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Lets say I have two functions:

def foo():
  return 'foo'

def bar():
  yield 'bar'

The first one is a normal function, and the second is a generator function. Now I want to write something like this:

def run(func):
  if is_generator_function(func):
     gen = func()
     #... run the generator ...

What will a straightforward implementation of is_generator_function() look like? Using the types package I can test if gen is a generator, but I wish to do so before invoking func().

Now consider the following case:

def goo():
  if False:

An invocation of goo() will return a generator. I presume that the python parser knows that the goo() function has a yield statement, and I wonder if it possible to get that information easily.


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It's useful to note that if a function contains a yield statement, then a return statement inside that function is not permitted to have an argument. It has to be just return which terminates the generator. Good question! – Greg Hewgill Dec 9 '09 at 5:13
Good point, goo() should not be valid, however it is, at least here (Python 2.6.2). – Carlos Dec 9 '09 at 5:32
A note to current readers: @GregHewgill comment above is no longer right, now you can return with argument (which is passed on the value attr of the StopIteration) – wim Mar 14 '14 at 1:58
Only in python 3 – nehz Mar 16 '14 at 14:38

5 Answers 5

up vote 35 down vote accepted
>>> import inspect
>>> def foo():
...   return 'foo'
>>> def bar():
...   yield 'bar'
>>> print inspect.isgeneratorfunction(foo)
>>> print inspect.isgeneratorfunction(bar)
  • New in Python version 2.6
share|improve this answer
Just a 2014 comment thanking you for providing a 2011 answer on a 2009 question :) – wim Mar 14 '14 at 2:07

Actually, I'm wondering just how useful such a hypothetical is_generator_function() would be really. Consider:

def foo():
    return 'foo'
def bar():
    yield 'bar'
def baz():
    return bar()
def quux(b):
    if b:
        return foo()
        return bar()

What should is_generator_function() return for baz and quux? baz() returns a generator but isn't one itself, and quux() might return a generator or might not.

share|improve this answer
@Greg, absolutely -- any callable may return an iterable (which may in particular be an iterator and in super-particular a generator, or may not), or something else (or nothing at all, by raising an exception), depending on arguments, random numbers, or the phase of the moon. A generator function is a callable such that "if it returns anything at all rather than raising, will return a generator object" (meanwhile, not all callables meeting that conditions are gnerator functions). Use cases are therefore hard to concoct. – Alex Martelli Dec 9 '09 at 5:34
You are right, this is a kind of hypothetical question. It came while I was reading David Beazley's presentation on coroutines: – Carlos Dec 9 '09 at 5:36
False, True, False, False - respectively. It's not about whether the function returns a generator instance, it's about whether it is a generator function! – wim Mar 14 '14 at 2:05
>>> def foo():
...   return 'foo'
>>> def bar():
...   yield 'bar'
>>> import dis
>>> dis.dis(foo)
  2           0 LOAD_CONST               1 ('foo')
              3 RETURN_VALUE        
>>> dis.dis(bar)
  2           0 LOAD_CONST               1 ('bar')
              3 YIELD_VALUE         
              4 POP_TOP             
              5 LOAD_CONST               0 (None)
              8 RETURN_VALUE        

As you see, the key difference is that the bytecode for bar will contain at least one YIELD_VALUE opcode. I recommend using the dis module (redirecting its output to a StringIO instance and checking its getvalue, of course) because this provides you a measure of robustness over bytecode changes -- the exact numeric values of the opcodes will change, but the disassembled symbolic value will stay pretty stable;-).

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Alex, how do you feel about calling "blah = func()"... then checking if type(blah) is a generator? and if it's not, then func() was called already :-). I think that would have been how I would have first investigated how to do this :-). – Tom Dec 9 '09 at 5:13
Was about to write the same but the Python übergod came in first. :-) – paprika Dec 9 '09 at 5:14
The OP is very clear in the Q's title that he wants the information before calling -- showing how to get it after calling does not answer the given question with the clearly expressed constraints. – Alex Martelli Dec 9 '09 at 5:21
@paprika: Ha... I have no idea if this works... but Alex said it does... so +1 :-)... and I doubt anyone else will have a better answer... not even Guido himself. – Tom Dec 9 '09 at 5:22
@Alex: absolutely... I must say... I didn't read the question thoroughly :-o. Now I'm looking at it and it's obvious :-). I kind of focused on the "run" function and thought that could easily be done with types. – Tom Dec 9 '09 at 5:25

I've implemented a decorator that hooks on the decorated function returned/yielded value. Its basic goes:

import types
def output(notifier):
    def decorator(f):
        def wrapped(*args, **kwargs):
            r = f(*args, **kwargs)
            if type(r) is types.GeneratorType:
                for item in r:
                    # do something
                    yield item
                # do something
                return r
    return decorator

It works because the decorator function is unconditionnaly called: it is the return value that is tested.

EDIT: Following the comment by Robert Lujo, I ended up with something like:

def middleman(f):
    def return_result(r):
        return r
    def yield_result(r):
        for i in r:
            yield i
    def decorator(*a, **kwa):
        if inspect.isgeneratorfunction(f):
            return yield_result(f(*a, **kwa))
            return return_result(f(*a, **kwa))
    return decorator
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I had similar case and I got error: SyntaxError: 'return' with argument inside generator. When I think about it, it looks logical, the same function can't be normal function and generator function in the same time. Does this really work in your case? – Robert Lujo Sep 3 at 16:04

I know I'm late to the party but, a nice way to do this, without requiring other packages, is by using the information Python embeds in each function object, not sure if this works in the 2.x series though.

So, a simple way to do it would simply require looking at the value of the co_flags and acting accordingly.

As per the documentation:

The following flag bits are defined for co_flags: bit 0x04 is set if the function uses the *arguments syntax to accept an arbitrary number of positional arguments; bit 0x08 is set if the function uses the keywords syntax to accept arbitrary keyword arguments; **bit 0x20 is set if the function is a generator.

Without much hassle we can discover that any plain function has a co_flags value of 67:

Out[30]: 67

So if a function is a generator this value should simply be `67 + int(0x20) = 99':

Out[33]: 99

Knowing this information, your function that tests whether another function is a generator could simply look like this:

def is_generator(func):
    return True if func.__code__.co_flags == 99 else False

Which does its job perfectly:

Out[35]: True

Out[36]: False

The good thing about this is it let's us customize our check even further by creating cases of how are generator could look by summing the value for the flags as they are defined in code.h:

/* Masks for co_flags above */
#define CO_OPTIMIZED    0x0001
#define CO_NEWLOCALS    0x0002
#define CO_VARARGS  0x0004
#define CO_VARKEYWORDS  0x0008
#define CO_NESTED       0x0010
#define CO_GENERATOR    0x0020

A bit overkill, really, but it's nice to see the capabilities we are given.

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