I wonder whether I could use QEventLoop (QProcess?) to parallelize multiple calls to same function with Qt. What is precisely the difference with QtConcurrent or QThread? What is a process and an event loop more precisely? I read that QCoreApplication must exec() as early as possible in main() method, so that I wonder why it is different from main Thread.

could you point as some efficient reference to processes and thread with Qt? I came through the official doc and those things remain unclear.

Thanks and regards.

  • can you resume what your function is doing? – UmNyobe Apr 10 '12 at 13:50

Process and thread are not Qt-specific concepts. You can search for "process vs. thread" anywhere for that distinction to be explained. For instance: What resources are shared between threads?

Though related concepts, spawning a new process is a more "heavyweight" form of parallelism than spawning a new thread within your existing process. Processes are protected from each other by default, while threads of execution within a process can read and write each other's memory directly. The protection you get from spawning processes comes at a greater run-time cost...and since independent processes can't read each other's memory, you have to share data between them using methods of inter-process communication.

Odds are that you want threads, because they're simpler to use in a case where one is writing all the code in a program. Given all the complexities in multithreaded programming, I'd suggest looking at a good book or reading some websites to start with. See: What are some good resources for learning threaded programming?

But if you want to dive in and just get a feel for how threading in Qt looks, you can spend time looking at the examples:


QtConcurrent is an abstraction library that makes it easier to implement some kinds of parallel programming patterns. It's built on top of the QThread abstractions, and there's nothing it can do that you couldn't code yourself by writing to QThread directly. But it might make your code easier to write and less prone to errors.

As for an event loop...that is merely a generic term for how any given thread of execution in your program waits for work items to process, processes them, and can decide when it is no longer needed. If a thread's job were merely to start up, do some math, and exit...then it wouldn't need an event loop. But starting and stopping a thread takes time and churns resources. So typically threads live for longer periods of time, and have an event loop that knows how to wait for events it needs to respond to.

If you build on top of QtConcurrent, you won't have to worry about an event loop in your worker threads because they are managed automatically in a thread pool. The word count example is pretty simple to see:


  • Thanks for interesting comments and refs. – kiriloff Apr 10 '12 at 19:52
  • Do you have an hint why should implementation of multithreading with QtConcurrent have some interaction with presence of QTime objects in the code. It is what seems to happen in my code. With Qtime::start() and Qtime::elapsed() methods called before and after 'multithreaded code', it works ; without, I have no time improvement compared with async. implementation, so that I figure out parallelization does not work then. Thanks. – kiriloff Apr 10 '12 at 19:57
  • Parallelization isn't always a win for performance, especially in trivial tasks. I saw another question from you about the generation of 2000 random coordinate pairs...and I wouldn't be surprised if the overhead of distributing that work to threads and re-gathering it was slower than doing it on a single thread. Make sure your tasks are actually running simultaneously by putting in some printed debug output and ensure that it is interwoven; use a slower task so you are sure to see speedup on a multi-core machine. – HostileFork says dont trust SE Apr 11 '12 at 1:54

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