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Without using boost::thread and boost::bind directly, is there a way to implement the equivalent of the following code?

std::string func()
{
    std::string str("Hello from async task!");
    return str;
}

int main()
{
    auto ftr = std::async(&func);
    std::cout << "Hello from main!";
    std::string str = ftr.get();
    std::cout << str << std::endl;      
    return 0;
}

Specifically, this part: auto ftr = std::async(&func); ?

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1 Answer 1

up vote 8 down vote accepted

Certainly. Simply make async<T>(std::function<T()>) return a future which invokes func() the moment it's first waited-for. You won't get any asynchronicity, but the API doesn't actually guarantee that the function will run asynchronously, so that's not a problem.

If you have access to an OS-specific threading library, you could of course use that as well.

Note, however, that storing exceptions cannot be implemented portably; it requires additional support from the C++ implementation, unless you can restrict the exceptions supported to ones with a polymorphic clone function. See this question for more information.

The final implementation might look a bit like this (untested):

// NOTE - we assume a SINGLE THREADED environment

template<typename T>
class myfuture_detail {
    mutable boost::variant<T, boost::function<T()> > val;

public:
    myfuture_detail(const boost::function<T()> &f)
        : val(f) { }

    const T &get() const {
        if (T *t = boost::get<T>(&val)) {
            return *t;
        } else {
            boost::function<T()> f = *boost::get<boost::function<T> >(&val);
            val = f();

            T *t = boost::get<T>(&val);
            assert(t);

            return *t;
        }
    }
};

template<typename T>
class myfuture {
    boost::shared_ptr<myfuture_detail<T> > ptr;

public:
    myfuture(const boost::function<T()> &f)
        : ptr(boost::make_shared<myfuture_detail<T> >(f))
    {}

    myfuture() { }

    const T &get() const {
        return ptr->get();
    }
};
share|improve this answer
    
Thanks for the detailed reply! I'm something of a novice in terms of meta programming so I'm not sure how this could be used in the same way as the example in the OP... For example, where would the equivalent of std::async() come into it? Does the myfuture class need to somehow be bound to a boost::thread ? –  Pat Mustard Jan 16 '12 at 7:29
1  
This is not actually asynchronous. std::async's contract does not actually guarentee that the async routine will run... asynchronously. Consider if the async thread is never scheduled until you get to the .get() - it's effectively synchronous. This is what I've done here - since you have no threads, I just pretend like it was running asynchronously and just happened to not get anything done until you came looking for the result. –  bdonlan Jan 16 '12 at 15:33
    
"Note, however, that storing exceptions cannot be implemented portably" Doesn't Boost.Exception do this? –  ildjarn Jan 24 '12 at 18:37
    
@ildjarn, that requires either non-portable compiler support, or use of the enable_current_exception construct at the throw point –  bdonlan Jan 25 '12 at 5:36

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