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Why does this code return true:

new Byte() == new Byte()   // returns true

but this code returns false:

new Byte[0] == new Byte[0] // returns false
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I am surprised no one found duplicates for this question, as it is very basic value type verses reference type question. – P5Coder Jan 22 '14 at 10:15
I am even more surprised by the number of up-votes it has got - 51 as of now. – P5Coder Jan 22 '14 at 10:16
up vote 142 down vote accepted

Because new Byte() creates value type, which are compared by value (by default it will return byte with value 0). And new Byte[0] creates array, which is a reference type and compared by reference (and these two instances of array will have different references).

See Value Types and Reference Types article for details.

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Bytes are value types in .NET, meaning that the == operator returns true if and only if the two bytes have the same value. This is also known as value equality.

But arrays are reference types in .NET, meaning the == operator returns true if and only if they refer to the same array instance in memory. This is also known as reference equality or identity.

Note that the == operator can be overloaded for both reference and value types. System.String, for example, is a reference type, but the == operator for strings compares each character in the array in sequence. See Guidelines for Overloading Equals() and Operator == (C# Programming Guide).

If you want to test whether the arrays contain exactly the same values (in order) you should consider using Enumerable.SequenceEqual instead of ==.

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I believe the crux of the question is about the == operator and its dual nature. This answer clearly covers that. – roryap Jan 14 '14 at 19:57
The most correct answer, if only for "by default" – Jon Hanna Jan 14 '14 at 22:07
I like the use of "by default" for other reference types, but is it actually possible to change this behavior for array types? – Chris Hayes Jan 15 '14 at 4:52
@ChrisHayes No. Operators may only be overloaded within the class(es) they are defined for, and since the System.Array class doesn't provide an overload, it uses the default, reference equality. You might think you could create your own array type (System.Array is abstract after all), but the compiler doesn't allow you to inherit from it. You could probably come fairly close with some subtle use of implicit operators to cast the array to another type, though, but the very idea makes my skin crawl. – p.s.w.g Jan 15 '14 at 5:04

comparing reference is actually comparing pointer address, which are different that is the reason returning false and in value address not matter it compares value.

Compiler try to store Value type in registers but due to limited registers number further storage happens in Stack with values [Reference] while Reference type is in stack but value holding a address of memory address in Heap.

Comparison here compare the value present in stack which is in first case for both same while in second case it is addresses of heap which are different.


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This is a pretty confusing answer. The first part still makes it look like a reference comparison, because you still use the word "Pointer". The use of the graphic versus just text is also annoying because it makes it very difficult for me to edit it to improve the answer. – Chris Hayes Jan 15 '14 at 4:51
-1 for perpetuating the "value types are stored in the stack" myth. I'd have thought it quite likely that the results of those two new Byte() calls are probably stored in registers. – Damien_The_Unbeliever Jan 15 '14 at 14:12
@Damien_The_Unbeliever Register storage depends on register availability else it store in Stack, in both cases value is same. – Zaheer Ahmed Jan 15 '14 at 15:47
See… for a full explanation. – p.s.w.g Jan 15 '14 at 15:53
Your whole answer is still a ramble. The key aspect of value types is that they are compared by value. It doesn't matter where that value is stored. You can place two value types into heap-allocated structures (either deliberately or due to hoisting) and the comparisons will still be based on their value. – Damien_The_Unbeliever Jan 15 '14 at 18:47

There is an overload of the == operator in which both operands are of type byte and it is implemented to compare the value of each byte; in this case you have two zero bytes, and they are equal.

The == operator isn't overloaded for arrays, so the overload having two object operands is used (since arrays are of type object) in the second case, and its implementation compares the references to the two objects. The reference to the two arrays are different.

It's worth noting that this has nothing (directly) to do with the fact that byte is a value type and arrays are reference types. The == operator for byte has value semantics only because there is a specific overload of the operator with that implementation. If that overload did not exist then there would be no overload for which two bytes would be valid operands, and as such the code wouldn't compile at all. You can see this easily enough by creating a custom struct and comparing two instances of it with the ==operator. The code will not compile, unless you provide your own implementation of == for those types.

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