Assuming you meant threads rather than processes you can share the STL containers but you need to be careful with respect to synchronization. The STL containers are threads safe to some extend but you need to understand the thread safety guarantees given:
- One container can be used by mutliple readers concurrently.
- If there is one writer for a container, there shall neither be concurrent readers nor concurrent writers.
- The guarantees are per container, i.e., different containers can concurrently be used by threads without need of synchronziation between them.
The reason for these restrictions is that the interface for the containers is geared towards efficient use within one thread and you don't want to impeded the processing of an unshared container with the potential of being shared across threads. Also, the container interface isn't suitable for any sort of container maintained concurrency mechanism. For example, just beause
v.empty() just returned
false it doesn't mean that
v.pop() works because the container can be empty by now: If there were internal synchronization any lock would have been released once
empty() returned and the container can be changed by the time
pop() is called.
It is relatively easy to create a queue to be used for communication between different threads. It would use a
std::mutex and a suitable instantiation of
std::condition_variable. I think there is something like this proposed for inclusion into the standard but it isn't, yet, part of the standard C++ library. Note, however, that such a class would not return an iterator to the inserted element because by the time you'd access it, the element may be gone again and it would be questionable what the iterator is used for anyway.