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When should I use std::promise over std::async or std::packaged_task? Can you give me practical examples of when to use each one of them?

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2 Answers


std::async is a neat and easy way to get a std::future, but:

  • Not always it starts a new thread; pass std::launch::async as a first parameter to force it.

    auto f = std::async( std::launch::async, func );
  • the std::~future destructor can block until new thread finishes

    auto sleep = [](int s) { std::this_thread::sleep_for(std::chrono::seconds(s)); };
        auto f = std::async( std::launch::async, sleep, 5 );

    Normally we expect that only .get() or .wait() blocks, but for std::future returned from std::async destructor also may block, so be careful not to block your main thread just by forgetting about it.

  • if the std::future is stored in a temporary-life object, std::async call will block on spot, so the following block will take 10 seconds if you remove the auto f = initializations:

    auto sleep = [](int s) { std::this_thread::sleep_for(std::chrono::seconds(s)); };
        auto f1 = std::async( std::launch::async, sleep, 5 );
        auto f2 = std::async( std::launch::async, sleep, 5 );


std::packaged_task by itself has nothing to do with threads: it is just a functor and a related future. Consider the following:

auto task = [](int i) { std::this_thread::sleep_for(std::chrono::seconds(5)); return i+100; };

std::packaged_task< int(int) > package{ task };
std::future<int> f = package.get_future();
std::cout << f.get() << "\n";

Here we just run the task by package(1), and after it returns f is ready so no blocking on .get().

But: one feature make the packaged_task very useful for threads. Instead of just a function you can initialize std::thread with a packaged_task. Consider the following - packaged_task is a really nice way of getting future:

std::packaged_task< int(int) > package{ task };
std::future<int> f = package.get_future();
std::thread t { std::move(package), 5 };

std::cout << f.get() << "\n";       //block here until t finishes


std::packaged_task is not copyable, so you move it to new task with std::move.


std::promise is a powerful mechanism, for example you can pass a value to new thread without need of any additional synchronizing mechanism.

auto task = [](std::future<int> i) {
    std::cout << i.get() << std::flush;

std::promise<int> p;
std::thread t{ task, p.get_future() };



New thread will wait for us on .get()

So, in general, answering your question:

  • use std::async only to simple things, for example to make some call non-blocking, but bear in mind the comments on blocking above.
  • use std::packaged_task to easily get future, and run it as a separate thread

    std::thread{ std::move(package), param }.detach();


    std::thread t { std::move(package), param };
  • use std::promise when you need more control over the future.

See also std::shared_future and on passing exceptions between threads std::promise::set_exception

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A promise is used to store a value that was calculated using e.g. a std::async. See http://en.cppreference.com/w/cpp/thread/promise

I can imagine you wonder about the difference between std::packaged_task and std::async (in the most common approach, std::async starts a separate thread NOW to run function/lambda/etc with a (likely) expensive calculation. A std::packaged_task is used to wrap a function/lambda/etc with the current values of arguments so you can LATER run it, either synchronously or in a separate thread).

Both std::packaged_task and std::async provide a std::future that will contain the RESULT of the wrapped function/lambda/etc once run. Internally, the std::future uses a std::promise to hold that result.

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std::future and std::promise have a "shared state", so result is not stored in promise object, but in the shared state –  user2622016 Jun 10 at 17:37
packaged_task does not package values of arguments, it holds only a function object and a "shared state". –  user2622016 Jun 10 at 17:41
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