I wonder if this code is fine or not:
#include <iostream>
#include <future>
struct Foo
{
Foo()
:m_a(0)
{
}
int m_a;
};
int main()
{
Foo f;
auto handle =
std::async( std::launch::async,
[](Foo* f) { std::cout << f->m_a << '\n'; } ,
&f
);
handle.get();
}
I believe m_a
should be protected by a synchronization mechanism but my colleague says it is not necessary.
EDIT: To clarify my question: I am worried that the STORE operation from the constructor of Foo()
happens after the LOAD operation from the other thread. I can't see what mechanism prevents the compiler from executing those instruction in this order.
EDIT: I believe an enthusiastic compiler could decide to inline the constructor, and delay the STORE operation for after the CALL operation to std::async
. In which case the second thread could access m_a
before it has been committed to memory.
f
or reading from it inmain
, so there's nothing to synchronise. But it would help if you listed some of the arguments on each side.f
: it's destructed automatically, i.e. the access tof->m_a
should better not happen afterf
was destroyed.handle.get()
. So I meant there's no read-write inmain()
while the async operation is being performed. Now, it this wasn't safe,std::async
would be pretty damn useless.std::async
can see any changes made by the thread that invoked it prior to that invocation.