I'm actually trying doing this in Java, but I'm in the process of teaching myself python and it made me wonder if there was an easy/clever way to do this with wrappers or something.

I want to know how many times a specific method was called inside another method. For example:

def foo(z):
    #do something
    return result

def bar(x,y):
    #complicated algorithm/logic involving foo
    return foobar

So for each call to bar with various parameters, I'd like to know how many times foo was called, perhaps with output like this:

>>> print bar('xyz',3)
foo was called 15 times
[results here]
>>> print bar('stuv',6)
foo was called 23 times
[other results here]

edit: I realize I could just slap a counter inside bar and dump it when I return, but it would be cool if there was some magic you could do with wrappers to accomplish the same thing. It would also mean I could reuse the same wrappers somewhere else without having to modify any code inside the method.

  • in Java you can do it with an aspect, use cflow to check the calling method and call to match the method(s) to count, then implement around advice to increment a counter per matched method (maybe use a map of method signatures and counts) Aug 19, 2009 at 18:25
  • or to just count invocations, simply match execution instead of using cflow and call Aug 19, 2009 at 18:26
  • I was going to point you to a Pyhon code coverage tool (coverage.py), because surely it must contain helpful techniques for what you want to do. But then the author himself (Hi Ned!) answered your question. You might want to look at nedbatchelder.com/code/coverage anyway. Aug 19, 2009 at 19:02
  • Hi df! Ironically I didn't mention coverage.py... Aug 19, 2009 at 19:03

3 Answers 3


Sounds like almost the textbook example for decorators!

def counted(fn):
    def wrapper(*args, **kwargs):
        wrapper.called += 1
        return fn(*args, **kwargs)
    wrapper.called = 0
    wrapper.__name__ = fn.__name__
    return wrapper

def foo():

>>> foo()
>>> foo.called

You could even use another decorator to automate the recording of how many times a function is called inside another function:

def counting(other):
    def decorator(fn):
        def wrapper(*args, **kwargs):
            other.called = 0
                return fn(*args, **kwargs)
                print '%s was called %i times' % (other.__name__, other.called)
        wrapper.__name__ = fn.__name__
        return wrapper
    return decorator

def bar():

>>> bar()
foo was called 2 times

If foo or bar can end up calling themselves, though, you'd need a more complicated solution involving stacks to cope with the recursion. Then you're heading towards a full-on profiler...

Possibly this wrapped decorator stuff, which tends to be used for magic, isn't the ideal place to be looking if you're still ‘teaching yourself Python’!

  • I am getting foo was called 0 times in the second example. Sep 4, 2018 at 7:14

This defines a decorator to do it:

def count_calls(fn):
    def _counting(*args, **kwargs):
        _counting.calls += 1
        return fn(*args, **kwargs)
    _counting.calls = 0
    return _counting

def foo(x):
    return x

def bar(y):

print foo.calls
  • So, do all decorated functions share this global variable? It looks like they do. >>> print CALLS 2 >>> @count_calls ... def foobar(y): ... return y ... >>> foobar(1) 1 >>> print CALLS 1
    – hughdbrown
    Aug 19, 2009 at 18:40
  • I changed the code to keep the count on a function attribute, so now they'll be kept separate. Aug 19, 2009 at 18:43
  • This works, but it won't count how many times ONLY bar has called foo. You'd have to add some logic to determine the caller of the foo, which I'm guessing is possible, but I don't know offhand how to do it. Aug 19, 2009 at 18:45
  • Thanks Ned, this is really close. But I think Triptych is right. I was thinking of something more like a wrapper on bar that took foo as a parameter. The bar wrapper would then wrap foo to count calls, and print the count after bar had executed.
    – job
    Aug 19, 2009 at 19:06
  • I don't have complete code, but this might be helpful: sys._getframe(1).f_code.co_name is the name of your caller. Aug 19, 2009 at 19:46

After your response - here's a way with a decorator factory...

import inspect

def make_decorators():
    # Mutable shared storage...
    caller_L = []
    callee_L = []
    called_count = [0]
    def caller_decorator(caller):
        def counting_caller(*args, **kwargs):
            # Returning result here separate from the count report in case
            # the result needs to be used...
            result = caller(*args, **kwargs)
            print callee_L[0].__name__, \
                   'was called', called_count[0], 'times'
            called_count[0] = 0
            return result
        return counting_caller

    def callee_decorator(callee):
        def counting_callee(*args, **kwargs):
            # Next two lines are an alternative to
            # sys._getframe(1).f_code.co_name mentioned by Ned...
            current_frame = inspect.currentframe()
            caller_name = inspect.getouterframes(current_frame)[1][3]
            if caller_name == caller_L[0].__name__:
                called_count[0] += 1
            return callee(*args, **kwargs)
        return counting_callee

    return caller_decorator, callee_decorator

caller_decorator, callee_decorator = make_decorators()

def foo(z):
    #do something
    return ' foo result'

def bar(x,y):
    # complicated algorithm/logic simulation...
    for i in xrange(x+y):
    foobar = 'some result other than the call count that you might use'
    return foobar


And here's the output (tested with Python 2.5.2):

foo was called 2 times
foo was called 3 times
foo was called 4 times
  • I realize I could just add a counter somewhere inside the bar method and just print it out when I return, but I was wondering if this was possible without actually changing any code within bar.
    – job
    Aug 19, 2009 at 18:39
  • Ah - gotcha - I edited to put in a new answer with a factory to make both decorators that cooperate.
    – Anon
    Aug 19, 2009 at 21:23

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