Consider the following C++11 code where class B
is instantiated and used by multiple threads. Because B
modifies a shared vector, I have to lock access to it in the ctor and member function foo of B
. To initialize the member variable id
I use a counter that is an atomic variable because I access it from multiple threads.
struct A {
A(size_t id, std::string const& sig) : id{id}, signature{sig} {}
private:
size_t id;
std::string signature;
};
namespace N {
std::atomic<size_t> counter{0};
typedef std::vector<A> As;
std::vector<As> sharedResource;
std::mutex barrier;
struct B {
B() : id(++counter) {
std::lock_guard<std::mutex> lock(barrier);
sharedResource.push_back(As{});
sharedResource[id].push_back(A("B()", id));
}
void foo() {
std::lock_guard<std::mutex> lock(barrier);
sharedResource[id].push_back(A("foo()", id));
}
private:
const size_t id;
};
}
Unfortunately, this code contains a race condition and does not work like this (sometimes the ctor and foo() do not use the same id). If I move the initialization of id to the ctor body which is locked by a mutex, it works:
struct B {
B() {
std::lock_guard<std::mutex> lock(barrier);
id = ++counter; // counter does not have to be an atomic variable and id cannot be const anymore
sharedResource.push_back(As{});
sharedResource[id].push_back(A("B()", id));
}
};
Can you please help me understanding why the latter example works (is it because it does not use the same mutex?)? Is there a safe way to initialize id
in the initializer list of B
without locking it in the body of the ctor? My requirements are that id
must be const
and that the initialization of id
takes place in the initializer list.
A
). For example, you can't simply accesssharedResource[id]
without actually having done something to resizesharedResource
to containid + 1
elements. And unlessA
contains a member functionpush_back
, the code shouldn't even compile.A
need apush_back
member? I see only a(const char*,size_t)
constructor and a move/copy constructor in use. OP: Please make this an SSCCE if possiblesharedResource
is astd::vector<A>
, sosharedResource[id]
returns anA&
andsharedResource[id].push_back(...)
is thus callingA::push_back
.A
was being pushed, it wasn't being pushed into anA
because that'd make little sense for the conventional semantics ofpush_back
. I expect the code's there's not what the OP actually intended to write.