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I try to solve one interesting problem which is described below:

Write a console application which has N producers (N=1…10), M consumers (M=1…10) and one data queue. Each producer and consumer is a separate thread and all threads are working concurrently. Producer thread sleeps 0…100 milliseconds randomly then it wakes up and generates a random number between 1 and 100 and then puts this number to data queue. Consumer thread sleeps 0…100 milliseconds randomly and then wakes up and takes the number from the queue and saves it to the output ‘data.txt’ file. All numbers are appended in the file and all they are comma delimited (for example 4,67,99,23,…). When producer thread puts the next number to data queue it checks the size of data queue, and if it is >=100 the producer thread is blocked until the number of elements gets <= 80. When consumer thread wants to take the next number from data queue and no elements in it, consumer thread is blocked until new element is added to data queue by a producer.

When we start application we need to insert the N (number of producers) and the M (number of consumers) after which program starts all threads. It should print current number of elements of data queue in each second. When we stop program it should interrupt all producers and wait for all consumers to save all queued data then program exits.

To solve this except all I wrote the thread-safe queue

template <class T>
class global::safe_queue
{
    private:
        sync* m_sync;
        size_t m_lcorner;
        size_t m_rcorner;
        std::queue<T> m_data;

    public:
        safe_queue(sync* snc, size_t lcorn, size_t rcorn) :
            m_sync(snc),
            m_lcorner(lcorn),
            m_rcorner(rcorn) {}
        ~safe_queue()
        {
            m_sync->lock();
            while (m_data.size()){
                m_data.pop();
            }
            m_sync->unlock();
        }

        size_t size() const
        {
            m_sync->lock();
            size_t sz = m_data.size();
            m_sync->unlock();
            return sz;
        }

        size_t front() const
        {
            m_sync->lock();
            T item = m_data.front();
            m_sync->unlock();
            return item;
        }

        void push(T item)
        {
            m_sync->lock();
            while(m_data.size() >= m_rcorner) {
                m_sync->unlock();
                usleep(5);
                m_sync->lock();
                // conditional wait
                //m_sync->wait();
            }
            m_data.push(item);
            if(m_data.size() == 1) {
                m_sync->unlock();
                // conditional signal
                //m_sync->signal();
            }
            m_sync->unlock();
        }

        T pop()
        {
            m_sync->lock();
            while(m_data.size() == 0) {
                m_sync->unlock();
                usleep(5);
                m_sync->lock();
                // conditional wait 
                //m_sync->wait();
            }
            T item = m_data.front(); 
            if(m_data.size() <= m_lcorner) {
                m_sync->unlock();
                // conditional signal    
                // m_sync->signal();
            }
            m_data.pop();
            m_sync->unlock();
            return item;
        }
};

But as a result I get deadlock. What is wrong ?

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  • There is double unlock here, which means on thread might unlock something locked by another and all the hell breaking loose. It is a bad error, but it should not cause a deadlock.
    – SergeyA
    Oct 30, 2015 at 20:01
  • ok, but when I open commented lines (waint/sync) and close lock/unlock in while/if scopes I alos get deadlock when try to interrupt the program by SIGINT. In my code I have used pthread_cancel to close threads but after cancells it hanged in pthread_join()'s.
    – user1886376
    Oct 30, 2015 at 20:08
  • Is it possible that after pthread_cancel the mutex can stay in locket state ?
    – user1886376
    Oct 30, 2015 at 20:14
  • 1
    If you pthread_cancel a thread holding mutex, and thread has not released it in it's cleanup handlers, the mutex is guaranteed to remain locked.
    – SergeyA
    Oct 30, 2015 at 20:36
  • 1
    Search for dining-philosophers problem
    – 2785528
    Oct 30, 2015 at 21:27

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