|
A static constructor is a member that implements the actions required to initialize a closed class type. Static constructors are declared using static-constructor-declarations:
static-constructor-declaration:
attributesopt static-constructor-modifiers identifier ( ) static-constructor-body
static-constructor-modifiers:
externopt static
static externopt
static-constructor-body:
block
;
A static-constructor-declaration may include a set of attributes (§17) and an extern modifier (§10.6.7).
The identifier of a static-constructor-declaration must name the class in which the static constructor is declared. If any other name is specified, a compile-time error occurs.
When a static constructor declaration includes an extern modifier, the static constructor is said to be an external static constructor. Because an external static constructor declaration provides no actual implementation, its static-constructor-body consists of a semicolon. For all other static constructor declarations, the static-constructor-body consists of a block which specifies the statements to execute in order to initialize the class. This corresponds exactly to the method-body of a static method with a void return type (§10.6.10).
Static constructors are not inherited, and cannot be called directly.
The static constructor for a closed class type executes at most once in a given application domain. The execution of a static constructor is triggered by the first of the following events to occur within an application domain:
An instance of the class type is created.
Any of the static members of the class type are referenced.
If a class contains the Main method (§3.1) in which execution begins, the static constructor for that class executes before the Main method is called.
To initialize a new closed class type, first a new set of static fields (§10.5.1) for that particular closed type is created. Each of the static fields is initialized to its default value (§5.2). Next, the static field initializers (§10.4.5.1) are executed for those static fields. Finally, the static constructor is executed.
The example
using System;
class Test
{
static void Main() {
A.F();
B.F();
}
}
class A
{
static A() {
Console.WriteLine("Init A");
}
public static void F() {
Console.WriteLine("A.F");
}
}
class B
{
static B() {
Console.WriteLine("Init B");
}
public static void F() {
Console.WriteLine("B.F");
}
}
must produce the output:
Init A
A.F
Init B
B.F
because the execution of A’s static constructor is triggered by the call to A.F, and the execution of B’s static constructor is triggered by the call to B.F.
It is possible to construct circular dependencies that allow static fields with variable initializers to be observed in their default value state.
The example
using System;
class A
{
public static int X;
static A() {
X = B.Y + 1;
}
}
class B
{
public static int Y = A.X + 1;
static B() {}
static void Main() {
Console.WriteLine("X = {0}, Y = {1}", A.X, B.Y);
}
}
produces the output
X = 1, Y = 2
To execute the Main method, the system first runs the initializer for B.Y, prior to class B’s static constructor. Y’s initializer causes A’s static constructor to be run because the value of A.X is referenced. The static constructor of A in turn proceeds to compute the value of X, and in doing so fetches the default value of Y, which is zero. A.X is thus initialized to 1. The process of running A’s static field initializers and static constructor then completes, returning to the calculation of the initial value of Y, the result of which becomes 2.
Because the static constructor is executed exactly once for each closed constructed class type, it is a convenient place to enforce run-time checks on the type parameter that cannot be checked at compile-time via constraints (§10.1.5). For example, the following type uses a static constructor to enforce that the type argument is an enum:
class Gen where T: struct
{
static Gen() {
if (!typeof(T).IsEnum) {
throw new ArgumentException("T must be an enum");
}
}
}
Do'stlaringiz bilan baham: | 
