A generator is simply a function which returns an object on which you can call next, such that for every call it returns some value, until it raises a StopIteration exception, signaling that all values have been generated. Such an object is called an iterator.
>>> def myGen(n): ... yield n ... yield n + 1 ... >>> g = myGen(6)
I quoted this from Understanding Generators in Python?
Here is what I am trying to figure out:
Which is the generator?
According to the quote mentioned above, I think the generator should be
myGen(6)is the returned iterator object. But I am really not sure about it.
When I tried this:
>>> type(myGen) <type 'function'> >>> type(g) # <1>this is confusing me. <type 'generator'> >>> callable(g) # <2> g is not callable. False >>> callable(myGen) True >>> g is iter(g) # <3> so g should an iterable and an iterator True # at the same time. And it will be passed as an argument >>> for i in g: # to built-in function `next()` in a "for...in..." loop. print i # (is that correct?) 6 7
So, according to
g's type is 'generator' and it is not callable.
But generators are callable, and calling a generator gets you an iterator object
What's going on here?
When I was searching for answers, I run into Every time you define a function python creates a callable object.
So, can I say something like this? when the function
myGen is defined,
myGen is a name referring to a callable object which is an instance of a class that has a
In this case,
myGen is a generator, and
myGen(6) is the returned iterator when
myGen is called.
But why does
<type 'generator'> at all?
And this returned
iterator thing also looks suspicious to me since there is no
return statement in the function.