I'd interacting with a lot of deeply nested json I didn't write, and would like to make my python script more 'forgiving' to invalid input. I find myself writing involved try-except blocks, and would rather just wrap the dubious function up.

I understand it's a bad policy to swallow exceptions, but I'd rather prefer they to be printed and analysed later, than to actually stop execution. It's more valuable, in my use-case to continue executing over the loop than to get all keys.

Here's what I'm doing now:

    item['a'] = myobject.get('key').METHOD_THAT_DOESNT_EXIST()
    item['a'] = ''
    item['b'] = OBJECT_THAT_DOESNT_EXIST.get('key2')
    item['b'] = ''
    item['c'] = func1(ARGUMENT_THAT_DOESNT_EXIST)
    item['c'] = ''
    item['z'] = FUNCTION_THAT_DOESNT_EXIST(myobject.method())
    item['z'] = ''

Here's what I'd like, (1):

item['a'] = f(myobject.get('key').get('subkey'))
item['b'] = f(myobject.get('key2'))
item['c'] = f(func1(myobject)

or (2):

def get_stuff():
   item['a'] = myobject.get('key').get('subkey')
   item['b'] = myobject.get('key2')
   item['c'] = func1(myobject)

...where I can wrap either the single data item (1), or a master function (2), in some function that turns execution-halting exceptions into empty fields, printed to stdout. The former would be sort of an item-wise skip - where that key isn't available, it logs blank and moves on - the latter is a row-skip, where if any of the fields don't work, the entire record is skipped.

My understanding is that some kind of wrapper should be able to fix this. Here's what I tried, with a wrapper:

def f(func):
   def silenceit():

Here's why it doesn't work. Call a function that doesn't exist, it doesn't try-catch it away:

>>> f(meow())
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
NameError: name 'meow' is not defined

Before I even add a blank return value, I'd like to get it to try-catch correctly. If the function had worked, this would have printed "Error", right?

Is a wrapper function the correct approach here?


I've had a lot of really useful, helpful answers below, and thank you for them---but I've edited the examples I used above to illustrate that I'm trying to catch more than nested key errors, that I'm looking specifically for a function that wraps a try-catch for...

  1. When a method doesn't exist.
  2. When an object doesn't exist, and is getting a method called on it.
  3. When an object that does not exist is being called as an argument to a function.
  4. Any combination of any of these things.
  5. Bonus, when a function doesn't exist.
  • 1
    For accessing nested JSON specifically, you might want to look at safeJSON. This works by effectively wrapping the object myobject.
    – BrenBarn
    Dec 14, 2014 at 21:20

10 Answers 10


There are lots of good answers here, but I didn't see any that address the question of whether you can accomplish this via decorators.

The short answer is "no," at least not without structural changes to your code. Decorators operate at the function level, not on individual statements. Therefore, in order to use decorators, you would need to move each of the statements to be decorated into its own function.

But note that you can't just put the assignment itself inside the decorated function. You need to return the rhs expression (the value to be assigned) from the decorated function, then do the assignment outside.

To put this in terms of your example code, one might write code with the following pattern:

def computeA():
    item['a'] = myobject.get('key').METHOD_THAT_DOESNT_EXIST()

item["a"] = computeA()

return_on_failure could be something like:

def return_on_failure(value):
  def decorate(f):
    def applicator(*args, **kwargs):
         return f(*args,**kwargs)
         return value

    return applicator

  return decorate
  • Your code never references the value argument passed to the decorator so the decorator function will never return it. IMO it makes no sense and does not do what you claim.
    – martineau
    Aug 19, 2021 at 18:35
  • @MattV: I think awarding extra points to this answer was ill-considered.
    – martineau
    Aug 19, 2021 at 18:40
  • I'm new to decorators, but I think this answer feels a bit misleading to me as it is telling that we can't accomplish this with decorators, while in Sergeev Andrew and glglgl's responses, we can see how to solve this using decorator along with examples Jan 4, 2023 at 15:01

You could use a defaultdict and the context manager approach as outlined in Raymond Hettinger's PyCon 2013 presentation

from collections import defaultdict
from contextlib import contextmanager

def ignored(*exceptions):
  except exceptions:

item = defaultdict(str)

obj = dict()
with ignored(Exception):
  item['a'] = obj.get(2).get(3) 

print item['a']

obj[2] = dict()
obj[2][3] = 4

with ignored(Exception):
  item['a'] = obj.get(2).get(3) 

print item['a']
  • Hmm, that's neat. I'm going to investigate this. Thanks. Mar 24, 2013 at 15:38
  • link is down. any ideas where to find it?
    – jdennison
    Sep 24, 2013 at 16:16
  • 1
    That's a great talk, really brought a lot of things together for me. I'll now recommend this along with Code Like a Pythonista: Idiomatic Python. Thanks.
    – Peter Wood
    Sep 30, 2014 at 17:14
  • In ignored function instead of using pass can I use raise and catch an exception on the main call in order to print an error message for the related code block? @iruvar
    – alper
    Apr 7, 2020 at 12:50
  • 3
    @alper, that would kind of defeat the point of using ignored, wouldn't it. If I understand your question you seek to print details correspond to the exception at hand. You could do this instead - import sys, traceback and then add ex_type, ex, tb = sys.exc_info() followed by traceback.print_tb(tb) just before the pass in ignored
    – iruvar
    Apr 7, 2020 at 17:03

It's very easy to achieve using configurable decorator.

def get_decorator(errors=(Exception, ), default_value=''):

    def decorator(func):

        def new_func(*args, **kwargs):
                return func(*args, **kwargs)
            except errors, e:
                print "Got error! ", repr(e)
                return default_value

        return new_func

    return decorator

f = get_decorator((KeyError, NameError), default_value='default')
a = {}

def example1(a):
    return a['b']

def example2(a):
    return doesnt_exist()

print example1(a)
print example2(a)

Just pass to get_decorator tuples with error types which you want to silence and default value to return. Output will be

Got error!  KeyError('b',)
Got error!  NameError("global name 'doesnt_exist' is not defined",)

Edit: Thanks to martineau i changed default value of errors to tuples with basic Exception to prevents errors.

  • Forgive me for a lack of knowledge here. I'm attempting to use it in my script, but it's not giving me the result I'm looking for. My error is 'AttributeError: 'NoneType' object has no attribute text' resulting from f(soup.find("span", class_='xxx').text). I'm defining the decorator as 'f = get_decorator(errors=(AttributeError,), default_value="#NA")'. What am I doing wrong here?
    – MattV
    Dec 12, 2014 at 17:02
  • @MVersteeg: You need to apply @f to a function that returns the value of the soup.find("span", class_='xxx').text expression that's generating the exception -- as shown in the examples in the answer.
    – martineau
    Dec 13, 2014 at 17:59
  • Upvoted, although I'd change the signature of get_decorator() to def get_decorator(default_value='', *errors) to simplify calling it slightly.
    – martineau
    Dec 13, 2014 at 18:44
  • @martineau i changed errors default value to prevent exceptions Dec 15, 2014 at 6:12
  • It's worth noting that -- especially for one time usage -- that @get_decorator((KeyError, NameError), default_value='default') before the function would also work.
    – martineau
    Dec 15, 2014 at 8:47

Extending @iruvar answer - starting with Python 3.4 there is an existing context manager for this in Python standard lib: https://docs.python.org/3/library/contextlib.html#contextlib.suppress

from contextlib import suppress

with suppress(FileNotFoundError):

with suppress(FileNotFoundError):

It depends on what exceptions you expect.

If your only use case is get(), you could do

item['b'] = myobject.get('key2', '')

For the other cases, your decorator approach might be useful, but not in the way you do it.

I'll try to show you:

def f(func):
   def silenceit(*args, **kwargs): # takes all kinds of arguments
         return func(*args, **kwargs) # returns func's result
      except Exeption, e:
         print('Error:', e)
         return e # not the best way, maybe we'd better return None
                  # or a wrapper object containing e.
  return silenceit # on the correct level

Nevertheless, f(some_undefined_function())won't work, because

a) f() isn't yet active at the execution time and

b) it is used wrong. The right way would be to wrap the function and then call it: f(function_to_wrap)().

A "layer of lambda" would help here:

wrapped_f = f(lambda: my_function())

wraps a lambda function which in turn calls a non-existing function. Calling wrapped_f() leads to calling the wrapper which calls the lambda which tries to call my_function(). If this doesn't exist, the lambda raises an exception which is caught by the wrapper.

This works because the name my_function is not executed at the time the lambda is defined, but when it is executed. And this execution is protected and wrapped by the function f() then. So the exception occurs inside the lambda and is propagated to the wrapping function provided by the decorator, which handles it gracefully.

This move towards inside the lambda function doesn't work if you try to replace the lambda function with a wrapper like

g = lambda function: lambda *a, **k: function(*a, **k)

followed by a


because here the name resolution is "back at the surface": my_function cannot be resolved and this happens before g() or even f() are called. So it doesn't work.

And if you try to do something like


it cannot work as well if you have no x, because g() protects print, not x.

If you want to protect x here, you'll have to do

value = f(lambda: x.get('fail'))

because the wrapper provided by f() calls that lambda function which raises an exception which is then silenced.

  • This was helpful, but I'm still working on it. (Exception is misspelled above, but got it.) Taking this a little farther, is there a way that, instead of wrapping with lambda, I could make another function, g() that does that lambda wrap for me on a generic function, including *args, and **kwargs? So that I could call g(anyfunction()) and it would have the full effect I'm looking for? Mar 24, 2013 at 15:35
  • When I tried it, I did >>> wrapped_p = f(lambda *z,**z: func(*z,**z)) and got File "<stdin>", line 1 SyntaxError: duplicate argument 'z' in function definition Mar 24, 2013 at 15:50
  • Of course; you could do a g = lambda function: lambda *a, **k: function(*a, **k) which enables you to do g(anyfunction)(). (Only in this way: you don't want to wrap the function result, but the function itself.)
    – glglgl
    Mar 24, 2013 at 18:55
  • Thanks, that was silly of me. But even using this function to wrap my function, I seem to have the same problem. So, >>> g = f(lambda function: lambda *a, **k: function(*a,**k)) Then I call it with >>> g(print)(x.get('fail')) and get a message that x doesn't exist, rather than the silent failure I'm looking for. Mar 24, 2013 at 19:45
  • 1
    @Roylearnstocode Exactly, we pass a lambda (which is a callable object) to that function. In our case, that handles calling an undefined function: if my_function doesn't exist, calling that lambda function will lead to an exception which can be cought inside. If we would do f(my_function) with my_functionnot existing, f() wouldn't be called and the "exception avoiding mechanism" inside wouldn't be used.
    – glglgl
    Oct 28, 2022 at 11:47

in your case you first evaluate the value of the meow call (which doesn't exist) and then wrap it in the decorator. this doesn't work that way.

first the exception is raised before it was wrapped, then the wrapper is wrongly indented (silenceit should not return itself). You might want to do something like:

def hardfail():
  return meow() # meow doesn't exist

def f(func):
  def wrapper():
      print 'error'
  return wrapper

softfail =f(hardfail)


>>> softfail()

>>> hardfail()
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
  File "<stdin>", line 2, in hardfail
NameError: global name 'meow' is not defined

anyway in your case I don't understand why you don't use a simple method such as

def get_subkey(obj, key, subkey):
    return obj.get(key).get(subkey, '')
  except AttributeError:
    return ''

and in the code:

 item['a'] = get_subkey(myobject, 'key', 'subkey')


In case you want something that will work at any depth. You can do something like:

def get_from_object(obj, *keys):
    value = obj
    for k in keys:
        value = value.get(k)
    return value
  except AttributeError:
    return ''

That you'd call:

>>> d = {1:{2:{3:{4:5}}}}
>>> get_from_object(d, 1, 2, 3, 4)
>>> get_from_object(d, 1, 2, 7)
>>> get_from_object(d, 1, 2, 3, 4, 5, 6, 7)
>>> get_from_object(d, 1, 2, 3)
{4: 5}

And using your code

item['a'] = get_from_object(obj, 2, 3) 

By the way, on a personal point of view I also like @cravoori solution using contextmanager. But this would mean having three lines of code each time:

item['a'] = ''
with ignored(AttributeError):
  item['a'] = obj.get(2).get(3) 
  • Thanks! The return in the wrong place fixes what I thought I was doing, but wasn't. But I'm still at a loss in how it the internal exception from meow() is called before the wrap. The reason I can't use the simple method is that I am calling at several different depths, using several different objects with different attributes. I'd be writing a function per assignment, which would be as cumbersome as just try-catching. So, I'm looking for something that can generically catch failed functions and return '', printing an error to stdout. Mar 22, 2013 at 17:33

How about something like this:

def exception_handler(func):
def inner_function(*args, **kwargs):
        func(*args, **kwargs)
    except TypeError:
        print(f"{func.__name__} error")
return inner_function


def doSomethingExceptional():

all credits go to:https://medium.com/swlh/handling-exceptions-in-python-a-cleaner-way-using-decorators-fae22aa0abec


Why not just use cycle?

for dst_key, src_key in (('a', 'key'), ('b', 'key2')):
        item[dst_key] = myobject.get(src_key).get('subkey')
    except Exception:  # or KeyError?
        item[dst_key] = ''

Or if you wish write a little helper:

def get_value(obj, key):
        return obj.get(key).get('subkey')
    except Exception:
        return ''

Also you can combine both solutions if you have a few places where you need to get value and helper function would be more reasonable.

Not sure that you actually need a decorator for your problem.

  • I'm trying to make it more generic, not just for one-level deep missing keys, but with a lot of functions that can fail to assign data for a lot of reasons. Mar 22, 2013 at 14:53

Since you're dealing with lots of broken code, it may be excusable to use eval in this case.

def my_eval(code):
    return eval(code)
  except:  # Can catch more specific exceptions here.
    return ''

Then wrap all your potentially broken statements:

item['a'] = my_eval("""myobject.get('key').get('subkey')""")
item['b'] = my_eval("""myobject.get('key2')""")
item['c'] = my_eval("""func1(myobject)""")
  • 3
    never ever ever use eval in any programing language Jan 4, 2019 at 9:13

Try Except Decorator for sync and async functions

Note: logger.error can be replaced with print

Latest version can be found here.

enter image description here

  • 7
    Please do not use images in place of code.
    – logi-kal
    May 20, 2021 at 15:47

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