Why isn't a function declared as async of type types.CoroutineType?

Question

Quote from here:

types.CoroutineType

The type of coroutine objects, created by async def functions.

Quote from here:

Functions defined with async def syntax are always coroutine functions, even if they do not contain await or async keywords.

Python console session:

Python 3.5.1 (v3.5.1:37a07cee5969, Dec  6 2015, 01:38:48) [MSC v.1900 32
bit (Intel)] on win32
Type "help", "copyright", "credits" or "license" for more information.
>>> import types
>>> def f(): pass
...
>>> async def g(): pass
...
>>> isinstance(f, types.FunctionType)
True
>>> isinstance(g, types.FunctionType)
True
>>> isinstance(g, types.CoroutineType)
False
>>>

Why doesn't isinstance(g, types.CoroutineType) evaluate to True?

Answer 1

There's a difference between coroutine and coroutine function. The same way as there is a difference between generator and generator function:

Calling the function g returns a coroutine, e.g.:

>>> isinstance(g(), types.CoroutineType)
True

If you need to tell if g is a coroutine function (i.e. would return a coroutine) you can check with:

>>> from asyncio import iscoroutinefunction
>>> iscoroutinefunction(g)
True

Answer 2

g by itself is not a valid Coroutine function when used that way:

isinstance(g, types.CoroutineType)

This is similar to the difference between a generator and a generator function. Instead, use g() to compare:

isinstance(g(), types.CoroutineType)

You could also try iscoroutinefunction(g) instead, much more shorter and neater:

from asyncio import iscoroutinefunction
iscoroutinefunction(g)   #Return true

Read more here: https://docs.python.org/3/library/asyncio-task.html