the whole graph is immutable.
— Joe Duffy

I personally think that the keyword readonly was named badly. The fact that it only specifies the const-ness of the reference, and not of the const-ness of the referenced object, easily creates misleading situations.

I think it would have been preferable if readonly made referenced objects immutable, too, and not just the reference, because that is what the keyword implies.

To remedy this unfortunate situation, the guideline was made up. While I think that its advice is sound from the human point of view (it's not always obvious which types are mutable and which aren't without looking up their definition, and the word suggests deep immutability), I sometimes wish that, when it comes to declaring const-ness, C# would offer a freedom similar to that offered by C++, where you can define const either on the pointer, or on the pointed-to-object, or on both or nothing.

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1  
While I sort of understand your point, one thing I definitely don't wish for is the horrible C++-style const. –  JSBձոգչ May 10 '10 at 17:50
    
@JS Bangs: Of course this comes down to personal preferences. C's type declaration syntax is indeed... well, "special", but offers a lot of flexibility. C's const would probably not fit well into the relative simplicity of C#/.NET's type system... yet I sometimes miss it. const is a more powerful tool than many people think. –  stakx May 10 '10 at 17:57
    
Upvoted, but I do disagree on the one point that readonly should make referenced objects immutable. I can't see that working without a system even more complex than C++'s const: when you access an object through a readonly reference, does that make all its properties and fields return readonly references? What about its method return values? Do you need a way to explicitly declare methods const/readonly? How does it all work when the object is of a type declared in another assembly? –  Weeble May 13 '10 at 23:06
    
What you're saying then (and if this summary is correct I agree with you) is that the guideline exists solely to mask the fact that the readonly keyword is not terribly well named. If you understand what readonly really does there should be no problem in using it in the stated scenario. My 2c. –  Stephen Kennedy Sep 27 '11 at 11:56
    
@Weeble: What would be useful would be a means of specifying that more than one type of reference could exist to a class object, and that different properties should be accessible based upon the type of the reference. I would expect that one could in theory allow up to four types of references reasonably efficiently if the address stored in each object reference was 1/4 the actual start address of the object, freeing up the upper two bits to identify the reference type. I really doubt Microsoft will ever do such a thing, though. –  supercat Aug 15 '12 at 22:43

Microsoft has a few such peculiar advices. The other one that immediately springs to mind is not to nest generic types in public members, like List<List<int>>. I try to avoid these constructs where easily possible, but ignore the newbie-friendly advice when I feel the use is justified.

As for readonly fields - I try to avoid public fields as such, instead going for properties. I think there was a piece of advice about that too, but more importantly there are cases now and then when a field doesn't work while a property does (mostly it has to do with databinding and/or visual designers). By making all public fields properties I avoid any potential problems.

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You raise a good point - do the design guidelines apply only to non-private members? The guidelines already say not to use public or protected fields. I suppose they are focused on the public API of a library, on which private fields obviously have no bearing. I certainly don't feel a pressing need to have public readonly mutable fields, since I rarely feel a need to have public fields at all. –  Weeble May 11 '10 at 10:31

In the end they are just guidelines. I know for a fact that the people at Microsoft often don't follow all of the guidelines.

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The syntax you are looking for is supported by the C++/CLI language:

const Example^ const obj;

The first const makes the referenced object immutable, the 2nd makes the reference immutable. The latter is equivalent to the readonly keyword in C#. Attempts to evade it produce a compile error:

Test^ t = gcnew Test();
t->obj = gcnew Example();   // Error C3892
t->obj->field = 42;         // Error C3892
Example^ another = t->obj;  // Error C2440
another->field = 42; 

It is however smoke and mirrors. The immutability is verified by the compiler, not by the CLR. Another managed language could modify both. Which is the root of the problem, the CLR just doesn't have support for it.

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If you put a mutable type into a readonly field, you have a fundamental contradiction. It is expected that the contents of a readonly field will be immutable. So, the following could lead to improper use:

public Customer OrderCustomer
{
   get;
}

There is no setter, yet the Customer object is mutable. If a developer interprets the readonly nature of the property to mean that the Customer object is immutable, that assumption could lead to problems. The code will compile and the system may run, but if a framework depends on mutability and other code expects immutability, you could have race conditions, deadlocks, and other resource contention issues.

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If you know that the symbol readonly and the English language concept of "read only" don't actually mean the same thing, then there is no contradiction. Maybe readonly should be changed to unassignable except in constructor or something similar to prevent people from accidentally mapping the English language meaning onto the C# symbol. –  dss539 May 10 '10 at 19:27
    
The contents of a readonly field are immutable. The contents of a field of class type identify an object (or null). The contents of a readonly field of class type will always continue to identify the same object as they did when the containing object was created, as long as any reference to that containing object exists anywhere in the universe. –  supercat Aug 15 '12 at 22:39

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