# Removing duplicates using only lambda functions

I came across the question Python - Removing duplicates in list only by using filter and lambda, where the OP asks how to remove duplicate elements from a Python list using exclusively `filter` and `lambda` functions.

This made me wonder, is it possible, from a theoretical point of view, to remove the duplicates from a Python list using only `lambda` functions?

If so, how can we do that?

In this case, "removinge the duplicates" means "keeping exactly one occurrence of each element present in the original list", so `[1,2,1,3,1,4]` should become `[1,2,3,4]`.

In addition, the goal is to write only one `lambda`, so the code would be a one-liner like:

``````lambda l: """do something that returns l without duplicates"""
``````

No external variable must be used.

Besides, as for the above question, nothing "fancy" is allowed, especially the `set` function, as well as `reduce`, `map`...

Basically, no other function, even the built-in, should be called.

• lambda functions only and no temporary placeholders/containers? – wwii Jan 7 '17 at 17:16
• @wwii Edited my question; yes, the code must exclusively consist in one lambda function, so no additional container is allowed. – Right leg Jan 7 '17 at 17:20
• Sometimes it is a bit tricky but generally you can find a way to write a lambda version of a function regardless of how messy or unreadable it may be. – wwii Jan 7 '17 at 17:21
• @wwii Check my answer to see how messy it is :) – Right leg Jan 7 '17 at 17:22
• `lambda a: list(set(a))`?? – wwii Jan 7 '17 at 17:31

From a theoritecal point of view, if a computational problem requires an input and an output without side-effect, lambda calculus can probably solve it (more generally, lambda calculus is Turing complete, cf wikipedia).

Now for the implementation, the following `lambda` function takes a list argument, and returns a list where all the duplicates have been removed:

``````lambda l: (lambda u, a: u(u, a)) ((lambda f, x: x if len(x) <= 0 else (f(f, x[1:]) if x in x[1:] else ([x] + f(f, x[1:])))), l)
``````

Here is an unwrapped version:

``````lambda l:
(lambda u, a: u(u, a))
(
(lambda f, x: x if len(x) <= 0
else
(
f(f, x[1:]) if x in x[1:]
else ([x] + f(f, x[1:]))
)
),
l
)
``````

The function consists in a `lambda` version of the following recursive function:

``````def f(l):
if len(l) <= 0:
return l
elif l in l[1:]:
return f(l[1:])
else:
return ([l] + f(l[1:]))
``````

To emulate a recursive call, the equivalent `lambda` takes an additional function as argument, that will be itself:

``````lambda f, x: x if len(x) <= 0
else
(
f(f, x[1:]) if x in x[1:]
else ([x] + f(f, x[1:]))
)
``````

Then, another `lambda` calls this previous function, passing itself as argument (besides the list):

``````lambda u, a: u(u, a)
``````

Finally, an outer `lambda` wraps everything up, that takes only a list as argument.

• Neat. For some reason Greenspun's tenth rule comes to mind ;-) – snakecharmerb Jan 7 '17 at 17:47
• @snakecharmerb Indeed, except that in this case, C/Fortran is Python, and Common Lisp is Python :) – Right leg Jan 7 '17 at 17:53