Convert any Python file into a single line of code which has the same functionality. "Oru" means One/Single (in tamil). So, Single line == Oruline !
No newlines allowed. No semicolons allowed, either.
Install via pip
from PyPI:
$ pip install oruline
Use either the command line function or the Python module:
$ echo "def f(x):\n print x\nf(4)" > sandbox.py
$ oruliner sandbox.py --debug
$ oruliner sandbox_ol.py
from oruliner import oruline
oruline("def f(x):\n print x\nf(4)")
Before:
x = 3
y = 4
print (x < y < 5)
After:
(lambda __builtin__: (lambda __print, __y, d: [[__print(d.x<d.y<5) for d.y in [(4)]][0] for d.x in [(3)]][0])(__builtin__.__dict__['print'],(lambda f: (lambda x: x(x))(lambda y: f(lambda *args: y(y)(*args)))),type('StateDict',(),__builtin__.__dict__)()))(__import__('__builtin__'))
That line looks complicated, because we need some tricks to import the print function and to support certain tricks which are needed for more complicated features such as while
and if
. For a program as simple as this one, though, you can think of it as working this way:
(lambda x: (lambda y: print(x<y<5))(4))(3)
Before:
def f(x):
return x+5
print f(13)
After:
(lambda __builtin__: (lambda __print, __y, d: [__print(d.f(13)) for d.f in [(lambda x:[(d.x+5) for d.x in [(x)]][0])]][0])(__builtin__.__dict__['print'],(lambda f: (lambda x: x(x))(lambda y: f(lambda *args: y(y)(*args)))),type('StateDict',(),__builtin__.__dict__)()))(__import__('__builtin__'))
...or, if you want to think about something more simplified:
(lambda f: print(f(13)))(lambda x: x+5)
Before:
def guess_my_number(n):
while True:
user_input = raw_input("Enter a positive integer to guess: ")
if len(user_input)==0 or not user_input.isdigit():
print "Not a positive integer!"
else:
user_input = int(user_input)
if user_input > n:
print "Too big! Try again!"
elif user_input < n:
print "Too small! Try again!"
else:
print "You win!"
return True
guess_my_number(42)
After:
(lambda __builtin__: (lambda __print, __y, d: [(lambda ___: None)(d.guess_my_number(42)) for d.guess_my_number in [(lambda n:[(__y(lambda __this: (lambda d: (lambda __after: [(lambda __after: (lambda ___: __after(d))(__print('Not a positive integer!')) if (d.len(d.user_input)==0 or (not d.user_input.isdigit())) else [(lambda __after: (lambda ___: __after(d))(__print('Too big! Try again!')) if d.user_input>d.n else (lambda __after: (lambda ___: __after(d))(__print('Too small! Try again!')) if d.user_input<d.n else (lambda ___: d.True)(__print('You win!')))(lambda d: __after(d)))(lambda d: __after(d)) for d.user_input in [(d.int(d.user_input))]][0])(lambda d: __this(d)) for d.user_input in [(d.raw_input('Enter a positive integer to guess: '))]][0] if d.True else __after(d))(lambda d: None))))(d) for d.n in [(n)]][0])]][0])(__builtin__.__dict__['print'],(lambda f: (lambda x: x(x))(lambda y: f(lambda *args: y(y)(*args)))),type('StateDict',(),__builtin__.__dict__)()))(__import__('__builtin__'))
Yeah. I'm sorry. But on the other hand, why not?
That would be against the spirit of this exercise. Why pass up a perfectly good excuse to abuse lambda functions, ternary expressions, list comprehensions, and even the occasional Y combinator? Never pass up an opportunity to use the Y combinator.
O(n). No code is ever duplicated, so the one-lined code produced is linear in the size of the input code.
I have no reason to believe the resulting code, however absurd, is more than a constant factor slower than the original code. Since while loops, etc. are implemented using recursive function calls, causing more overhead for setting up those function calls, the constant factor is likely to be somewhat bad.
The one-lined code tends to contain many nested lambdas; if there are too many, Python will refuse to run it.
$ python main_ol.py
s_push: parser stack overflow
MemoryError
This can be fixed using pypy.
$ pypy main_ol.py
However, since while loops and for loops are implemented with recursion, you might encounter maximum recursion depth exceeded
errors during runtime if your loops go on for too long.
To get around this, you can put
import sys
sys.setrecursionlimit(new_limit)
in your original Python code. (oneliner will not place this command in for you.)
- from foo import *
- with
- yield
$ git clone https://github.com/coderganesh/1line
$ cd oruline
$ python -m oruline .setup.py setup.py
$ python setup.py test
To install the local module:
$ pip install .
- Lambda calculus
- Fixed-point combinator
- StackOverflow post about how functional programming helps with Python mastery
- On writing Python one-liners - a similar idea
- Shout-out to the author of this StackOverflow post, who seems to have worked on a very similar project