Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I have a problem, i cannot resolve this problem

void Transfer(Account a, Account b, decimal amount) 
       lock (a) {
             lock (b) {
                         if (a.Balance < amount)
                         throw new InsufficientFundsExc();
                         a.Balance -= amount;
                         b.Balance += amount;

and question is " this is a transfer between bank accounts. "lock(...)" structure is used against race condition. What is this problem? and what solution do you propose? CAN YOU HELP ME?

share|improve this question
My question is, "is this homework?" –  Rafe Kettler May 8 '11 at 22:49
What have you considered and where are you getting stuck? Can you supply data on your attempts to solve it? –  Merlyn Morgan-Graham May 8 '11 at 22:52
I added the homework tag. @user744303: Please remove that tag if this isn't homework –  Merlyn Morgan-Graham May 8 '11 at 22:53
Why are you multithreading this in the first place? In my experience multithreading expensive calculation is sometimes useful, but multithreading the whole domain is usually a bad idea. –  CodesInChaos May 8 '11 at 22:55
Why does this belong to c#, java, c and vb? –  RedX May 9 '11 at 11:15

6 Answers 6

if you have a transfer from A to B at the same time as a transfer from B to A it can deadlock because you have no lock order.

  • Thread 1 locks A
  • Thread 2 locks B
  • Thread 1 waits on B
  • Thread 2 waits on A
  • dead

But why the hell is this code multithreaded in the first place?

You need to take your locks always in the same order. For example by giving each lock an integer Id and always locking the lower ID first.

share|improve this answer
Please can you explain this in more detail and can you advise me in how to solve this –  Bob Jamaica May 8 '11 at 22:51
Take your locks always in the same order. Or just drop multithreading alltogether. This doesn't look like a situation where multithreading is necessary in the first place. –  CodesInChaos May 8 '11 at 22:53
If it's homework do it yourself. If it's no homework but a real problem throw out the multithreading. I won't do your homework for you. –  CodesInChaos May 9 '11 at 9:59
Then you should either learn a lot about multithreading or don't use it at all. Multithreading is hard, it's easy to make mistakes which randomly occur, and it is rarely necessary. I recommend selectively using multithreading on expensive calculations. –  CodesInChaos May 9 '11 at 10:31
Why do you need it tomorrow if it's no homework? –  CodesInChaos May 9 '11 at 22:28

If you can order the accounts (by ID number or something), you can always lock the one with the lower ID first. This will ensure that no thread tries to lock a then b at the same time as another thread locking a then b, as they will both lock a first.

share|improve this answer
+1 for the advice to order the accounts –  Alexey Kukanov May 9 '11 at 5:19


when Transfer(a,b,10.0); and Transfer(b,a,10.0); are called simultaneously the first call will lock a then the second can lock b before the first can lock a and neither can continue -> deadlock

share|improve this answer

As CodeInChaos suggests, your problem is a potential deadlock. If you don't understand what a deadlock is then I recommend reading the dining philosophers problem on Wikipedia.

The article explains the problem in real terms and suggests some solutions including using a locking order.

To further relate your problem to the article, the bank accounts are forks (i.e. shared resources that can only be used exclusively therefore need to be locked) and the threads accessing the code are the philosophers (i.e. entities that from time to time require the use of lockable resources).

share|improve this answer

@RatchetFreak hit the nail on the head with his response regarding why this has occured. I think the main problem that you are having it that a lock is a very low level construct which makes it difficult to think about threading scenario's sanely.

I would recommend (if possible) to use a set of slightly higher level constructs to make life easier on yourself. Daniel Chamber's has a good light weight set of utilities for this in his library.

share|improve this answer

Imagine two very stubborn ladies went to a holiday house with their husbands. They woke the next morning and found the men gone. The only clothes left: a skirt and a shirt (seems one of the men liked wearing women's clothing - could explain a lot). The ladies realise the need to go get stuff - food, clothes, new husbands. They both think "well, I'll put the clothes on and go", and one puts on the skirt while the other dons the shirt. They see what's happened but each is too stubborn to change their plan (and way too shy to go out half naked). Their stubbornness is akin to a dumb computer following a program that "looked good at the time". They can't/won't automatically revise the seemingly sensible approach they had above on hitting a "run-time error", so they are both doomed to starve to death. That's a dead lock: waiting for resources you can't get because someone's waiting for what you're hogging yourself.

With a bit more foresight and planning, they could have found a strategy that would make sure one of them got out. For example:

  • order based on the objects being sought:
    • e.g. only when you've already got the skirt can you take the shirt (at least with locks, one of two threads contesting it is guanteed to get it without ripping it in two), OR
  • order based on the would-be owners:
    • if both want to go out at the same time, whoever's birthday is earlier can go first, or if the same then whoever's taller etc, OR
  • both strip again and try after a short but random interval


share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.