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A few days ago, I decided to start learning C#. So, I got a book and started reading and practicing with code. I was surprised when I saw that string in C# is considered a primitive type.

But I was more surprised when I saw that string, as well as all the other primitive types in C# have operations. I'm a Java developer and my understanding was that primitive data types don't have operations, only classes have. But in C#, the following is valid:

string name = "alex";
Console.WriteLine(name.ToUpper());

How is this possible? Are they really primitives? What am I missing here?

share|improve this question
    
Bad example, given that in java String is an object so "abc".toString() works in Java as does "abc".ToString() in C# A distinction is that 123.toString() will not work in java, whereas 123.ToString() will work in C# So you could ask why int (which is a primitive in C# Console.WriteLine(typeof(int).IsPrimitive) //true has methods. – barlop Apr 19 '14 at 21:45
up vote 27 down vote accepted

string is not a primitive type in C#. It's one of two predefined (i.e., part of the language specification) reference types in C# (the other being object). The primitive types in C# are Boolean (bool), Byte (byte), SByte (sbyte), Int16 (short), UInt16, Int32 (int), UInt32 (uint), Int64 (long), UInt64 (ulong), IntPtr, UIntPtr, Char (char), Double (double), and Single (single). Note that the specification states "it is also possible to use structs and operator overloading to implement new “primitive” types in the C# language" but that typeof(MyStruct).IsPrimitive is false if MyStruct is a user-defined struct.

I got a book and started reading and practicing with code. I was surprised when I saw that string in C# is considered a primitive type.

The book said this? Which book?

I'm a Java developer and my understanding was that primitive data types don't have operations, only classes have.

Plainly and simply, C# and Java are different languages. In C# there is the notion of object from which almost everything derives (yes, there are exceptions the most important of which is interfaces). From object there is a derived type called ValueType. Derivatives of ValueType are structs which have value semantics. All other derivatives of object are reference types. All of these objects encapsulate data and behavior (i.e., they can have methods).

string name = "alex";

Console.WriteLine(name.ToUpper());

How is this possible?

I don't understand your confusion with this code snippet. name is an instance of string that is definitely assigned by the string literal "alex" and we are invoking one of the overloads of the method String.ToUpper on name. Then the overload of Console.WriteLine that accepts an instance of string is invoked. You can even do this

Console.WriteLine("alex".ToUpper());

Are they really primitives?

No. string is not a primitive.

What am I missing here?

That C# and Java are related but very different programming languages.

share|improve this answer
3  
You're right, after a little research (and reading all your answers here) I found out that there aren't any primitives in C#. I wasn't confused with the code, I was only confused that you're allowed to perform operations in types like int. For example, int i = 5; i.ToString(); – Alex Jan 21 '10 at 0:53
3  
ToString is a virtual method defined on the class object from which ValueType derives from which Int32 derives (int is a reserved keyword in C# that is short for Int32). Int32 provides an override of ToString. – jason Jan 21 '10 at 0:56
1  
+1 Very nice answer. (By the way, here is a quick verification of your assertion that String isn't a primitive type: typeof(String).IsPrimitive) – Andrew Hare Jan 21 '10 at 2:20
    
Worth pointing out that int is a primitive but still in C#, you can say 5.ToString() you cannot do 5.toString() in Java. Furthermore, in java, you can do "abc".toString() like C# "abc".ToString(). He obviously had no surprise in the idea that a non-primitive can have methods. His surprise was that a primitive in C# can. – barlop Apr 19 '14 at 20:04

string, in C#, is a class - it's an alias for System.String.

However, all types in .NET have methods. It is truly object oriented, and everything derives from System.Object, which also means that the methods of System.Object work on every type in C#.

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How about structs (as int aka Int32 and other value types are structs)? From my understanding they don't support inheritance. Are they still derived from System.Object? – Dirk Vollmar Jan 21 '10 at 0:54
    
@divo: All struct derive from System.ValueType which derives from System.Object and they are implicitly sealed (meaning they can not be derived from). – jason Jan 21 '10 at 0:57
    
Aliasing and Inheritance for posterity: C# string = System.String (class) > System.Object | C# int = System.Int32 (struct) > System.ValueType > System.Object | It always ends at System.Object. See System.Object methods here msdn.microsoft.com/en-us/library/system.object_members.aspx and see these on any instance or value in your application. – John K Jan 21 '10 at 0:59
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Be careful! Not everything derives from System.Object! – jason Jan 21 '10 at 0:59
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@divo: Pointer types and interfaces for example. – jason Jan 21 '10 at 1:04

Short answer is that they're not really primitives. The compiler will switch out your string with a String object.

share|improve this answer
    
string is just a keyword that is an alias for System.String. – jason Jan 21 '10 at 1:42
    
@Jason - Isn't that all an alias is? Something that is effectively a place-holder name for some other real thing? In other words isn't what you're saying logically the same as saying the compiler switches string to System.String? Now I'm not sure if it happens when compiling to CIL or when the CIL is JIT'd at runtime, but at some point a string is a System.String right? – Alconja Jan 21 '10 at 3:34
    
I guess I just misunderstood what you meant by "the compiler with switch out your string with a String object." I thought you were saying that the two are different types and the compiler is just using String when you say string but I realize now (based on your comment) that is not what you meant. My apologies; your understanding is correct. It happens at compile time; that is replacing all instances of string with String in your code or vice versa will emit exactly the same IL. – jason Jan 21 '10 at 3:38

Since C# represents all primitive data types as objects, it is possible to call an object method on a primitive data type. (Source: MSDN - Data Types - C# vs Java)

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They are aliased to their matching System Namespace types in .Net. Here's a rundown of the alias list for value types in .Net:

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1  
There's no boxing/unboxing with string, it is a reference type. – Bruno Reis Jan 21 '10 at 0:45
    
@Bruno Reis: Thanks for the catch, I often forget this, added a full reference of ones that do box/unbox in case it's helpful to someone later. – Nick Craver Jan 21 '10 at 1:08
    
Still wrong: boxing is treating a value type as Object. As mentioned, Int32 is the same as int. If you "cast" an int to an Int32, there's absolutely no boxing taking place. Boxing is converting to object. Your list describes the type aliases, but it has absolutely nothing to do with boxing/unboxing. You should review these concepts. – Bruno Reis Jan 21 '10 at 2:23
    
FYI, any value type is subject to boxing/unboxing, even the "custom" ones you may define yourself. What you describe is a concept completely unrelated to boxing/unboxing. – Bruno Reis Jan 21 '10 at 2:25
    
@Bruno Reis: Thanks!, I had always though it unboxed on a (Int32)int scenario sticking it on the stack for method calls, I see with our generated IL that it doesn't...learn something every day on here. I updated this in case someone else trips over it later. I appreciate the lesson, I'm sure it'll help in project down the road. – Nick Craver Jan 21 '10 at 2:55

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