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In C#, you can define a const string, but not an array as arrays are objects. It is to my understanding that strings are in fact objects as they are reference objects passed by value just like arrays.

So how is it that we can do this:

const string NewLine = "\r\n";

but not this:

const byte[] AesSwapBytes = new byte[] { ... };

Is it because we can't change individual characters on strings (NewLine[0] = '\n'), but can on arrays (arr[0] = i)?

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If you only need a proper c# Array that cannot be reassigned, using static readonly might be sufficient. –  Sam Aug 19 '12 at 3:45
You can declare strings as constants as strings can be created and represented using literals (like any other type that can be used as literals or in attributes). You can't define a literal array, you have to instantiate one. –  Jeff Mercado Aug 19 '12 at 3:47
@Sam You can reassign values on a readonly array however. –  Cole Johnson Aug 19 '12 at 3:51
@DJKRAZE: There's no such thing as a dynamic array, not in C# (or .NET for that matter). That's just a collection initializer that happens to be empty. The array that is created in that case is a 0 length string array. No you cannot dynamically increase the size, it's fixed. You can however initialize with as many values as you could type in. But all you're getting is some compiler magic being performed generating the instructions to create the n-length array and setting each of the n-values in their respective places in the array. –  Jeff Mercado Aug 19 '12 at 4:04
@DJKRAZE, I agree with Jeff. The array creation from your comment above (string[] dynamicArray = {}) wouldn't create a "dynamic array" at all, it would just create a fixed-size, empty array. Once the array is created, there's no way to change its size. All you can do is create another array and copy the data. –  Thomas Levesque Aug 19 '12 at 4:09

4 Answers 4

up vote 2 down vote accepted

Whether or not you can make a variable has nothing to do with whether it's an object, or a struct. What is required to make a variable const is that the right hand size of the assignment must be a compile time literal. There are only a handful of types that have compile time literals. string is one, as is int, double, and the other numeric types. As was mentioned in another answer, null is a compile time literal, so if you really wanted to you could assign any nullable type to be const and assign null to it (not that it would really be useful). If C# were to add compile time literals (other than null) that resulted in arrays then you could create a meaningful const array. Until then, you'll be stuck using some other mechanisms to do what you want.

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According to this MSDN post, one can define a readonly array in C#. C# specifically does not let you declare arrays as constant because the assignment expression is not constant.

public readonly string[] Titles = { "German", "Spanish", "Corrects", "Wrongs" };

However, the first comment details that this is sort of useless anyway, since

you can't reassign the array, but you can replace individual values.

More information on Stack Overflow here

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It's not useless, since it's often important to know whether an array-type field will always point to the same array instance. Among other things, wrapping an array in a ReadOnlyCollection will yield a "live" read-only view if the variable always points to the same array, but a broken one if the field later refers to a different array. People who don't understand the distinction between holding an object and holding a reference may be confused by a readonly designator, but those who do understand the distinction will recognize its significance. –  supercat Oct 10 '12 at 23:37
@supercat I was referring to the fact that the array doesn't act like what we would normally expect to be readonly, since it is, in fact, mutable. –  David B Oct 11 '12 at 22:05
It's unfortunate that the C# syntax readonly int[] Foo makes it look as though Foo is a read-only array of integers, as opposed to the vb-style ReadOnly Foo As Integer(), which looks more like a declaration of a read-only reference to an array of integers, but someone who understands C# and .net should understand what is and is not promised by the declaration; anyone who cannot understand that will likely have other major problems with understanding the differences between Array1 = Array2, Array1 = (int[])Array2.Clone(), and Array.Copy(Array1, Array2, Array1.Length);. –  supercat Oct 11 '12 at 22:27

You can in fact declare an array constant, using the const keyword, as long as the initializer is a compile-time constant.

const byte[] Nothing = null;

As a general rule, for reference types, only null is a compile-time constant.

.NET makes a special exception to also allow string literals.

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Well this is useless. Who would do this? –  Cole Johnson Aug 19 '12 at 3:52
@BenVoigt I don't think strings are an exception; it's just that they can be represented as a literal, unlike arrays... And null works because it's a literal. –  Thomas Levesque Aug 19 '12 at 3:53

The problem with an array declared as readonly is that even though the field is readonly (you can't make it reference another array), the content of the array itself can be changed.

If you need an "immutable array" where you can't change the content, the answer is: don't use an array. Arrays are mutable, and there is nothing you can do about it.

A possible workaround is to use a readonly collection:

static readonly IList<byte> AesSwapBytes =
    new ReadOnlyCollection<byte>(new byte[] { ... });

If you need to use it as an array, just call the ToArray extension method on it. It will return an array with a copy of the data, not the original array; so if you modify the result of ToArray, it won't affect the original collection.

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