The key point here is that closures close over variables, not over values. As such, the value of a given variable at the time you close over it is irrelevant. What matters is the value of that variable at the time the anonymous method is invoked.
How this happens is easy enough to see when you see what the compiler transforms the closure into. It'll create something morally similar to this:
public class ClosureClass1
{
public int i;
public void AnonyousMethod1()
{
Console.WriteLine(i);
}
}
static void Main(string[] args)
{
ClosureClass1 closure1 = new ClosureClass1();
for (closure1.i = 0; closure1.i < 10; closure1.i++)
new Thread(closure1.AnonyousMethod1).Start();
}
So here we can see a bit more clearly what's going on. There is one copy of the variable, and that variable has now been promoted to a field of a new class, instead of being a local variable. Anywhere that would have modified the local variable now modifies the field of this instance. We can now see why your code prints what it does. After starting the new thread, but before it can actually execute, the for
loop in the main thread is going back and incrementing the variable in the closure. The variable that hasn't yet been read by the closure.
To produce the desired result what you need to do is make sure that, instead of having every iteration of the loop closing over a single variable, they need to each have a variable that they close over:
for (int i = 0; i < 10; i++)
{
int copy = i;
new Thread(() => Console.WriteLine(copy));
}
Now the copy
variable is never changed after it is closed over, and our program will print out 0-9 (although in an arbitrary order, because threads can be scheduled however the OS wants).
i
, not the current value in the loop body. I believe C#5 changes this behaviour and captures the current value instead, soi
will always have different values.i
would you expect to be captured? Tryfor (int i=0;i<10;i++){int j=i;new Thread(()=>Console.Write(j)).Start();}
foreach
iteration variable.for
hasn't changed at all.