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For logging purposes I want to retrieve the fully qualified class name of a Python object. (With fully qualified I mean the class name including the package and module name.)

I know about x.__class__.__name__, but is there a simple method to get the package and module?

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up vote 45 down vote accepted

With the following program

#! /usr/bin/env python

import foo

def fullname(o):
  return o.__module__ + "." + o.__class__.__name__

bar = foo.Bar()
print fullname(bar)

and Bar defined as

class Bar(object):
  def __init__(self, v=42):
    self.val = v

the output is

$ ./
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+1 Nice one! Why don't you add __package__ ? – Adam Matan Jan 7 '10 at 12:06
This appears to return the module where bar was defined, not where Bar was defined. If the purpose of logging is to know exactly what kind of object it was, then this doesn't seem to help. – mehaase May 24 '12 at 14:45
Should be o.__class__.__module__, I think... – Mu Mind Oct 29 '12 at 17:02
Starting from Python 3.3 you also have obj.__qualname__: – Giampaolo Rodolà Apr 10 '13 at 17:55
larsks: yes it is,… – Yaroslav Bulatov Apr 4 '15 at 21:17

Consider using the inspect module which has functions like getmodule which might be what are looking for:

>>>import inspect
>>>import xml.etree.ElementTree
>>>et = xml.etree.ElementTree.ElementTree()
<module 'xml.etree.ElementTree' from 
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The provided answers don't deal with nested classes. Thought it's not available until python 3.3 (PEP 3155), you really wan to use __qualname__ of the class. Eventually (3.4? PEP 395), __qualname__ will also exist for modules to deal with cases where the module is renamed (i.e. when it is renamed to __main__).

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If you use you can get a qualname equivalent on older versions. – Wouter Bolsterlee Apr 11 '15 at 23:01

__module__ would do the trick.


>>> import re
>>> print re.compile.__module__

This site suggests that __package__ might work for python 3.0; However, the examples given there won't work under my python 2.5.2 console.

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That does the trick, thanks! For the fully qualified name I will use "%s.%s" % (x.__class__.__module__, x.__class__.__name__) – Hanno S. Jan 7 '10 at 12:06

Here's one based on Greg Bacon's excellent answer, but with a couple of extra checks:

__module__ can be None (according to the docs), and also for a type like str it can be __builtin__ (which you might not want appearing in logs or whatever). The following checks for both those possibilities:

def fullname(o):
    module = o.__class__.__module__
    if module is None or module == str.__class__.__module__:
        return o.__class__.__name__
    return module + '.' + o.__class__.__name__

(There might be a better way to check for __builtin__. The above just relies on the fact that str is always available, and its module is always __builtin__)

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This is a hack but I'm supporting 2.6 and just need something simple:

>>> from logging.handlers import MemoryHandler as MH
>>> str(MH).split("'")[1]

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Since the interest of this topic is to get fully qualified names, here is a pitfall that occurs when using relative imports along with the main module existing in the same package. E.g.:

$ mkdir -p /tmp/fqname/foo
$ touch /tmp/fqname/foo/
$ cat<<END > /tmp/fqname/foo/
> from baz import Baz
> print Baz.__module__
$ cat<<END > /tmp/fqname/foo/
> class Baz: pass
$ cat <<END > /tmp/fqname/
> import
> from foo.baz import Baz
> print Baz.__module__
$ cat <<END > /tmp/fqname/foo/
> import bar
> import
$ PYTHONPATH=/tmp/fqname python /tmp/fqname/
$ PYTHONPATH=/tmp/fqname python /tmp/fqname/foo/
$ PYTHONPATH=/tmp/fqname python /tmp/fqname/foo/

When hum imports bar using relative path, bar sees Baz.__module__ as just "baz", but in the second import that uses full name, bar sees the same as "foo.baz".

If you are persisting the fully-qualified names somewhere, it is better to avoid relative imports for those classes.

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