8.2 Types

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8.2 Types
C# supports two kinds of types: value types and reference types. Value
types include simple types (e.g.,
char, int, and float), enum types, and struct types. Reference types
include class types, interface types,
delegate types, and array types.
Value types differ from reference types in that variables of the value
types directly contain their data,
whereas variables of the reference types store references to objects. With
reference types, it is possible for
two variables to reference the same object, and thus possible for
operations on one variable to affect the
object referenced by the other variable. With value types, the variables
each have their own copy of the data,
and it is not possible for operations on one to affect the other.
The example
using System;
class Class1
{
public int Value = 0;
}
class Test
{
static void Main() {
int val1 = 0;
int val2 = val1;
val2 = 123;
Class1 ref1 = new Class1();
Class1 ref2 = ref1;
ref2.Value = 123;
Console.WriteLine("Values: {0}, {1}", val1, val2);
Console.WriteLine("Refs: {0}, {1}", ref1.Value, ref2.Value);
}
}
shows this difference. The output produced is
Values: 0, 123
Refs: 123, 123
The assignment to the local variable val1 does not impact the local
variable val2 because both local
variables are of a value type (the type int) and each local variable of a
value type has its own storage. In
contrast, the assignment ref2.Value = 123; affects the object that both
ref1 and ref2 reference.
The lines
Console.WriteLine("Values: {0}, {1}", val1, val2);
Console.WriteLine("Refs: {0}, {1}", ref1.Value, ref2.Value);
deserve further comment, as they demonstrate some of the string formatting
behavior of
Console.WriteLine, which, in fact, takes a variable number of arguments.
The first argument is a string,
which may contain numbered placeholders like {0} and {1}. Each placeholder
refers to a trailing argument
with {0} referring to the second argument, {1} referring to the third
argument, and so on. Before the output
is sent to the console, each placeholder is replaced with the formatted
value of its corresponding argument.
Developers can define new value types through enum and struct
declarations,
and can define new
reference

types via class, interface, and delegate declarations. The
example
using
System;

public enum
Color

{

Red, Blue,
Green

}

public struct
Point

{

public int x,
y;

}

public interface
IBase

{

void
F();

}

public interface IDerived:
IBase

{

void
G();

}

public class
A

{

protected virtual void H()
{

Console.WriteLine("A.H");

}

}

public class B: A,
IDerived

{

public void F()
{

Console.WriteLine("B.F, implementation of
IDerived.F");

}

public void G()
{

Console.WriteLine("B.G, implementation of
IDerived.G");

}

override protected void H()
{

Console.WriteLine("B.H, override of
A.H");

}

}

public delegate void
EmptyDelegate();

shows an example of each kind of type declaration. Later sections
describe
type declarations in detail.