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I'm trying to get a class run a thread, which will call a virtual member function named Tick() in a loop. Then I tried to derive a class and override the base::Tick().

but when execute, the program just call the base class's Tick instead of override one. any solutions?

#include <iostream>
#include <atomic>
#include <thread>
#include <chrono>

using namespace std;

class Runnable {
  Runnable() : running_(ATOMIC_VAR_INIT(false)) {

  ~Runnable() { 
    if (running_)
  void Stop() { 
    if (std::atomic_exchange(&running_, false))
  void Start() {
    if (!std::atomic_exchange(&running_, true)) {
      thread_ = std::thread(&Runnable::Thread, this);
  virtual void Tick() {
    cout << "parent" << endl;
  std::atomic<bool> running_;

  std::thread thread_;
  static void Thread(Runnable *self) {
    while(self->running_) {

class Fn : public Runnable {
  void Tick() {
    cout << "children" << endl;

int main (int argc, char const* argv[])
  Fn fn;
  return 0;


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Personally, I think resolving this problem is not the best solution. I think the best solution is to not create this problem in the first place. This is a lousy solution to a non-problem. –  R. Martinho Fernandes May 17 '12 at 11:25
Don't write Java in C++. –  Cat Plus Plus May 17 '12 at 11:29
You are right. I made this for capturing system, which will query a few sources in a constant frequency, say 10 times / sec, and pull data to queues. and there is a monitor will pull from queues at another constant freq and display the data. So this is the solution I came up with, make a base class, and then use a vector/list to hold all the sources and monitor (while the sources may add/remove at runtime). Any better solutions? –  xiaoyi May 17 '12 at 11:33
Something like std::function can give you the polymorphism you need. –  Luc Danton May 17 '12 at 11:37
@CatPlusPlus: This is not even Java, in Java Runnable is an interface that get's passed to a Thread object for execution. Java also has the model of deriving from Thread similar to the approach in the question, but the recommendation is not to use it. The design is flawed. –  David Rodríguez - dribeas May 17 '12 at 11:41

2 Answers 2

up vote 9 down vote accepted

You can't let an object run out of scope until you're finished using it! The return 0; at the end of main causes fn to go out of scope. So by the time you get around to calling tick, there's no guarantee the object even exists any more.

(The logic in ~Runnable is totally broken. Inside the destructor is way too late -- the object is already at least partially destroyed.)

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@R.MartinhoFernandes: The destructor of the parent joins the thread, but at that time the object is no longer a child. –  David Rodríguez - dribeas May 17 '12 at 11:19
Can be easily tested with a sleep right before the return. But probably this is the explanation. Good spot! –  Luchian Grigore May 17 '12 at 11:20
@xiaoyi: I recommend creating the object with new and letting the thread destroy it itself. Alternatively, you can use a reference-counted object and let the thread hold a reference. One other choice is to use a 'monitor' object that's separate from the thread object. The destructor of the monitor can join the thread which then deletes its own thread object. –  David Schwartz May 17 '12 at 11:24
@xiaoyi: Redesign, combining the thread control and the code that is executing in a single hierarchy is a bad approach to a design. These are two different concepts, what executes and what is being executed, and inheritance is not the proper way of managing it. Consider alternative approaches like composition, or just using the C++ thread library as in any of the multiple examples that you will find around: no inheritance. –  David Rodríguez - dribeas May 17 '12 at 11:37
@xiaoyi: That could work (you don't even need the unique_ptr, it could be a member if you write a template. Note that the problem is with the thread control vs. the code that executes. You might want to separate thread control, frequency control and actual code to be executed in three different layers. The code to be executed can be bound into a function<result()>, the frequency control would contain a loop that controls timing and calls that. The thread would execute that frequency control. The thread control would signal it to stop and join the thread. You don't even need a type for this –  David Rodríguez - dribeas May 17 '12 at 11:54

The approach of using inheritance with the parent serving as control for the thread and the children implementing the functions is a bad idea in general. The common problems with this approach come from construction and destruction:

  • if the thread is started from the constructor in the parent (control) then it might start running before the constructor completes and the thread might call the virtual function before the complete object has been fully constructed

  • if the thread is stopped in the destructor of the parent, then by the time that the control joins the thread, the thread is executing a method on an object that does no longer exist.

In your particular case you are hitting the second case. The program starts executing, and in main the second thread is started. At that point there is a race between the main thread and the newly launched, if the new thread is faster (unlikely, as starting the thread is an expensive operation), it will call the member method Tick that will be dispatched to the final overrider Fn::Tick.

But if the main thread is faster it will exit the scope of main, and it will start destruction of the object, it will complete destruction of the Fn object and during construction of the Runnable it will join the thread. If the main thread is fast enough, it will make it to the join before the second thread and wait there for the second thread to call Tick on the now final overrider that is Runnable::Tick. Note that this is Undefined Behavior, and not guaranteed, since the second thread is accessing an object that is being destroyed.

Also, there are other possible orderings, like for example, the second thread could dispatch to Fn::Tick before the main thread starts destruction, but might not complete the function before the main thread destroys the Fn sub object, in which case your second thread would be calling a member function on a dead object.

You should rather follow the approach in the C++ standard: separate the control from the logic, fully construct the object that will be run and pass it to the thread during construction. Note that this is the case of Java's Runnable, which is recommended over extending the Thread class. Note that from a design point of view this separation makes sense: the thread object manages the execution, and the runnable is the code to execute. A thread is not a ticker, but rather what controls the execution of the ticker. And in your code Runnable is not something that can be run, but rather something that runs other objects that happen to derive from it.

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