if hasattr(obj, 'attribute'):
    # do somthing


    # access obj.attribute
except AttributeError, e:
    # deal with AttributeError

Which should be preferred and why?

12 Answers 12


hasattr internally and rapidly performs the same task as the try/except block: it's a very specific, optimized, one-task tool and thus should be preferred, when applicable, to the very general-purpose alternative.

  • 8
    Except you still need the try/catch block to handle race conditions (if you are using threads). – Douglas Leeder May 24 '09 at 8:01
  • 1
    Or, the special case I just came across: a django OneToOneField with no value: hasattr(obj, field_name) returns False, but there is an attribute with field_name: it just raises a DoesNotExist error. – Matthew Schinckel Feb 25 '11 at 0:44
  • 3
    Note that hasattr will catch all exceptions in Python 2.x. See my answer for an example and the trivial workaround. – Martin Geisler Apr 24 '13 at 7:35
  • 4
    An interesting comment: try can convey that the operation should work. Though try's intent is not always such, it is common, so it might be considered more readable. – Ioannis Filippidis Jan 31 '14 at 20:25
  • 1
    Check out this answer here. – flazzarini May 6 '16 at 8:15

Any benches that illustrate difference in performance?

timeit it's your friend

$ python -mtimeit -s 'class C(object): a = 4
c = C()' 'hasattr(c, "nonexistent")'
1000000 loops, best of 3: 1.87 usec per loop
$ python -mtimeit -s 'class C(object): a = 4
c = C()' 'hasattr(c, "a")'
1000000 loops, best of 3: 0.446 usec per loop
$ python -mtimeit -s 'class C(object): a = 4
c = C()' 'try:
1000000 loops, best of 3: 0.247 usec per loop
$ python -mtimeit -s 'class C(object): a = 4
c = C()' 'try:
100000 loops, best of 3: 3.13 usec per loop

hasattr|  0.446 |  1.87 
try    |  0.247 |  3.13
  • 15
    +1 for providing interesting, tangible numbers. In fact, the "try" is efficient when it contains the common case (i.e. when a Python exception is really exceptional). – Eric O Lebigot May 24 '09 at 7:31
  • I'm not sure how to interpret these results. Which is faster here, and by how much? – Steven M. Vascellaro Mar 27 '18 at 13:49
  • 1
    @StevenM.Vascellaro: If the attribute exists, try is about twice as fast as hasattr(). If it doesn't, try is about 1.5x slower than hasattr() (and both are substantially slower than if the attribute does exist). This is probably because, on the happy path, try hardly does anything (Python is already paying for the overhead of exceptions regardless of whether you use them), but hasattr() requires a name lookup and function call. On the unhappy path, they both have to do some exception handling and a goto, but hasattr() does it in C rather than Python bytecode. – Kevin Dec 6 '18 at 6:42

There is a third, and often better, alternative:

attr = getattr(obj, 'attribute', None)
if attr is not None:
     print attr


  1. getattr does not have the bad exception-swallowing behavior pointed out by Martin Geiser - in old Pythons, hasattr will even swallow a KeyboardInterrupt.

  2. The normal reason you're checking if the object has an attribute is so that you can use the attribute, and this naturally leads in to it.

  3. The attribute is read off atomically, and is safe from other threads changing the object. (Though, if this is a major concern you might want to consider locking the object before accessing it.)

  4. It's shorter than try/finally and often shorter than hasattr.

  5. A broad except AttributeError block can catch other AttributeErrors than the one you're expecting, which can lead to confusing behaviour.

  6. Accessing an attribute is slower than accessing a local variable (especially if it's not a plain instance attribute). (Though, to be honest, micro-optimization in Python is often a fool's errand.)

One thing to be careful of is if you care about the case where obj.attribute is set to None, you'll need to use a different sentinel value.

  • 1
    +1 - This is in league with dict.get('my_key', 'default_value') and should be more widely known about – user890167 May 10 '14 at 23:15
  • 1
    Great for common use case where you want to check the existance and use the attribute with default value. – dsalaj Nov 23 '15 at 9:40

I almost always use hasattr: it's the correct choice for most cases.

The problematic case is when a class overrides __getattr__: hasattr will catch all exceptions instead of catching just AttributeError like you expect. In other words, the code below will print b: False even though it would be more appropriate to see a ValueError exception:

class X(object):
    def __getattr__(self, attr):
        if attr == 'a':
            return 123
        if attr == 'b':
            raise ValueError('important error from your database')
        raise AttributeError

x = X()
print 'a:', hasattr(x, 'a')
print 'b:', hasattr(x, 'b')
print 'c:', hasattr(x, 'c')

The important error has thus disappeared. This has been fixed in Python 3.2 (issue9666) where hasattr now only catches AttributeError.

An easy workaround is to write a utility function like this:

_notset = object()

def safehasattr(thing, attr):
    return getattr(thing, attr, _notset) is not _notset

This let's getattr deal with the situation and it can then raise the appropriate exception.

  • 2
    This was also improved a bit in Python2.6 so that hasattr will at least not catch KeyboardInterrupt etc. – poolie May 24 '13 at 3:04
  • Or, rather than safehasattr, just use getattr to copy the value in to a local variable if you're going to use it, which you almost always are. – poolie May 24 '13 at 3:04
  • @poolie That's nice, I didn't know that hasattr had been improved like that. – Martin Geisler May 24 '13 at 6:56
  • Yes, it is good. I didn't know that either until today when I was about to tell someone to avoid hasattr, and went to check. We had some funny bzr bugs where hasattr just swallowed ^C. – poolie May 24 '13 at 7:02

I would say it depends on whether your function may accept objects without the attribute by design, e.g. if you have two callers to the function, one providing an object with the attribute and the other providing an object without it.

If the only case where you'll get an object without the attribute is due to some error, I would recommend using the exceptions mechanism even though it may be slower, because I believe it is a cleaner design.

Bottom line: I think it's a design and readability issue rather than an efficiency issue.

  • 1
    +1 for insisting on why "try" has a meaning for people who read the code. :) – Eric O Lebigot May 24 '09 at 7:34

If it's just one attribute you're testing, I'd say use hasattr. However, if you're doing several accesses to attributes which may or may not exist then using a try block may save you some typing.


If not having the attribute is not an error condition, the exception handling variant has a problem: it would catch also AttributeErrors that might come internally when accessing obj.attribute (for instance because attribute is a property so that accessing it calls some code).

  • this is a major problem that has been largely ignored, in my opinion. – Rick Teachey Jun 21 '18 at 0:33

I'd suggest option 2. Option 1 has a race condition if some other thread is adding or removing the attribute.

Also python has an Idiom, that EAFP ('easier to ask forgiveness than permission') is better than LBYL ('look before you leap').


From a practical point of view, in most languages using a conditional will always be consderably faster than handling an exception.

If you're wanting to handle the case of an attribute not existing somewhere outside of the current function, the exception is the better way to go. An indicator that you may want to be using an exception instead of a conditional is that the conditional merely sets a flag and aborts the current operation, and something elsewhere checks this flag and takes action based on that.

That said, as Rax Olgud points out, communication with others is one important attribute of code, and what you want to say by saying "this is an exceptional situation" rather than "this is is something I expect to happen" may be more important.

  • +1 for insisting on the fact that "try" can be interpreted as "this is an exceptional situation", compared to the conditional test. :) – Eric O Lebigot May 24 '09 at 7:30

This subject was covered in the EuroPython 2016 talk Writing faster Python by Sebastian Witowski. Here's a reproduction of his slide with the performance summary. He also uses the terminology look before you leap in this discussion, worth mentioning here to tag that keyword.

If the attribute is actually missing then begging for forgiveness will be slower than asking for permissions. So as a rule of thumb you can use the ask for permission way if know that it is very likely that the attribute will be missing or other problems that you can predict. Otherwise if you expect code will result in most of the times readable code


# CASE 1 -- Attribute Exists
class Foo(object):
    hello = 'world'
foo = Foo()

if hasatter(foo, 'hello'):
## 149ns ##

except AttributeError:
## 43.1 ns ##
## 3.5 times faster

# CASE 2 -- Attribute Absent
class Bar(object):
bar = Bar()

if hasattr(bar, 'hello'):
## 428 ns ##

except AttributeError :
## 536 ns ##
## 25% slower

The first.

Shorter is better. Exceptions should be exceptional.

  • 5
    Exceptions are very common in Python -- there's one at the end of every for statement, and hasattr uses one, too. However, "shorter is better" (and "simpler is better"!) DO apply, so the simpler, shorter, more-specific hasattr is indeed preferable. – Alex Martelli May 24 '09 at 5:18
  • @Alex just because the Python parser transforms those statements to have 1 doesn't mean its very common. There's a reason why they made that syntactic sugar: so you aren't stuck with the cruftiness of typing the try except block. – Unknown May 24 '09 at 5:27
  • If the exception is exceptional, then "explicit is better", and the original poster's 2nd option is better, I'd say… – Eric O Lebigot May 24 '09 at 7:35

At least when it is up to just what's going on in the program, leaving out the human part of readability, etc. (which is actually most of the time more imortant than performance (at least in this case - with that performance span), as Roee Adler and others pointed out).

Nevertheless looking at it from that perspective, it then becomes a matter of choosing between

try: getattr(obj, attr)
except: ...


try: obj.attr
except: ...

since hasattr just uses the first case to determine the result. Food for thought ;-)

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.