I would like to know best practice for calling same function generating a random point (random coordinates) several time in a thread. Actually, I already implemented parallelized calls for this function, say randomPoint(). Now, I would like to try whether it improves not to create a thread for each call, but to run calculations in exactly the number of available threads. I calculates

```
QThreadPool pool;
int freeThreads_ = pool.maxThreadCount();
int iterPerThread_ = ((N-m)%freeThreads_ ==0) ? (N-m)/freeThreads_ : (N-m)/(freeThreads_-1) ;
```

For me, 8 threads are available. I have 2000 similar calculations to perform. I thus want to run 8 threads with 2000/8 calculations per thread.

But then I don't know what is the best way to implement QtConcurrent call. For now, I write

```
QFuture<double**> futurRand_ = QtConcurrent::run(randomPoint(),m_lower,m_upper);
```

and then futurRand_.result(); I adapted method randomPoint(), initially returning a simgle point (double*) so that it can return a double**, a set of 2000/8 points.

but I saw an alternative with QConcurent::map(). Is there a more efficient way? with QThread?

Your experience with multithread in Qt is welcome!

Regards.

-- EDIT : To make it more precise: map has the signature

```
QFuture<void> QtConcurrent::map ( Sequence & sequence, MapFunction function )
```

or altinatively takes an iterator as one of its arguments. However, I call here a function that is called each time on the same instance, *this*. How to proceed? What other convenient ways does exist ?

`QtConcurent`

seems OK now, when in`Qt 4.8`

Qt fixed their slow mutexes. Use it. I also cannot understand, what issues you get with`map`

? What do you mean by "call here a function that is called each time on the same instance, this"? – Lol4t0 Apr 10 '12 at 17:42