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I'm looking for the C# equivalent of Java's final. Does it exist?

Does C# have anything like the following:

public Foo(final int bar);

In the above example, bar is a read only variable and cannot be changed by Foo(). Is there any way to do this in C#?

For instance, maybe I have a long method that will be working with x, y, and z coordinates of some object (ints). I want to be absolutely certain that the function doesn't alter these values in any way, thereby corrupting the data. Thus, I would like to declare them readonly.

public Foo(int x, int y, int z) {
     // do stuff
     x++; // oops. This corrupts the data. Can this be caught at compile time?
     // do more stuff, assuming x is still the original value.
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Are you looking for a c# equivalent to putting the final keyword on parameters? –  Corey Sunwold Feb 26 '10 at 2:22
yes. I didn't realize it at first; thanks. –  Rosarch Feb 26 '10 at 2:23
Duplicate of stackoverflow.com/questions/2125591/… (and has a great answer by Eric Lippert, btw) –  casperOne Feb 26 '10 at 2:25
I dont think its exact duplicate. That question is about the difference between pass by reference and pass by value. I think Rosarch may have used bad example code for the point he was trying to get across. –  Corey Sunwold Feb 26 '10 at 2:32
@Will Marcouiller With the final keyword its not the object that can't change, because you can use method that change in internals of the object, its the reference to the object that can't change. In the case of a pass by value situation, like the example that was given, it would prevent x++ from being a valid operation because the value would be changing. The advantage would be that you get a compile time sanity check to make sure nothing sets the value to be different. However, in my experience I have never needed such a feature. –  Corey Sunwold Feb 26 '10 at 3:16

7 Answers 7

up vote 32 down vote accepted

Unfortunately you cannot do this in C#.

The const keyword can only be used for local variables and fields.

The readonly keyword can only be used on fields.

"NOTE: The Java language also supports having final parameters to a method. This functionality is non-existent in C#."

from http://www.25hoursaday.com/CsharpVsJava.html

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"Unfortunately"? How would that differ from the current capability? –  John Saunders Feb 26 '10 at 2:34
@John Saunders Unfortunate because Rosarch is looking for a feature that doesnt exist. –  Corey Sunwold Feb 26 '10 at 2:43
@John: It's not constant within the method. That's the issue. –  Noon Silk Feb 26 '10 at 3:07
Its only constant outside the scope of this method. Ignoring whether it was passed by reference or by value, Rosarch doesn't want the parameter to change within the scope of the method. Thats the key difference. –  Corey Sunwold Feb 26 '10 at 3:13
@silky: reading his post, that's not what he's asking for. He's asking to ensure the method doesn't change the actual parameters. –  John Saunders Feb 26 '10 at 5:14

Here's a short and sweet answer that will probably get a lot of down votes. I haven't read all of the posts and comments, so please forgive me if this has been previously suggested.

Why not take your parameters and pass them into an object that exposes them as immutable and then use that object in your method?

I realize this is probably a very obvious work around that has already been considered and the OP is trying to avoid doing this by asking this question, but I felt it should be here none-the-less...

Good luck :-)

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Because members can still be modified. This c++ code shows that: int* p; *p = 0;. That will compile and run until the segmentation fault. –  Cole Johnson Oct 27 '12 at 1:19

I'll start with the int portion. int is a value type, and in .Net that means you really are dealing with a copy. It's a really weird design constraint to tell a method "You can have a copy of this value. It's your copy, not mine; I'll never see it again. But you can't change the copy." It's implicit in the method call that copying this value is okay, otherwise we couldn't have safely called the method. If the method needs the original, leave it to the implementer to make a copy to save it. Either give the method the value or do not give the method the value. Don't go all wishy-washy in between.

Let's move on to reference types. Now it gets a little confusing. Do you mean a constant reference, where the reference itself cannot be changed, or a completely locked, unchangeable object? If the former, references in .Net by default are passed by value. That is, you get a copy of the reference. So we have essentially the same situation as for value types. If the implementor will need the original reference they can keep it themselves.

That just leaves us with constant (locked/immutable) object. This might seem okay from a runtime perspective, but how is the compiler to enforce it? Since properties and methods can all have side effects, you'd essentially be limited to read-only field access. Such an object isn't likely to be very interesting.

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I downvoted you for misunderstanding the question; it's not about changing the value AFTER the call, but changing it WITHIN it. –  Noon Silk Feb 26 '10 at 3:05
@silky - I didn't misunderstand the question. I'm talking about within the function as well. I'm saying it's a weird restriction to send to a function, because it doesn't really stop anything. If someone forgets the original parameter changed they're just as likely to forget a copy changed. –  Joel Coehoorn Feb 26 '10 at 3:15
I disagree. Merely providing a comment explaining the downvote. –  Noon Silk Feb 26 '10 at 3:17
+1 because you understood the OPs misunderstanding. –  erikkallen Apr 14 '10 at 7:15
DateTime has read-only field access only, but it's still interesting. It has many methods which return new instances. Many functional languages avoid methods with side-effects and prefer immutable types, in my opinion this makes code easier to follow. –  Devin Garner Jul 3 '13 at 20:28

If you often run into trouble like this then you should consider "apps hungarian". The good kind, as opposed to the bad kind. While this doesn't normally tries to express constant-ness of a method parameter (that's just too unusual), there is certainly nothing that stops you from tacking an extra "c" before the identifier name.

To all those aching to slam the downvote button now, please read the opinions of these luminaries on the topic:

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Note that you don't need a naming convention to enforce this; you could always do it use an analysis tool after the fact (not great, but nevertheless). I believe Gendarme (mono-project.com/Gendarme) has a rule for it, and probably StyleCop/FxCop too. –  Noon Silk Feb 26 '10 at 3:08

The answer: C# doesn't have the const functionality like C++.

I agree with Bennett Dill.

The const keyword is very useful. In the example, you used an int and people don't get your point. But, why if you parameter is an user huge and complex object that can't be changed inside that function? That's the use of const keyword: parameter can't change inside that method because [whatever reason here] that doesn't matters for that method. Const keyword is very powerful and I really miss it in C#.

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Create an interface for your class that has only readonly property accessors. Then have your parameter be of that interface rather than the class itself. Example:

public interface IExample
    int ReadonlyValue { get; }

public class Example : IExample
    public int Value { get; set; }
    public int ReadonlyValue { get { return this.Value; } }

public void Foo(IExample example)
    // Now only has access to the get accessors for the properties

For structs, create a generic const wrapper.

public struct Const<T>
    public T Value { get; private set; }

    public Const(T value)
        this.Value = value;

public Foo(Const<float> X, Const<float> Y, Const<float> Z)
// Can only read these values

Its worth noting though, that its strange that you want to do what you're asking to do regarding structs, as the writer of the method you should expect to know whats going on in that method. It won't affect the values passed in to modify them within the method, so your only concern is making sure you behave yourself in the method you're writing. There comes a point where vigilance and clean code are the key, over enforcing const and other such rules.

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That is actually pretty clever. Also I do want to note you can inherit multiple interfaces at the same time - but you can only inherit one class. –  Nathan Adams Sep 8 '13 at 3:20

If struct is passed into a method, unless it's passed by ref, it will not be changed by the method it's passed into. So in that sense, yes.

Can you create a parameter whose value can't be assigned within the method or whose properties cannot be set while within the method? No. You cannot prevent the value from being assigned within the method, but you can prevent it's properties from being set by creating an immutable type.

The question isn't whether the parameter or it's properties can be assigned to within the method. The question is what it will be when the method exits.

The only time any outside data is going to be altered is if you pass a class in and change one of it's properties, or if you pass a value by using the ref keyword. The situation you've outlined does neither.

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I would +1 except for the comment about immutability...having an immutable type wouldn't accomplish what he's looking for. –  Adam Robinson Feb 26 '10 at 2:19
Sure it would, by default. An immutable type, not passed by reference, will ensure that the value, outside the method, doesn't change. –  David Morton Feb 26 '10 at 2:21
True, but his example is about changing the value inside the method. In his example code, x is an Int32, which is immutable, but he's still allowed to write x++. That is, he's trying to prevent reassignment of the parameter, which is orthogonal to mutability of the parameter's value. –  itowlson Feb 26 '10 at 2:31
@silky Kinda strange to downvote three answers that misunderstood the same question. Perhaps it's not the reader's fault the question was misunderstood. You know, when a man divorces his third wife, it's typically not the wives' fault. –  David Morton Feb 26 '10 at 3:15
@David: It's the purpose of the voting system. To order by relevance. I don't see why it should concern you to be corrected. –  Noon Silk Feb 26 '10 at 3:17

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