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object a = "1";
object b = "1";
Console.WriteLine(a == b); // returns True

object c = 1;
object d = 1;
Console.WriteLine(c == d); // returns False

The above code returns different results for integer and string. I am not been able to understand why. Can someone please help me to understand the reason behind this?

And what is the difference between == (operator) and ReferenceEquals (function)?

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marked as duplicate by BartoszKP, Daenyth, Brian, Nija, Eric Aug 20 '14 at 19:48

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

If you have two questions please post two questions. –  Eric Lippert Aug 20 '14 at 15:19
ok, I will do that. Can you please post the link of original question, as this is marked as duplicate? –  Vimal Patel Aug 21 '14 at 6:41
You might find this article helpful: blog.coverity.com/2014/01/13/inconsistent-equality –  Eric Lippert Aug 25 '14 at 15:23
Resolution of the == operator gets really fun when using generics and runtime and compile time types differ... –  MrDosu Aug 26 '14 at 16:36

5 Answers 5

up vote 13 down vote accepted

Although Ed S has answered the point that == checks reference equality.Just to add the MSDN link which also says the same thing

For predefined value types, the equality operator (==) returns true if the values of its operands are equal, false otherwise. For reference types other than string, == returns true if its two operands refer to the same object. For the string type, == compares the values of the strings.

If you are looking to compare objects then you may use the Equals method.

Also as you asked the difference between the == and referenceEquals then you should note that == is overloading and Equals is overriding .

So if you say that

string x = "ABCD";
string y = 'A' + "BCD"; // ensure it's a different reference

if (x == y) { // evaluates to TRUE

since the method which will be used to compare variables x and y is decided at compile time. Strings are immutable so there is no harm in using == overloaded to support value equality for strings. When compiler optimizes your string literals, it sees that both x and y have same value and thus you need only one string object. It's safe because String is immutable in C#.

Whereas when you use Equals then the type of the variable is determined at runtime based on the actual type within the variable x.

object x = "ABCD";
object y = 'A' + "BCD"; // ensure it's a different reference

if (x == y) { // evaluates to FALSE


object x = "ABCD";
object y = 'A' + "BCD"; // ensure it's a different reference

if (x.Equals(y)) { // evaluates to TRUE

Also you may check Guidelines for Overriding Equals() and Operator == (C# Programming Guide)

In C#, there are two different kinds of equality: reference equality (also known as identity) and value equality. Value equality is the generally understood meaning of equality: it means that two objects contain the same values. For example, two integers with the value of 2 have value equality. Reference equality means that there are not two objects to compare. Instead, there are two object references and both of them refer to the same object.


By default, the operator == tests for reference equality by determining whether two references indicate the same object. Therefore, reference types do not have to implement operator == in order to gain this functionality. When a type is immutable, that is, the data that is contained in the instance cannot be changed, overloading operator == to compare value equality instead of reference equality can be useful because, as immutable objects, they can be considered the same as long as they have the same value. It is not a good idea to override operator == in non-immutable types.

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Invocation of == on variables of type Object will test reference equality, even if the compiler could "know" that both sides will identify instances of String. The compiler isn't testing value equality here--instead, it's testing whether two references to the same string refer to the same object and is reporting that they do. –  supercat Aug 20 '14 at 15:59
@supercat:- Great point! +1 –  Rahul Tripathi Aug 20 '14 at 16:33

Declaring the integers as object results in a boxing operation. Now that they are boxed the equality operator performs a reference comparison, and the references are not the same. The string type however has defined its own equality operator and performs a value comparison (i.e., "are my characters the same as this other string's characters?")

EDIT: Per @Enigmativity, I missed the fact that the two strings were declared as object as well. This makes things slightly more complicated. My previous statement about strings is wrong here because operator== is not polymorphic. The comparison returns true because those strings are interned, meaning they are in fact the same object, so the reference comparison returns true.

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Much shorter and to the point than my answer. +1 –  Simon Whitehead Aug 20 '14 at 4:57
but where is your answer @SimonWhitehead –  Neel Aug 20 '14 at 4:59
The string type having its own == has nothing to do with the example code. It returns true because both "1" are the same string (due to interning). –  Porges Aug 20 '14 at 5:08
@Porges is correct. This answer isn't strictly right. –  Enigmativity Aug 20 '14 at 5:09
I think I'll make my comment a bit stronger. This answer is incorrect. This has nothing to do with the String type having its own equality operator. –  Enigmativity Aug 20 '14 at 5:15

This code returns false:

object a = "a";
object b = a + "b";
a = "ab";
Console.WriteLine(a == b); // returns False

This code returns true:

object a = "ab";
object b = "ab";
Console.WriteLine(a == b); // returns True

But in both cases the value in a & b are "ab". The difference is that for the second set of code the compiler optimizes the code and uses the same string.

So the strings as objects are evaluating == as reference equals. There is no difference.

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The == token in C# is used to represent two operators: an overloadable equality-test operator and a non-overloadable reference-equivalence test operator. In cases where an equality-test overload is defined for both operands, it will use the former operator; otherwise, it will try to use the latter. Because Object does not define any equality-test overloads, C# interprets the == token as referring to the second (reference-equivalence) operator.

The reason that the strings in your examples compare equal is not that the generated code is examining their content, but rather has to do with the way string literals are implemented. When an assembly is compiled, the compiler builds a list of all string literals that have appeared within it; the lengths and contents of all strings on that list are included as a blob within the generated assembly. At each place a string literal is used within the code, the compiler inserts an instruction "load a reference to the *n*th string", and after generating all the code, the compiler includes in the assembly the character sequences of every string literal contained therein. When an assembly is loaded, the .NET Runtime will create a table of String references, generate String instances for all of the character sequences defined in that assembly, and store the references to the newly-created strings in the table. As a consequence of all this, setting a variable to a string literal "George" does not create a new string object, but rather makes the variable identify an object which holds the six-character sequence G-e-o-r-g-e which was created when the code was first loaded.

If the compiler and/or runtime happens to notice that the same character sequence appears in more than one string literal, requests for later literals holding that sequence may be satisfied by with a reference to a String object that was built for an earlier one. In general code should be written in such a way as to not care when such substitution occurs. In cases where the literal appears multiple times within the source file, a compiler will almost certainly replace all occurrences with references to the same string instance, but well-written code should not rely upon that.

In your example, all relevant uses of the literal "1" do appear within the same file, and thus are replaced with references to the same string object, but it is entirely possible that other String instances which contain the single character 1 may exist; using the == operator to compare the string literal "1" to a variable of type Object which identifies one of those other strings would yield false.

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Definition is like that: From String.cs

public static bool operator == (String a, String b) {
       return String.Equals(a, b);

And definition of Equal method is :

public static bool Equals(String a, String b) {
            if ((Object)a==(Object)b) {
                return true;

            if ((Object)a==null || (Object)b==null) {
                return false;

            if (a.Length != b.Length)
                return false;

            return EqualsHelper(a, b);
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