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Assuming there is a std::deque queue of pointers to tasks to be performed, what is the best way to ensure the number of threads running at one time is limited to the number of CPU cores? i.e. After a task is completed remaining task are subsequently launched.

I made the following code for an earlier post, the problem I have now is that I am unsure of the best strategy to implement what I have described, and thought it may be worth canvasing opinion.

Note that the "std::deque queue of pointers" I mentioned above is NOT referring to deque mtasks in the code. I do not wish to pop tasks from this deque as I'm using this to store previously completed tasks.

In the program type something like, task p1 p2 p3 p4 p5 , at the prompt and then info to check the current status of each. Note that currently all 5 tasks complete around the same time. However, what I actually want is the first 2 to complete (dual core machine) then the next 2 etc.

The reason for this is that in practice these tasks may take hours, and therefore I want to get the first lot of results sooner so that I may load them into MATLAB or whatever.

I hope I made myself and the example code clear. I guess thread::hardware_concurrency() covers the number of cores part....

Thanks A.

#include <iostream>  
#include <string>
#include <sstream>
#include <boost/thread.hpp>  

using namespace std;

class task {
public:
    string mname;
    bool completed;
    void start()
    {
        int a = 0;
        for (int i=0 ; i<10000; i++)
        {
            for (int j=0 ; j<100000; j++)
            {
                a= i*2;
            }
        }
        this->completed = true;
    }
    task(string name)
    {
        mname = name;
        completed = false; 
    }
};

class taskManager{
    public:
        boost::thread_group threads;
        void startTask( string name )
        {
            //add new task to vector list           
            mtasks.push_back( task(name) );
            // execute start() on a new thread
            threads.create_thread( boost::bind( &task::start, &mtasks.back()) );
        }
        int tasksTotal()
        {
            return mtasks.size();
        }
        string taskInfo(int i)
        {
            string compstr("Not Completed");
            if ( mtasks.at(i).completed == true )
            {
                compstr = "Completed";
            }
            return mtasks.at(i).mname + " " + compstr; 
        }
    private:
        deque<task> mtasks; 
};

int main(int argc, char* argv[])  
{
    string cmd, temp;
    stringstream os;
    bool quit = false;
    taskManager mm;

    cout << "PROMPT>";

    while (quit == false)
    {
        //Wait for a valid command from user
        getline(cin,cmd);

        // Reset stringstream and assign new cmd string
        os.clear(); 
        os << "";
        os << cmd;
        //parse input string
        while (os >> temp) 
        {               
            if ( temp.compare("task") == 0 )
            {
                while (os >> temp) { mm.startTask( temp ); }                     
            }
            if ( temp.compare("info") == 0 )
            { 
                // Returns a list of all completed and not completed tasks
                for (int i = 0; i<mm.tasksTotal(); i++)
                {
                    cout << mm.taskInfo(i).c_str() << endl;
                }                           
            }
            if ( temp.compare("quit") == 0 ){ quit = true; }
        }

        cout << "PROMPT>";
    }

    mm.threads.join_all();      

    return 0;  
};
share|improve this question
    
By definition, the number of threads running at one time is already limited to the number of CPU cores, but I guess you mean that there should be no ready threads than cannot get a core :) –  Martin James Apr 29 '12 at 23:55
    
@MartinJames Yes, As I understand it, one can launch more threads than cores and the operating system gives time for each thread to run. In my case (I think - please correct me if i'm wrong) I need to limit the number of threads running to the number of cores in order to take full advantage of the available cores while minimizing the completion time for an individual task result. –  AlexS Apr 30 '12 at 0:05
    
I'm not sure I understand. If you want the first two tasks to complete quickly on a dual-core box, can you not just create two threads in a thread pool, waiting on one queue? What is wrong with another thread-safe dequeue and a semaphore, or some other style of Blocking Collection? –  Martin James Apr 30 '12 at 0:06
    
@MartinJames A thread-safe dequeue is something I thought about but I was unsure how to limit the number of threads running at one time, hence posting. Now the thread pool pattern, this is exactly what I need to implement but I did not know this terminology. –  AlexS Apr 30 '12 at 0:17
    
@MartinJames The penny just dropped - I should only create 2 threads in the first instance, they should just pop another task from the thread-safe deque as long as it is not empty and process it. :) –  AlexS Apr 30 '12 at 0:29

1 Answer 1

up vote 4 down vote accepted

What you're describing is the thread pool pattern, where you have a fixed number of threads and a group of tasks you want to perform using those threads (# tasks > # threads).

The wikipedia entry on the thread pool pattern has more information. You can write your own, or use something like the unofficial boost threadpool library.

share|improve this answer
    
The thread pool pattern looks perfect, I was unaware of the terminology, I'm glad I put the post on. +1 –  AlexS Apr 30 '12 at 0:21

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