Can someone post a simple example of starting two (Object Oriented) threads in C++.

I'm looking for actual C++ thread objects that I can extend run methods on (or something similar) as opposed to calling a C-style thread library.

Update - I left out any OS specific requests in the hopes that whoever replied would reply with cross platform libraries to use. I'm just making that explicit now.

up vote 459 down vote accepted

Create a function that you want the thread to execute, eg:

void task1(std::string msg)
{
    std::cout << "task1 says: " << msg;
}

Now create the thread object that will ultimately invoke the function above like so:

std::thread t1(task1, "Hello");

(You need to #include <thread> to access the std::thread class)

The constructor's arguments are the function the thread will execute, followed by the function's parameters. The thread is automatically started upon construction.

If later on you want to wait for the thread to be done executing the function, call:

t1.join(); 

(Joining means that the thread who invoked the new thread will wait for the new thread to finish execution, before it will continue its own execution).


The Code

#include <string>
#include <iostream>
#include <thread>

using namespace std;

// The function we want to execute on the new thread.
void task1(string msg)
{
    cout << "task1 says: " << msg;
}

int main()
{
    // Constructs the new thread and runs it. Does not block execution.
    thread t1(task1, "Hello");

    // Do other things...

    // Makes the main thread wait for the new thread to finish execution, therefore blocks its own execution.
    t1.join();
}

More information about std::thread here

  • On GCC, compile with -std=c++0x -pthread.
  • This should work for any operating-system, granted your compiler supports this (C++11) feature.
  • 3
    @Preza8 VS10 does not support many features in C++11. VS12 and VS13 support thread. – jodag Jan 9 '14 at 0:53
  • 2
    In the comment "GCC versions below 4.7, use -std=c++0x (instead of -std=c++0x)" I believe the second "c++0x" should instead be "c++11", but that's not possible to change because the edit is too small. – zentrunix Mar 25 '14 at 16:19
  • 1
    @MasterMastic What difference does it make if instead of std::thread t1(task1, "Hello") we use std::thread t1(&task1, "Hello"), passing the reference of the function? Should we declare the function as a pointer in this case? – user2452253 Nov 4 '14 at 16:32
  • 2
    @user2452253 If you pass "task1" you pass a pointer to the function you want to execute (which is good). If you pass "&task1" you pass a pointer to a pointer of a function, and the results would probably not be so pretty and very undefined (it would be like trying to execute random instructions one after another. With the right probability you just might open the gateway to hell). You really just want to pass the function pointer (a pointer with the value of the address where the function begins). If that doesn't clear things up, let me know, and best of luck! – MasterMastic Nov 4 '14 at 16:47
  • 1
    @ErikW In the calling thread you can call std::this_thread::get_id(), to get your std::thread::id; then you just pass it regularly (i.e. as I passed the string in the answer). – MasterMastic Mar 16 '15 at 9:05

Well, technically any such object will wind up being built over a C-style thread library because C++ only just specified a stock std::thread model in c++0x, which was just nailed down and hasn't yet been implemented. The problem is somewhat systemic, technically the existing c++ memory model isn't strict enough to allow for well defined semantics for all of the 'happens before' cases. Hans Boehm wrote an paper on the topic a while back and was instrumental in hammering out the c++0x standard on the topic.

http://www.hpl.hp.com/techreports/2004/HPL-2004-209.html

That said there are several cross-platform thread C++ libraries that work just fine in practice. Intel thread building blocks contains a tbb::thread object that closely approximates the c++0x standard and Boost has a boost::thread library that does the same.

http://www.threadingbuildingblocks.org/

http://www.boost.org/doc/libs/1_37_0/doc/html/thread.html

Using boost::thread you'd get something like:

#include <boost/thread.hpp>

void task1() { 
    // do stuff
}

void task2() { 
    // do stuff
}

int main (int argc, char ** argv) {
    using namespace boost; 
    thread thread_1 = thread(task1);
    thread thread_2 = thread(task2);

    // do other stuff
    thread_2.join();
    thread_1.join();
    return 0;
}
  • 8
    Boost thread is great - my only problem was that you couldn't (when I last used it) actually access the native underlying thread handle as it was a private class member! There's a TON of stuff in win32 that you need the threadhandle for, so we tweaked it to make the handle public. – Orion Edwards Nov 5 '08 at 19:40
  • 3
    Another problem with boost::thread is that as I recall you don't have the freedom to set the stack size of the new thread -- a feature that is also lamentably not included in c++0x standard. – Edward KMETT Nov 5 '08 at 20:13
  • That code gives me a boost::noncopyable exception for this line: thread thread_1 = thread(task1); Maybe it's because I'm using an older version (1.32). – Frank Feb 21 '09 at 0:42
  • How can I join the thread in the function called? – Erik W Mar 15 '15 at 19:32

There is also a POSIX library for POSIX operating systems. Check for compatability

#include <stdio.h>
#include <stdlib.h>
#include <pthread.h>
#include <iostream>

void *task(void *argument){
      char* msg;
      msg = (char*)argument;
      std::cout<<msg<<std::endl;
}

int main(){
    pthread_t thread1, thread2;
    int i1,i2;
    i1 = pthread_create( &thread1, NULL, task, (void*) "thread 1");
    i2 = pthread_create( &thread2, NULL, task, (void*) "thread 2");

    pthread_join(thread1,NULL);
    pthread_join(thread2,NULL);
    return 0;

}

compile with -lpthread

http://en.wikipedia.org/wiki/POSIX_Threads

It largely depends on the library you decide to use. For instance, if you use the wxWidgets library, the creation of a thread would look like this:

class RThread : public wxThread {

public:
    RThread()
        : wxThread(wxTHREAD_JOINABLE){
    }
private:
    RThread(const RThread &copy);

public:
    void *Entry(void){
        //Do...

        return 0;
    }

};

wxThread *CreateThread() {
    //Create thread
    wxThread *_hThread = new RThread();

    //Start thread
    _hThread->Create();
    _hThread->Run();

    return _hThread;
}

If your main thread calls the CreateThread method, you'll create a new thread that will start executing the code in your "Entry" method. You'll have to keep a reference to the thread in most cases to join or stop it. More info here: wxThread documentation

  • You forgot to delete the thread. Perhaps you meant to create a detached thread? – aib Nov 5 '08 at 18:57
  • Yup right, I extracted the code from some code I'm currently working on and of course the reference to the thread is stored somewhere in order to join, stop and delete it later on. Thanks. :) – LorenzCK Nov 6 '08 at 16:06

Here is a more robust way of creating arbitrary number of threads (in C++11 or newer):

#include <thread>
#include <iostream>
using namespace std;

void doSomething(int id) {
    cout << "Thread id = " << id;
}

/**
 * Spawns n threads
 */
void spawnThreads(int n)
{
    thread threads[n];
    // spawn n threads:
    for (int i = 0; i < n; i++) {
        threads[i] = thread(doSomething, i + 1);
    }

    for (auto& th : threads) {
        th.join();
    }
}

Unless one want a separate function in global namespacs, we can use lambda functions for creating threads.

One of the major advantage of creating thread using lambda is that we don't need to pass local parameters as an argument list. We can use capture list for the same and the closure property of lambda will take care of the lifecycle.

Here is a sample code

int main() {
    int localVariable = 100;

    thread th { [=](){
        cout<<"The Value of local variable => "<<localVariable<<endl;
    }}

    th.join();

    return 0;
}

By far, I've found C++ lambdas to be the best way of creating threads especially for simpler thread functions

When searching for an example of a C++ class that calls one of its own instance methods in a new thread, this question comes up, but we were not able to use any of these answers that way. Here's an example that does that:

Class.h

class DataManager
{
public:
    bool hasData;
    void getData();
    bool dataAvailable();
};

Class.cpp

#include "DataManager.h"

void DataManager::getData()
{
    // perform background data munging
    hasData = true;
    // be sure to notify on the main thread
}

bool DataManager::dataAvailable()
{
    if (hasData)
    {
        return true;
    }
    else
    {
        std::thread t(&DataManager::getData, this);
        t.detach(); // as opposed to .join, which runs on the current thread
    }
}

Note that this example doesn't get into mutex or locking.

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