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I'm doing some functional programming in Python, and It'd be really useful if I had a function that took any number of arguments but didn't do anything, to use as a default value for a few things. I was wondering if anybody knew of the existence of one, or how I could make one on my own.

EDIT after seeing responses: Also, I'm new to python, so any elaboration on exotic syntax would be super helpful. What do the stars mean?

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lambda *args: None – katrielalex Jun 3 '13 at 20:54
shame that the name id is already in use. – Elazar Jun 3 '13 at 20:56
@Elazar: If you're thinking about the typical functional-language function, wouldn't want a function named id to return None, you'd want it to return its argument. (Also, you can just call it identity or ident. I have a def identity(x): return x in more than one project…) – abarnert Jun 3 '13 at 20:57
@abarnert -- What do you know, I have that one too. Maybe we should package it and put it on PyPI – mgilson Jun 3 '13 at 20:58
@abarnert you are right. I am simply confused. and, I wish id was identity (as you noted, you saw it in more than one project) – Elazar Jun 3 '13 at 20:59

1 Answer 1

up vote 12 down vote accepted

Create your own:

def noop(*args, **kw): pass

This takes any number of positional and keyword arguments and does nothing at all. pass signifies an empty python block; it works anywhere Python expects a block, including loops, if statements and try statements.

Python callables always return something (it is a language requirement); if no explicit return value is given None is returned.

The * and ** indicate arbitrary length parameters; you can pass in 0 or more positional parameters and the args name will represent a tuple of them, and 0 or more keyword arguments, and they are captured in the kw dictionary.

From the function definition documentation:

If the form “*identifier” is present, it is initialized to a tuple receiving any excess positional parameters, defaulting to the empty tuple. If the form “**identifier” is present, it is initialized to a new dictionary receiving any excess keyword arguments, defaulting to a new empty dictionary.

Simple demo of * and ** parameters:

>>> def f(*args, **kw): return (args, kw)
>>> f('foo', 'bar', spam='eggs', monty='python')
(('foo', 'bar'), {'monty': 'python', 'spam': 'eggs'})

For functional programming, if you need the arguments to be returned as is you need to think about what you need returning; a one-argument function would return just that argument and for anything that needs to take 2 or more arguments and return them all, you'd have to return those arguments as a tuple:

def identity(arg): return arg

def plural_identity(*args): return args


>>> identity('foobar')
>>> plural_identity('spam', 'eggs')
('spam', 'eggs')
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You could do it as a lambda too, if that is more friendly to the context. – Silas Ray Jun 3 '13 at 20:54
Does this really do nothing? It returns None which is in fact doing something. Of course, I think OP might need to give a little more information on what doing nothing actually means... (anyway, +1 ... I think this is probably the best answer you could give to this question) – mgilson Jun 3 '13 at 20:55
a function can't do any less than that, in python... unless it has a time machine I guess. – Elazar Jun 3 '13 at 20:57
All Python functions return something; they wouldn't be functions otherwise. They also have to execute a RETURN_VALUE opcode or they won't return. So, I think this is a pretty good definition for "do nothing". (IIRC, the tutorial even describes pass exactly that way.) – abarnert Jun 3 '13 at 20:58
@Elazar: It depends on which definition you use. "Relation" is usually defined as a cartesian product of any number of sets (which is why there's a specific term "binary relation"). If you define "function" in terms of "relation", AxBxC is a function iff it's left-total on AxB and right-unique on C. If you define it in terms of "binary relation", it's not a function, period (unless you've defined things such that AxBxC === (AxB)xC, in which case you effectively have auto-currying). Unfortunately, many texts use the term "relation" in the definition, but mean "binary relation"… – abarnert Jun 3 '13 at 21:33

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