I have a situation in which I need to hook certain functions so that I can inspect the return values and track them. This is useful for tracking for example running averages of values returned by methods/functions. However, these methods/function can also be generators.
However, if i'm not wrong, python detects generators when parsing and when the function is called at runtime it always returns a generator. Thus I can't simply do something like:
import types def decorator(func): average = None # assume average can be accessed by other means def wrap(*args, **kwargs): nonlocal average ret_value = func(*args, **kwargs) #if False wrap is still a generator if isinstance(ret_value, types.GeneratorType): for value in ret_value: # update average yield value else: # update average return ret_value # ret_value can't ever be fetched return wrap
yielding in this decorator is necessary, since I need to track the values as the caller iterates this decorated generator (i.e. "real-time"). Meaning, I can't simply replace the
values = list(ret_value), and return
values. (i.e.) If the
func is a generator it needs to remain a generator once decorated. But if
func is a pure function/method, even if the
else is executed,
wrap still remains a generator. Meaning, the
ret_value can't ever be fetched.
A toy example of using such a generator would be:
@decorated def some_gen(some_list): for _ in range(10): if some_list % 2 == 0: yield 1 else: yield 0 def caller(): some_list =  for i in some_gen(some_list): print(i) some_list += 1 # changes what some_gen yields
For the toy example, there may be simpler solutions, but it's just to prove a point.
Maybe I'm missing something obvious, but I did some research and didn't find anything. The closest thing I found was this. However, that still doesn't let the decorator inspect every value returned by the wrapped generator (just the first). Does this have a solution, or are two types of decorators (one for functions and one for decorators) necessary?