3

I would like to wait for a condition for a certain amount of time. I read the boost documentation and it seems that it is preferable to use the function wait_for with a predicate, as described here.

Unfortunately the example is not really useful for me. How should I write the predicate? I tried to write the code reported above but the visual studio compiler is complaining: c:\boost\boost\thread\win32\condition_variable.hpp(394): error C2064: term does not evaluate to a function taking 0 arguments

This is the part of the code:

class MyClass{

  boost::mutex mutex;
  boost::condition_variable myCondition;
  //... 
  void foo();
  bool myPredicate();
}


void MyClass::foo(){

  boost::unique_lock<boost::mutex> lock(mutex);

  boost::chrono::microseconds period(25000);
  // ...
  boost::chrono::system_clock::time_point wakeUpTime = boost::chrono::system_clock::now() + period;
  if(myCondition.wait_until(lock,wakeUpTime,MyClass::myPredicate) == true){/...}

}

bool MyClass::myPredicate(){

  if(...)
    return true;
  else
    return true;
}

What's the correct way of using wait_for with predicate?

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7

It's recommended to use the wait functions with predicate, because they are less error-prone compared to hand-written loops. A hand-written loop might look as follows:

for (;;) {
    if (myPredicate()) {
        // ... [successful case]
        break;
    } else if (myCondition.wait_until(lock, wakeUpTime) == boost::cv_status::timeout) {
        // ... [timeout case]
        break;
    } // else: continue loop [spurious wakeup]
}

If you pass a predicate to the wait function, it might be a function-like thing that can be invoked with no arguments and returns a type, that can be used as a bool. For example you can use a static member function for that purpose:

struct Foobar {
    static bool isFoobar();
};

myCondition.wait_until(lock, wakeUpTime, Foobar::isFoobar);

You can't directly pass a non-static member function, because it can only be invoked with an object. However, you can use a function-object instead:

struct MyPredicateWrapper {
    MyClass* _ptr;
    explicit MyPredicateWrapper(MyClass* ptr) : _ptr(ptr) { }
    bool operator()() const { return _ptr->myPredicate(); }
};

myCondition.wait_until(lock, wakeUpTime, MyPredicateWrapper(this));

You can do basically the same thing with boost::bind:

myCondition.wait_until(lock, wakeUpTime, boost::bind(&MyClass::myPredicate, this));

And if you are using C++11, you can also use a lambda function:

myCondition.wait_until(lock, wakeUpTime, [this] { return myPredicate(); });
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  • Thanks for this complete anser, so basically using one of the two last proposed methods allows me to invoke the function myPredicate() on the current object. Is that correct? This allows me to evaluate the predicate by using variables defined in myClass. – Maverik Oct 12 '13 at 21:48
  • 1
    All of them except the first one (Foobar) allows you to access instance variables defined in myClass. I recommend using the anonymous function. It allows you to inline part of the predicate, and bring together what belongs together. However, I am not sure if this feature is already supported by Visual Studio. – nosid Oct 13 '13 at 11:31
  • Yes, Visual Studio 2012 supports it, the code compiles. Do you know if is there a way to test it? I mean, predicates are used for avoiding errors in case of spurious weak up. Is there a way to simulate a spurious weak up? – Maverik Oct 13 '13 at 18:24

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