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Preface: I'm new to multithreaded programming, and a little rusty with C++. My requirements are to use one mutex, and two conditions mNotEmpty and mEmpty. I must also create and populate the vectors in the way mentioned below.

I have one producer thread creating a vector of random numbers of size n*2, and two consumers inserting those values into two separate vectors of size n.

I am doing the following in the producer:

  1. Lock the mutex: pthread_mutex_lock(&mMutex1)
  2. Wait for consumer to say vector is empty: pthread_cond_wait(&mEmpty,&mMutex1)
  3. Push back a value into the vector
  4. Signal the consumer that the vector isn't empty anymore: pthread_cond_signal(&mNotEmpty)
  5. Unlock the mutex: pthread_mutex_unlock(&mMutex1)
  6. Return to step 1

In the consumer:

  1. Lock the mutex: pthread_mutex_lock(&mMutex1)
  2. Check to see if the vector is empty, and if so signal the producer: pthread_cond_signal(&mEmpty)
  3. Else insert value into one of two new vectors (depending on which thread) and remove from original vector
  4. Unlock the mutex: pthread_mutex_unlock(&mMutex1)
  5. Return to step 1

What's wrong with my process? I keep getting segmentation faults or infinite loops.

Edit: Here's the code:

void Producer()
{
    srand(time(NULL));
    for(unsigned int i = 0; i < mTotalNumberOfValues; i++){
        pthread_mutex_lock(&mMutex1);

        pthread_cond_wait(&mEmpty,&mMutex1);
        mGeneratedNumber.push_back((rand() % 100) + 1);

        pthread_cond_signal(&mNotEmpty);
        pthread_mutex_unlock(&mMutex1);
    }
}

void Consumer(const unsigned int index)
{
    for(unsigned int i = 0; i < mNumberOfValuesPerVector; i++){
        pthread_mutex_lock(&mMutex1);
        if(mGeneratedNumber.empty()){
            pthread_cond_signal(&mEmpty);
        }else{
            mThreadVector.at(index).push_back[mGeneratedNumber.at(0)];
            mGeneratedNumber.pop_back();
        }

        pthread_mutex_unlock(&mMutex1);
    }
}
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1  
This would be a lot easier to answer if you just presented a minimal compilable program which demonstrated your problem. –  Mankarse Mar 22 '12 at 13:09
    
Well, if you wait inside a lock, then expect a deadlock somewhere at some point in the future. –  ActiveTrayPrntrTagDataStrDrvr Mar 22 '12 at 13:16
    
Step 4 of the producer says to signal the consumer with mNotEmpty, but mNotEmpty isn't used by the consumer. –  Vaughn Cato Mar 22 '12 at 13:21
    
There are different issues with your code, including threading but also plain logic errors (for example, you pull the head of the generated number queue, but remove from the back). Try to first write a non-multithreaded produce and consume and test that in a single threaded program to see that it does what it promises. Once that is working, move to multithreading, and remember that produce and consume are symetric operations. –  David Rodríguez - dribeas Mar 22 '12 at 13:36
    
What is mThreadVector[index].push_back[mGeneratedNumber.at(0)] meant to be? This code does not compile. See sscce.org –  Mankarse Mar 22 '12 at 13:42

4 Answers 4

up vote 4 down vote accepted

I'm not sure I understand the rationale behind the way you're doing things. In the usual consumer-provider idiom, the provider pushes as many items as possible into the channel, waiting only if there is insufficient space in the channel; it doesn't wait for empty. So the usual idiom would be:

provider (to push one item):

pthread_mutex_lock( &mutex );
while ( ! spaceAvailable() ) {
    pthread_cond_wait( &spaceAvailableCondition, &mutex );
}
pushTheItem();
pthread_cond_signal( &itemAvailableCondition );
pthread_mutex_unlock( &mutex );

and on the consumer side, to get an item:

pthread_mutex_lock( &mutex );
while ( ! itemAvailable() ) {
    pthread_cond_wait( &itemAvailableCondition, &mutex );
}
getTheItem();
pthread_cond_signal( &spaceAvailableCondition );
pthread_mutex_unlock( &mutex );

Note that for each condition, one side signals, and the other waits. (I don't see any wait in your consumer.) And if there is more than one process on either side, I'd recommend using pthread_cond_broadcast, rather than pthread_cond_signal.

There are a number of other issues in your code. Some of them look more like typos: you should copy/paste actual code to avoid this. Do you really mean to read and pop mGeneratedValues, when you push into mGeneratedNumber, and check whether that is empty? (If you actually do have two different queues, then you're popping from a queue where no one has pushed.) And you don't have any loops waiting for the conditions; you keep iterating through the number of elements you expect (incrementing the counter each time, so you're likely to gerninate long before you should)—I can't see an infinite loop, but I can readily see a endless wait in pthread_cond_wait in the producer. I don't see a core dump off hand, but what happens when one of the processes terminates (probably the consumer, because it never waits for anything); if it ends up destroying the mutex or the condition variables, you could get a core dump when another process attempts to use them.

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In producer, call pthread_cond_wait only when queue is not empty. Otherwise you get blocked forever due to a race condition.

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You might want to consider taking mutex only after condition is fulfilled, e.g.

producer()
{
    while true
    {
        waitForEmpty();
        takeMutex();
        produce();
        releaseMutex();
    }
}

consumer()
{
    while true
    {
        waitForNotEmpty();
        takeMutex();
        consume();
        releaseMutex();
    }
}
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That's what I thought at first too, but I looked up pthread_cond_wait, and it expects to be passed a locked mutex, which it unlocks before it starts waiting. –  Vaughn Cato Mar 22 '12 at 13:20
    
-1 because this is simply wrong. You can't waitForEmpty without holding a mutex, and you can't release the mutex between waitForEmpty and produce without risking a race condition. –  James Kanze Mar 22 '12 at 13:29
    
Sorry, you are right. After thinking about it I figured that doing it as I wrote might cause a race condition, if, say, two consumers finished waiting, only one takes the mutex and empties the vector, and the other enters the protected section. Anyway, here is a nice working example of what you are trying to do: cs.loyola.edu/~jglenn/702/S2008/Examples/ProducerConsumer/… –  Alex Motenko Mar 22 '12 at 13:30
Here is a solution to a similar problem like you. In this program producer produces a no and writes it to a array(buffer) and a maintains a file then update a status(status array) about it, while on getting data in the array(buffer) consumers start to consume(read and write to their file) and update a status that it has consumed. when producer looks that both the consumer has consumed the data it overrides the data with a new value and goes on. for convenience here i have restricted the code to run for 2000 nos.

// Producer-consumer //

#include <iostream>
#include <fstream>
#include <pthread.h>

#define MAX 100

using namespace std;

int dataCount = 2000;

int buffer_g[100];
int status_g[100];

void *producerFun(void *);
void *consumerFun1(void *);
void *consumerFun2(void *);

pthread_mutex_t mutex = PTHREAD_MUTEX_INITIALIZER;

pthread_cond_t dataNotProduced = PTHREAD_COND_INITIALIZER;
pthread_cond_t dataNotConsumed = PTHREAD_COND_INITIALIZER;

int main()
{

  for(int i = 0; i < MAX; i++)
    status_g[i] = 0;

  pthread_t producerThread, consumerThread1, consumerThread2;

  int retProducer = pthread_create(&producerThread, NULL, producerFun, NULL);
  int retConsumer1 = pthread_create(&consumerThread1, NULL, consumerFun1, NULL);
  int retConsumer2 = pthread_create(&consumerThread2, NULL, consumerFun2, NULL);

  pthread_join(producerThread, NULL);
  pthread_join(consumerThread1, NULL);
  pthread_join(consumerThread2, NULL);

  return 0;

}

void *producerFun(void *)
{
    //file to write produced data by producer
    const char *producerFileName = "producer.txt";
    ofstream producerFile(producerFileName);
    int index = 0, producerCount = 0;

    while(1)
    {
      pthread_mutex_lock(&mutex);

      if(index == MAX)
      {
        index = 0;
      }
      if(status_g[index] == 0)
      {

        static int data = 0;
        data++;

        cout << "Produced:  " << data << endl;

        buffer_g[index] = data;

        producerFile << data << endl;

        status_g[index] = 5;

        index ++;
        producerCount ++;

        pthread_cond_broadcast(&dataNotProduced);
      }
      else
      {
        cout << ">> Producer is in wait.." << endl;
        pthread_cond_wait(&dataNotConsumed, &mutex);
      }
      pthread_mutex_unlock(&mutex);

      if(producerCount == dataCount)
      {
        producerFile.close();
        return NULL;
      }
    }
}

void *consumerFun1(void *)
{
  const char *consumerFileName = "consumer1.txt";
  ofstream consumerFile(consumerFileName);
  int index = 0, consumerCount = 0;

  while(1)
  {
    pthread_mutex_lock(&mutex);
    if(index == MAX)
    {
      index = 0;
    }

    if(status_g[index] != 0 && status_g[index] != 2)
    {
      int data = buffer_g[index];

      cout << "Cosumer1 consumed: " << data << endl;
      consumerFile << data << endl;

      status_g[index] -= 3;

      index ++;
      consumerCount ++;

      pthread_cond_signal(&dataNotConsumed);
    }
    else
    {
      cout << "Consumer1 is in wait.." << endl;
      pthread_cond_wait(&dataNotProduced, &mutex);
    }
      pthread_mutex_unlock(&mutex);
    if(consumerCount == dataCount)
    {
      consumerFile.close();
      return NULL;
    }
  }
}

void *consumerFun2(void *)
{
  const char *consumerFileName = "consumer2.txt";
  ofstream consumerFile(consumerFileName);
  int index = 0, consumerCount = 0;

  while(1)
  {
    pthread_mutex_lock(&mutex);
    if(index == MAX)
    {
      index = 0;
    }

    if(status_g[index] != 0 && status_g[index] != 3)
    {


      int data = buffer_g[index];
      cout << "Consumer2 consumed: " << data << endl;
      consumerFile << data << endl;

      status_g[index] -= 2;

      index ++;
      consumerCount ++;

      pthread_cond_signal(&dataNotConsumed);
    }
    else
    {
      cout << ">> Consumer2 is in wait.." << endl;
      pthread_cond_wait(&dataNotProduced, &mutex);
    }
    pthread_mutex_unlock(&mutex);

    if(consumerCount == dataCount)
    {
      consumerFile.close();
      return NULL;
    }
  }
} 

Here is only one problem that producer in not independent to produce, that is it needs to take lock on the whole array(buffer) before it produces new data, and if the mutex is locked by consumer it waits for that and vice versa, i am trying to look for it.
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