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Why can you do things like

int i = 10;
i.ToString();
'c'.Equals('d');
1.ToString();
true.GetType();

in C#? Those things right there are either primitive, literal, unboxed, or any combination of those things; so why do they have methods? They are not objects and so should not have methods. Is this syntax sugar for something else? If so, what? I can understand having functions that do these things, for example:

string ToString(int number)
{
  // Do mad code
  return newString;
}

but in that case you would call it as a function, not a method:

string ranch = ToString(1);

What's going on here?

edit:

Just realised C# isn't a java clone anymore and the rules are totally different. oops :P

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4  
You mean "why do structures have methods"? It's because they just do. (And thankfully!, ever use Java?) Also, every structure extends object (implicitly), even though it might be (really, often is) treated as a "value type". –  user166390 Oct 26 '11 at 23:12
4  
Unified Type System: stackoverflow.com/questions/4233112/… –  ChaosPandion Oct 26 '11 at 23:12
4  
Of course they are objects! Value types are objects that inherit from System.Object, and by definition of "inheritance", have all the methods of their base class. Why do you believe that value types are not objects? –  Eric Lippert Oct 27 '11 at 13:54

4 Answers 4

up vote 6 down vote accepted

They act like that because the spec says so (and it's pretty nice) :

1.28 Value types

A value type is either a struct type or an enumeration type. C# provides a set of predefined struct types called the simple types. The simple types are identified through reserved words.

...

1.28.4 Simple types

C# provides a set of predefined struct types called the simple types. The simple types are identified through reserved words, but these reserved words are simply aliases for predefined struct types in the System namespace, as described in the table below.

...

Because a simple type aliases a struct type, every simple type has members. For example, int has the members declared in System.Int32 and the members inherited from System.Object, and the following statements are permitted:

int i = int.MaxValue; // System.Int32.MaxValue constant
string s = i.ToString(); // System.Int32.ToString() instance method
string t = 123.ToString(); // System.Int32.ToString() instance method

The simple types differ from other struct types in that they permit certain additional operations:

Most simple types permit values to be created by writing literals (§1.16.4). For example, 123 is a literal of type int and 'a' is a literal of type char. C# makes no provision for literals of struct types in general, and nondefault values of other struct types are ultimately always created through instance constructors of those struct types.

As the spec explains simple types have some super powers like the ability to be const, a special literal syntax that could be used instead of new, and the capacity to be computed at compilation time (2+2 is actually written as 4 in the final MSIL stream)

But methods (as well as operators) aren't a special super powers and all structs could have them.

The specification (for C# 4.0, my copy paste is from an earlier version) could be downloaded from the microsoft website : C# Language Specification 4.0

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Eric Lippert's recent article Inheritance and Representation explains.(Spoiler: You are confusing inheritance and representation.)

Not sure why you claim that the integer i, the character 'c' and the integer 1 are not objects. They are.

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They aren't (well, they are in the C meaning of the word, but that's not what we mean in OO code), but they can be treated as objects when it's convenient to do so. –  Jon Hanna Oct 26 '11 at 23:33
2  
They are objects. See VirtualBlackFox's reply, where the spec says "For example, int has the members declared in System.Int32 and the members inherited from System.Object." int inherits from System.Object. See Eric's article for further discussion. –  Raymond Chen Oct 26 '11 at 23:37
4  
Jon: but that's a compiler optimization. By the time it's IL we aren't speaking c# anymore –  TheIronKnuckle Oct 26 '11 at 23:44
2  
@Jon - how do you explain the result of typeof(int).BaseType.BaseType? –  kvb Oct 27 '11 at 14:57
2  
You are confusing inheritance with representation. There is no requirement that a derived class share memory representation with the base class. –  Raymond Chen Oct 27 '11 at 20:39

In C# all primitive types are actually structures.

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2  
No they aren't. –  Jon Hanna Oct 26 '11 at 23:26
    
-1 the problem with this answer is that "primitive types" aren't well defined. You could be right or wrong. For example a string is often considered a primitive and its definitely not a structure. It also does nothing to help clear up the OP's confusion –  Conrad Frix Oct 28 '11 at 5:48
    
If it smells like a duck. –  MartyTPS Oct 28 '11 at 23:05

So that you can use them!

It's convenient to be able to do so, so you can.

Now, in order to do so, primitives can be treated as structs. E.g. a 32-bit integer can be processed as a 32-bit integer, but it can also be processed as public struct Int32 : IComparable, IFormattable, IConvertible, IComparable<int>, IEquatable<int>. We mostly get the best of both worlds.

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