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std::async has an overload which takes a std::launch policy as the first argument. When should I use this overload? what are the different policies available? (I think sync and async are the two options). When should I use the sync policy? How is that different from directly running it?

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Summary from the very helpful article that Jagannath linked, and comments on the possible uses.

There are 3 launch policies:

  • any: the library chooses whether to spawn a thread a or not
  • async: you explicitly ask for a thread to be spawned
  • deferred: you explicitly ask for a thread not to be spawned

Therefore, the deferred policy is a way to get deterministic lazy evaluation (also known as call by need). For example, suppose that you have:

void MyClass::lazy(std::future<int> const& f) {
  if (this->notReady()) { return; }
  if (this->stillNotReady()) { return; }
  if (this->value() == 42) { return; }

  this->go(f.get());
}

Now, if computing the value of this integer is long (for example, it may invoke a network roundtrip), then it's kinda wasteful to compute it in all the cases that do not really require it... and now we've got the tool to do so!

void func(MyClass& mc) {
  std::future<int> f = std::async(std::launch::deferred, []() {
                         return stoi(memcached.get("KEY"));
                       });

  mc.lazy(f);
}

Note that this is subtly different from using a std::function<int()> (and a closure), because the computation is done once and for all, guaranteeing that subsequent calls to get always return the same result.

The difference with the other policies can also be expressed in term of whether the operation is performed when you do not need the value.

  • any: might be performed on another thread (proactively) or not performed at all
  • async: will be performed on another thread
  • deferred: will not be performed

Therefore, deferred gives you better control, which is important if the call has a side effect.

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    "sync" is actually std::launch::deferred – Cubbi Feb 11 '12 at 17:18
  • @Cubbi: thanks for pointing out, I should have cross-checked with the Standard. – Matthieu M. Feb 12 '12 at 12:46
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    "subsequent calls to get()" will invoke undefined behavior, since get() invalidates the future. You'd need a shared_future to avoid the invalidation. – T.C. Feb 22 '15 at 15:13

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