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Is there an easy way in Python to check whether the value of an optional parameter comes from its default value, or because the user has set it explicitly at the function call?

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2  
Why would it matter? – Volatility Feb 7 '13 at 10:53
1  
Because I want to check it in that function of course :) – Matthias Feb 7 '13 at 10:54
    
Just use None as the default and check for that. If you really could set up this test, you'd also exclude any possibility for the user to explicitly pass the value that invokes the default behavior. – Michael J. Barber Feb 7 '13 at 11:05
    
That can be done in a much more reusable and beautiful way than in answer you accepted, at least for CPython. See my answer below. – Ellioh Feb 7 '13 at 11:25
    
@Volatility: it matters if you have two sets of defaults. Consider a recursive class: Class My(): def __init__(self, _p=None, a=True, b=True, c=False) User calls it with x=My(b=False). A class method could call itself with x=My(_p=self, c=True) if functions could detect that b is not explicitly set and that unset variables are to be passed down from the top level. But if they can't, the recursive calls have to pass every variable explicitly: x=My(a=self.a, b=self.b, c=True, d=self.d, ...). – Dave Mar 8 at 13:19
up vote 14 down vote accepted

Not really. The standard way is to use a default value that the user would not be expected to pass, e.g. an object instance:

DEFAULT = object()
def foo(param=DEFAULT):
    if param is DEFAULT:
        ...

Usually you can just use None as the default value, if it doesn't make sense as a value the user would want to pass.

The alternative is to use kwargs:

def foo(**kwargs):
    if 'param' in kwargs:
        param = kwargs['param']
    else:
        ...

However this is overly verbose and makes your function more difficult to use as its documentation will not automatically include the param parameter.

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thanks, I think I will stick to the check for None – Matthias Feb 7 '13 at 11:05
2  
I've also seen several people use the Ellipsis builtin for places where this is needed and None is considered valid input. This is essentially the same as the first example. – GrandOpener Feb 7 '13 at 11:17

The following function decorator, explicit_checker, makes a set of parameter names of all the parameters given explicitly. It adds the result as an extra parameter (explicit_params) to the function. Just do 'a' in explicit_params to check if parameter a is given explicitly.

def explicit_checker(f):
    varnames = f.func_code.co_varnames
    def wrapper(*a, **kw):
        kw['explicit_params'] = set(list(varnames[:len(a)]) + kw.keys())
        return f(*a, **kw)
    return wrapper

@explicit_checker
def my_function(a, b=0, c=1, explicit_params=None):
    print a, b, c, explicit_params
    if 'b' in explicit_params:
        pass # Do whatever you want


my_function(1)
my_function(1, 0)
my_function(1, c=1)
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I agree with Volatility's comment. But you could check in the following manner:

def function(arg1,...,**optional):
    if 'optional_arg' in optional:
        # user has set 'optional_arg'
    else:
        # user has not set 'optional_arg'
        optional['optional_arg'] = optional_arg_default_value # set default
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I believe an optional parameter is something like def func(optional=value) not **kwargs – BasicWolf Feb 7 '13 at 11:03
    
That's something which is somewhat open to interpretation. What's the actual difference between an argument with a default value and a keyword argument? They are both expressed using the same syntax "keyword=value". – isedev Feb 7 '13 at 11:05
    
I disagree, because the purpose of the optional parameters and **kwargs is a bit different. P.S. no problem's about -1 :) And my -1 for you was accidental :) – BasicWolf Feb 7 '13 at 11:08

A little freakish approach would be:

class CheckerFunction(object):
    def __init__(self, function, **defaults):
        self.function = function
        self.defaults = defaults

    def __call__(self, **kwargs):
        for key in self.defaults:
            if(key in kwargs):
                if(kwargs[key] == self.defaults[key]):
                    print 'passed default'
                else:
                    print 'passed different'
            else:
                print 'not passed'
                kwargs[key] = self.defaults[key]

        return self.function(**kwargs)

def f(a):
    print a

check_f = CheckerFunction(f, a='z')
check_f(a='z')
check_f(a='b')
check_f()

Which outputs:

passed default
z
passed different
b
not passed
z

Now this, as I mentioned, is quite freakish, but it does the job. However this is quite unreadable and similarly to ecatmur's suggestion won't be automatically documented.

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1  
You might want to include the behavior of check_f('z'), which is also, as you say, freakish. – Michael J. Barber Feb 7 '13 at 11:23
    
@MichaelJ.Barber Good point. You'll have to do some "magic" with *args as well. However, my point was that it is possible, but needing to now whether the default value is passed or not is a bad design. – dmg Feb 7 '13 at 11:57

I sometimes use a universally unique string (like a UUID).

import uuid
DEFAULT = uuid.uuid4()
def foo(arg=DEFAULT):
  if arg is DEFAULT:
    # it was not passed in
  else:
    # it was passed in

This way, no user could even guess the default if they tried so I can be very confident that when I see that value for arg, it was not passed in.

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