Compare String and Object in C#
In each case, the second operand of ==
is x
, which is of type object
. That means you're using the normal reference equality operator.
Now in your first case, you're using two string constants with the same contents. The C# compiler will use a single object for those two references. In the second case, x
and y
refer to distinct string objects with the same contents. The two references will be different, so ==
will return false.
You can fix the comparison by:
Use
Equals
instead - that's overridden bystring
(as opposed to the==
operator which is only overloaded:Console.WriteLine(y.Equals(x)); // or x.Equals(y), or Equals(y, x)
The use of the static
Equals(object, object)
method can be useful if either of the arguments can be null; it means you don't need to worry about aNullReferenceException
.Make both variables of type
string
, at which point the==
overload withinstring
will be picked at compile-time, and that overload compares the contents of the strings, not just the references
It's worth noting that it's not just a matter of the string literals itself being noticed by the C# compiler - it's about compile-time constant expressions. So for example:
object x = "mehdi emrani";
string y = "mehdi " + "emrani";
Console.WriteLine(y == x); // True
Here y
is initialized using two string literals which aren't the same as the one used to initialize x
, but the string concatenation is performed by the compiler, which realizes it's the same string it's already used for x
.
When you initialized
object x = "mehdi emrani"; //pointer(x)
It initialized it in memory and assign reference to x. After this when you initialized
string y = "mehdi emrani"; //pointer(x)
compiler find that this value is already in memory so it assign same reference to y.
Now ==
equal operator which actually compares the addresses instead of value find the same address for both variable which results true:
x==y //actually compares pointer(x)==pointer(x) which is true
In second case when you initialized x and y that get assigned different addresses.
object x = "mehdi emrani"; //Pointer(x)
string y = "mehdi "; //not found in memory
y += "emrani"; //Pointer(y)
Now comparison find different addresses which results false:
x == y //is actually Pointer(x) == Pointer(y) which is false
So to overcome this you need to use .Equals() which instead of reference compares the value and object type.
Console.WriteLine(y.Equals(x)); //compares "mehdi emrani" == "mehdi emrani" results true
Most probably the references are compared (standard Equals
implementation for object). In the first example C# optimizes constant strings, and so y and x actually point to the same object, hence their reference is equal. In the other case, y is created dynamically, and so the reference is different.