You can use both with similar results.
One prior answer notes that
clear is expected to take constant time in a mature map implementation. Without checking the source code of the likes of
ConcurrentHashMap, I would expect their
clear method to take constant time, plus amortized garbage collection costs.
Another poster notes that a shared map cannot be nulled. Well, it can if you want it, but you do it by using a proxy object which encapsulates a proper map and nulls it out when needed. Of course, you'd have to implement the proxy map class yourself.
Map<Foo, Bar> myMap = new ProxyMap<Foo, Bar>();
// Internally, the above object holds a reference to a proper map,
// for example, a hash map. Furthermore, this delegates all calls
// to the underlying map. A true proxy.
// The clear method simply reinitializes the underlying map.
Unless you did something like the above,
clear and nulling out are equivalent in the ways that matter, but I think it's more mature to assume your map, even if not currently shared, may become shared at a later time due to forces you can't foresee.
There is another reason to
clear instead of nulling out, even if the map is not shared. Your map may be instantiated by an external client, like a factory, so if you clear your map by nulling it out, you might end up coupling yourself to the factory unnecessarily. Why should the object that clears the map have to know that you instantiate your maps using Guava's
Maps.newHashMap() with God knows what parameters? Even if this is not a realistic concern in your project, it still pays off to align yourself to mature practices.
For the above reasons, and all else being equal, I would vote for