I think there's a different and better way to approach this. (Pardon me if I accidentally Java-ize some of the syntax)
The main thread here has a lists of things to do in "Tasks" -- instead of creating threads for each task, which is really not efficient when you have so many items, create the desired number of threads and then have them request tasks from the list as needed.
The first thing to do is add a variable to the class this code comes from, for use as a pointer into the list. We'll also add one for the maximum desired thread count.
// New variable in your class definition
private int taskStackPointer;
private final static int MAX_THREADS = 5;
Create a method that returns the next task in the list and increments the stack pointer. Then create a new interface for this:
// Make sure that only one thread has access at a time
public task getNextTask()
if( taskStackPointer < tasks.Count )
Alternately, you could return tasks[taskStackPointer++].code, if there's a value you can designate as meaning "end of list". Probably easier to do it this way, however.
public interface TaskDispatcher
[MethodImpl(MethodImplOptions.Synchronized)] public task getNextTask();
Within the ReportGenerator class, change the constructor to accept the dispatcher object:
public ReportGenerator( TaskDispatcher td, int idCode )
You'll also need to alter the ReportGenerator class so that the processing has an outer loop that starts off by calling td.getNextTask() to request a new task, and which exits the loop when it gets back a NULL.
Finally, alter the thread creation code to something like this: (this is just to give you an idea)
taskStackPointer = 0;
for (int i = 0; i < MAX_THREADS; i++)
ReportGenerator worker = new ReportGenerator(this,id);
That way you create the desired number of threads and keep them all working at max capacity.
(I'm not sure I got the usage of "[MethodImpl(MethodImplOptions.Synchronized)]" exactly right... I am more used to Java than C#)