What I want to do should be quite easy, but I don't get it...

All I want to do is to start a member function of a class in background at some certain point in time. The result of that function should also be "externally" available. So I want to prepare the task in the constructor (setting the future variable, ... ) and start it at some later point.

I tried to combine std::(packaged_task|async|future) but I didn't get it to work.

This snippet will not compile, but I think it shows what I want to do:

class foo {
  // This function shall run in background as a thread
  // when it gets triggered to start at some certain point
  bool do_something() { return true; }

  std::packaged_task<bool()> task;
  std::future<bool> result;

  foo() : 
    task(do_something), // yes, that's wrong, but how to do it right?
    // do some initialization stuff
  ~foo() {}

  void start() {
    // Start Task as asynchron thread
    std::async as(std::launch::async, task); // Also doesn't work...

  // This function should return the result of do_something
  bool get_result() { return result.get(); }

Thanks in advance!

  • std::async is a function, not a type – K-ballo Jun 24 '13 at 23:19

Just use std::bind():

#include <functional> // For std::bind()

foo() :
    task(std::bind(&foo::do_something, this)),
//       ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
    //  ...

Moreover, you are doing the wrong thing here:

std::async as(std::launch::async, task)
//         ^^
//         Trying to declare a variable?

Since what you want is to call the std::async() function, not to declare an object of a (non-existing) type std::async(). So as a first step, change this into:

std::async(std::launch::async, task)

Notice, however, that this will not be enough to get the task running asynchronously: because of the odd behavior of std::async() when the returned future is discarded, your task will always be executed as if you started it synchronously - the destructor of the returned future object will block until the completion of the operation. (*)

To solve this last problem, you can hold the returned future in your result member variable (rather than assigning to result the future returned by std::packaged_task::get_future() upon construction):

    result = std::async(std::launch::async, task);
//  ^^^^^^^^

(*) I think that MSVC ignores this specification and actually executes the task asynchronously. So if you are working with VS2012, you may not suffer from this problem.


As correctly mentioned by Praetorian in his answer, the above would still be problematic, since a copy of the packaged_task would be attempted at some point within the implementation of async(). To work around this problem, you wrap your task object in a reference wrapper by using std::ref().

  • Great, thanks. That works. But how do I start the task asynchronously? std::async as(std::launch::async, task) still does not work – rralf Jun 24 '13 at 23:17
  • 1
    @rralf: That is because (1) you are declaring an object, not calling a function, and (2) because of a strange blocking behavior of async() when you do not use the returned future. Just do auto f = async(...). See the edited answer :) – Andy Prowl Jun 24 '13 at 23:20
  • I think that last code block is wrong. Get rid of the as. – 0x499602D2 Jun 24 '13 at 23:29
  • @0x499602D2: Whoops :D Edited, thank you – Andy Prowl Jun 24 '13 at 23:30
  • Thanks a lot! But it only works with @Praetorian's hint to use std::ref – rralf Jun 24 '13 at 23:34

do_something() is a member function, which means it takes an implicit this pointer as the first argument. You'll need to bind the this pointer, or create a lamda that invokes do_something.

foo() : 
  task(std::bind(&foo::do_something, this)),


foo() : 
  task([this]{ return do_something(); }),

std::async as(std::launch::async, task);

std::async is a function template, not a type. So the obvious change is

std::async(std::launch::async, task);

But that causes yet another error because somewhere within the guts of that call a copy of task is attempted, but std::packaged_task has a deleted copy constructor. You can fix that by using std::ref, which will avoid the copy.

std::async(std::launch::async, std::ref(task));

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