In the following method definitions, what does the
** do for
def foo(param1, *param2): def bar(param1, **param2):
Both idioms can be mixed with normal arguments to allow a set of fixed and some variable arguments:
Another usage of the
In Python 3 it is possible to use
Also Python 3 adds new semantic (refer PEP 3102):
Such function accepts only 2 positional arguments, and everything after
In Python 2 similar was true for all parameters after
It's also worth noting that you can use * and ** when calling functions as well. This is a shortcut that allows you to pass multiple arguments to a function directly using either a list/tuple or a dictionary. For example, if you have the following function:
You can do things like:
The single * means that there can be any number of extra positional arguments.
The double ** means there can be any number of extra named parameters.
With the following code:
the output is
We typically use these when we don't know what our function is going to receive or how many arguments we may be passing, and sometimes even when naming every variable separately would get very messy and redundant (but this is a case where usually explicit is better than implicit).
The following function describes how they can be used, and demonstrates behavior. Note the named
We can check the online help for the function's signature, with
Let's call this function with
We can also call it using another function, into which we just provide
Example 3: practical usage in decorators
OK, so maybe we're not seeing the utility yet. So imagine you have several functions with redundant code before and/or after the differentiating code. The following named functions are just pseudo-code for illustrative purposes.
We might be able to handle this differently, but we can certainly extract the redundancy with a decorator, and so our below example demonstrates how
And now every wrapped function can be written much more succinctly, as we've factored out the redundancy:
And by factoring out our code, which
From the Python documentation:
Let us first understand what are positional arguments and keyword arguments. Below is an example of function definition with Positional arguments.
SO this is a function definition with positional arguments. you can call it with keyword/named arguments as well.
Now let us study an example of function definition with keyword arguments:
You can call this function with positional arguments as well :
So we now know function definitions with positional as well as keyword arguments.
Now let us study the '*' operator and '**' operator.
Please note these operators can be used in 2 areas :
a) function call
b) function definition.
The use of '*' operator and '**' operator in function call.
Let us get straight to an example and then discuss it.
when the '*' or '**' operator is used in a function call -
'*' operator unpacks data structure such as a list or tuple into arguments needed by function definition.
'**' operator unpacks a dictionary into arguments needed by function definition.
Now let us study the '*' operator use in function definition. Example:
In function definition The '*' operator packs the received arguments into a tuple .
Now let us see example of '**' used in function definition:
In function definition The '**' operator packs the received arguments into a dictionary .
So remember :
In function call the '*' unpacks data structure of tuple or list into positional or keyword arguments to be received by function definition.
In function call the '**' unpacks data structure of dictionary into positional or keyword arguments to be received by function definition.
In function definition the '*' packs positional arguments into a tuple.
In function definition the '**' packs keyword arguments into a dictionary.
In addition to function calls, *args and **kwargs are useful in class hierarchies and also avoid having to write init method in Python. Similar usage is seen in frameworks like Django code.
A subclass can then be
The subclass then be called as
Also, a subclass with a new attribute which makes sense only to that subclass instance can call the Base class init to offload the attributes setting. This is done through *args and **kwargs. kwargs mainly used so that code is readable using named arguments. For example,
which can be instatiated as
The complete code is here
In Python 3.5, you can also use this syntax in
It also allows multiple iterables to be unpacked in a single function call.
(Thanks to mgilson for the PEP link.)