That code probably won't do what you think it will. When you write code like that, you're introducing a data race into your code. This is almost certainly a bug that will result in your program non-deterministically failing.
Data structures (including shared_ptr) are generally not meant to be accessed concurrently. Do not modify the same structure at the same time in more than one thread. That could corrupt the structure. Do not modify it in one thread and read it in another thread. The reader could see inconsistent data. Probably multiple threads can read it at the same time.
If you think you really want to do some of the above, find out if the data structure allows some of these behaviors in a section probably titled "Thread Safety." If it does allow them, take a second look at whether your performance really needs this, and then use it. (The documentation on shared_ptr does NOT allow what you're doing.)
Now, for a higher-level concern, you probably shouldn't be doing thread synchronization by waiting for a pointer to be set to NULL. Really, look at condition variables, barriers, or futures as a way of getting one thread to wait until another is finished with something. It's a nicer interface, and whoever looks at your code next (that includes you in 6 months) will thank you.
I know you're concerned about the performance cost of real synchronization. Don't worry about this. It'll be fine. If you're worried about lock contention, use barriers or futures, which don't have a big shared lock to contend for.
Caveat: there is a time for writing code that avoids locks at all cost. But unless you're looking at profiler data that says your synch ops are too slow for your target workload, this isn't the time.
I hope that
shared in your example is global. Otherwise, you have multiple threads with local references to the same
shared_ptr that points to the real object you're interested in. It kind of defeats the purpose of having a reference-counted pointer. Just please tell me it's global.