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Important update: Apparently I drew the wrong conclusion when I asked this question. Thanks to the responses I found out the lambda function [=]() does work fine in a multithreaded scenario. My apologies for posing this confusing question. Please vote to close, as it was a non-issue.


In our company we've written a library function to call a function asynchronously in a separate thread. It works using a combination of inheritance and template magic. The client code looks as follows:

DemoThread thread;
std::string stringToPassByValue = "The string to pass by value";
AsyncCall(thread, &DemoThread::SomeFunction, stringToPassByValue);

Since the introduction of lambda functions I'd like to use it in combination with lambda functions. I'd like to write the following client code:

DemoThread thread;
std::string stringToPassByValue = "The string to pass by value";
AsyncCall(thread, [=]()
{
    const std::string someCopy = stringToPassByValue;
});

Update: contrary to what I first believed when asking this question, this code works fine.

Now, with the Visual C++ 2010 this code doesn't work. What happens is that the stringToPassByValue is not copied. Instead the "capture by value" feature passes the data by reference. The result is that if the function is executed after stringToPassByValue has gone out of scope, the application crashes as its destructor is called already.

So I wonder: is it possible to pass data to a lambda function as a copy?

Note: One possible solution would be to modify our framework to pass the data in the lambda parameter declaration list, as follows:

DemoThread thread;
std::string stringToPassByValue = "The string to pass by value";
AsyncCall(thread, [=](const std::string stringPassedByValue)
{
    const std::string someCopy = stringPassedByValue;
}
, stringToPassByValue);

However, this solution is so verbose that our original function pointer solution is both shorter and easier to read.

Update: The full implementation of AsyncCall is too big to post here. In short, what happens is that the AsyncCall template function instantiates a template class holding the lambda function. This class is derived from a base class that contains a virtual Execute() function, and upon an AsyncCall() call, the function call class is put on a call queue. A different thread then executes the queued calls by calling the virtual Execute() function, which is polymorphically dispatched to the template class which then executes the lambda function.

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closed as not a real question by Dimitri C., Éric Malenfant, Georg Fritzsche, Steve Jessop, GManNickG Jun 1 '10 at 18:17

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center.If this question can be reworded to fit the rules in the help center, please edit the question.

1  
Sounds like a bug somewhere: [=] is defined to capture by copy. Are you sure that in your real code, stringToPassByValue is a std::string, and not a pointer? –  Steve Jessop Jun 1 '10 at 11:54
    
Also, how is AsyncCall defined? Unless it's a template, I don't know how to pass lambdas around, because they have funny types. –  Steve Jessop Jun 1 '10 at 12:05
    
@Steve Jessop: I am 100% sure it is not a pointer. You are right in that this seems like a bug in the Visual C++ compiler, but it might also be that it was never intended to be used in a multithreaded situation, or that there is another alternative –  Dimitri C. Jun 1 '10 at 12:30
    
@Steve Jessop: I added an update in which I explain how the AsyncCall function is implemented. –  Dimitri C. Jun 1 '10 at 12:40
    
@Dimitri: does it work if you don't use threads? –  Francesco Jun 1 '10 at 12:43
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