The metaissue here is that of state. How much state does any given function depend on, and how much does it change? Then consider how much state is implicit versus explicit, and cross that with the inspect vs. change.
If you have a function/method/whatever that is called DoStuff(), you have no idea from the outside what it depends on, what it needs, and what's going to happen to the shared state. If this is a class member, you also have no idea how that object's state is going to mutate. This is bad.
Contrast to something like cosf(2), this function is understood not to change any global state, and any state that it requires (lookup tables for example) are hidden from view and have no effect on your program-at-large. This is a function that computes a value based on what you give it and it returns that value. It changes no state.
Class member functions then have the opportunity to step up some problems. There's a huge difference between
myObject.hitpoints -= 4;
In the first example, an external operation is changing some state that one of its member functions implicitly depends upon. The fact is that these two lines can be separated by many other lines of code begins to make it non-obvious what's going to happen in the UpdateHealth call, even if outside of the subtraction it is the same as the TakeDamage call. Encapsulating the state changes (in the second example) implies that the specifics of the state changes aren't important to the outside world, and hopefully they're not. In the first example, the state changes are explicitly important to the outside world, and this is really no different than setting some globals and calling a function that uses those globals. E.g. hopefully you'd never see
extern float value_to_sqrt;
value_to_sqrt = 2.0f;
sqrt(); // reads the global value_to_sqrt
extern float sqrt_value; // has the results of the sqrt.
And yet, how many people do exactly this sort of thing in other contexts? (Considering especially that class instance state is "global" in regards to that particular instance.)
So- prefer giving explicit instruction to your function calls, and prefer that they return the results directly rather than having to explicitly set state before calling a function and then checking other state after it returns.
The more state dependencies a bit of code has, the harder it'll be to make it multithread safe, but that has already been covered above. The point I want to make is that the problem isn't so much globals but more the visibility of the collection of state that is required for a bit of code to operate (and subsequently how much other code also depends on that state).