Clojure has a "->" macro which inserts each expression recursively as the first argument of the next expression.

This means that I could write:

(-> arg f1 f2 f3)

and it behaves like (shell piping):


I would like to do this in Python; however, searching seems to be a nightmare! I couldn't search for "->", and neither could I search for Python function threading!

Is there a way to overload, say, the | operator so that I could write this in Python?

arg | f1 | f2 | f3


  • dependig on how crazy you want to get, it might be worth checking out python hy at github.com/hylang/hy .
    – joefromct
    Commented Oct 25, 2016 at 7:36

9 Answers 9


Or possibly use the reduce function in the following way:

reduce(lambda x,f : f(x), [f1,f2,f3], arg)
  • This is a very clean and functional way of implementing it. Thanks! The other ways that are presented do the same as well, but "arg" is in front and I think that makes a lot of difference in terms of the flow of writing code.
    – Vimal
    Commented Feb 11, 2011 at 4:58
  • 1
    @Vimal: If you are concerned about ordering you may use reduce(lambda x,f : f(x), [arg,f1,f2,f3]).
    – Howard
    Commented Feb 12, 2011 at 8:07

You can easily implement something like this yourself.

def compose(current_value, *args):
    for func in args:
        current_value = func(current_value)
    return current_value

def double(n):
    return 2*n

print compose(5, double, double) # prints 20

Or try https://mdk.fr/blog/pipe-infix-syntax-for-python.html A module that provide a syntax like :

  fib() | take_while(lambda x: x < 1000000)
        | where(lambda x: x % 2)
        | select(lambda x: x * x)
        | sum()

Building on Howard's solution:

def T(*args):
  return reduce(lambda l, r: r(l), args)

def dbl(n):
    return 2*n

#=> 20

T(5,dbl,dbl,lambda x: 3*x)
#=> 60

While I sympathize with the desire to create cool new language constructs (à la Lisp macros), it is not really the Python philosophy to do this:

>>> import this
There should be one-- and preferably only one --obvious way to do it.

But as the respondents have said, you can do your function chaining in a variety of ways. Here is one that's perhaps more explicitly Lisp-like, if that suits your fancy:

a = lambda x: x*2
b = lambda x: x+1

def chain(first, *args):
    if len(args) == 0:
        return first
        return first(chain(*args))

print chain(b, a, 1)
  • 6
    Python's lisp influences are what makes it great.
    – Phob
    Commented Apr 26, 2012 at 19:10
  • The appropriateness of Lisp in Python depends on the project in question. The demographics of the potential developer community weigh strongly here. Writing a parsing library? Lispiness for the win! Doing numerics? Use Lisp and lose 90% of your developer pool.
    – MRocklin
    Commented Aug 2, 2013 at 3:30

A little late to the party, but here's a cleaner method, imo. Will suit most FP needs.

def stream(*args):
    return reduce(lambda a, t: t[0](t[1], a), args[1:], args[0])

A basic map, filter, reduce:

>>> my_list = [1, 2, 3, 4, 5]
>>> stream(my_list, 
...    (map,    lambda x: x ** 2),
...    (filter, lambda x: x < 20),
...    (reduce, lambda a, x: a + x))

There's a thread function in the pytoolz library (actually there are two; they do slightly different things on functions of multiple arguments).

There's also a cython implementation of the pytoolz library called cytoolz which is probably more efficient. It can be installed using pip.


I believe that a quite "Pythonic" approach to this would be to thread functions like this:

thread_functions(my_arg)(func1, func2, ...)

Or, if you have multiple initial arguments:

thread_functions(arg1, arg2, ...)(func1, func2, ...)

To implement the above, one could do:

def thread_functions(*init_args):
    def execute_functions(*functions_list):
        x = functions_list[0](*init_args)

        for func in functions_list[1:]:
                x = func(*x)
            except TypeError:
                x = func(x)

        return x

return execute_functions

The function thread_functions receives the initial set of arguments (that can be many) and returns the function execute_functions. When called, execute_functions receives a set of functions to iterate on, appling the result of the previous iteration as the arguments to the current function. It also handles both iterable and non iterable arguments.

In this GitHub Gist I left some other explanations and implemented some examples to better demonstrate the use cases.


No, there is not (at least sanely). Nor would you want to. Why not just write f3(f2(f1(arg)))? Or better yet, model your problem in a way that doesn't require recursion.

You might be able to overload | by wrapping expressions in a class and defining __or__ in that class, but please, for the love of Guido, don't do that.

You could also do what btilly wrote, but I wouldn't recommend that either. Work within what the language provides you.

  • 2
    huh, why do you mention recursion out of the blue? Commented Feb 10, 2011 at 19:18
  • @Jochen -> in Clojure is recursive in nature Commented Feb 10, 2011 at 19:46
  • 2
    I know that Guido doesn't like functional techniques, but that is no reason to not tell people who like them how to use them in Python.
    – btilly
    Commented Feb 10, 2011 at 22:42
  • 3
    Readability is a matter of taste and specific circumstance. For instance the Schwartzian transform is more understandable followed left to right, top to bottom. As for performance, it if is a major concern of yours, then you shouldn't use Python at all.
    – btilly
    Commented Feb 11, 2011 at 1:01
  • 2
    @JochenRitzel, in Clojure, -> is not 'recursive in nature'.
    – marctrem
    Commented Oct 18, 2016 at 17:39

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