HI, Thanks for your reply, yes i realize that my question isn't very clear and somewhat confusing; so i'll try to clarify things a bit, here goes..
All of the threads described below are derived from TThread.
I have a form which starts a thread but does not wait for it. The thread started by the form calls a function that performs a long task.
The function calls another function in a DLL, the function in the DLL starts a thread and waits for it. The thread started by the DLL function calls another function via synchronize.
Form->Starts a thread but does not wait->The thread calls a functions->The function calls a DLL function->The Dll function starts a thread and waits->The thread started by the DLL function calls another function via synchronize i.e Synchronize(UpdateRecords).
The problem is that the call to synchronize never returns because, from what i can see, it has entered some sort of dead lock.
How synchronize works: Synchronize puts the method call into a queue and sets an event, Synchronize then waits for the event to become signaled. When the main thread is idle it will process the method calls that are waiting in the queue, after it has processed a method call it will signal the associated event so that the thread that initiated the synchronization can continue on.
The thread that was started by the form does not use synchronize to call the function that performs the long task, if it does use synchronize then the application does not dead lock, but this defeats the purpose of use a thread for the long process.
I've tracked down the problem, it seems to be that the TApplication object created by the dll is not processing messages and has a handle of 0, how this happened I don't know (I didn't write the DLL, it was written by someone else), but it is a cause of the problem because it will never process the method called queued by synchronize.
I mentioned earlier that if i call the function that performs the long process from my thread using synchronize then the application does not dead lock. This is because the main thread will be responsible for calling the function that performs the long process. So the long process function calls a DLL function which starts another thread and then calls WaitFor. WaitFor checks to see if the current thread is the main thread, and if it is, it processes method calls which have been queued by synchronize, continuously in a loop until the thread the thread that it is waiting for is released (i.e. the method it queued via synchronize gets called and the wait event is signaled).
In WaitFor, if the current thread is not the main thread then WaitFor simply blocks until the thread it is waiting for is released.
Anyway i can't do anything about the application object in the dll because that dll is quite complex and used by a larger system. I guess i can expose a method in the dll which can process the methods in the synchronization queue, i can then call this method from my application while its idle.
Anyway again thanks for your help but i've solved this problem now.