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While trying to write an answer for another SO question something really peculiar happened.

I basically came up with a one liner gcd and said it maybe slower because of recursion
gcd = lambda a,b : a if not b else gcd(b, a % b)

heres a simple test:

assert gcd(10, 3) == 1 and gcd(21, 7) == 7 and gcd(100, 1000) == 100

here are some benchmarks:

timeit.Timer('gcd(2**2048, 2**2048+123)', setup = 'from fractions import gcd').repeat(3, 100)
# [0.0022919178009033203, 0.0016410350799560547, 0.0016489028930664062]
timeit.Timer('gcd(2**2048, 2**2048+123)', setup = 'gcd = lambda a,b : a if not b else gcd(b, a % b)').repeat(3, 100)
# [0.0020480155944824219, 0.0016460418701171875, 0.0014090538024902344]

Well thats interesting I expected to be much slower but the timings are fairly close, ? maybe importing the module is the issue ...

>>> setup = '''
... def gcd(a, b):
...     """Calculate the Greatest Common Divisor of a and b.
...     Unless b==0, the result will have the same sign as b (so that when
...     b is divided by it, the result comes out positive).
...     """
...     while b:
...         a, b = b, a%b
...     return a
... '''
>>> timeit.Timer('gcd(2**2048, 2**2048+123)', setup = setup).repeat(3, 100)
[0.0015637874603271484, 0.0014810562133789062, 0.0014750957489013672]

nope still fairly close timings ok lets try larger values.

timeit.Timer('gcd(2**9048, 2**248212)', setup = 'gcd = lambda a,b : a if not b else gcd(b, a % b)').repeat(3, 100) [2.866894006729126, 2.8396279811859131, 2.8353509902954102]
[2.866894006729126, 2.8396279811859131, 2.8353509902954102]
timeit.Timer('gcd(2**9048, 2**248212)', setup = setup).repeat(3, 100)
[2.8533108234405518, 2.8411397933959961, 2.8430981636047363]

interesting I wonder whats going on?
I always assumed recursion was slower because of the overhead of calling a function, are lambdas the exception? and why I haven't reach my recursion limit?
If implemented using def I hit it right away, if I increase the recursion depth to something like 10**9 I actually get a segmentation fault probably a stack overflow ...


>>> setup = '''
... import sys
... sys.setrecursionlimit(10**6)
... def gcd(a, b):
...     return a if not b else gcd(b, a % b)
... '''
>>> timeit.Timer('gcd(2**9048, 2**248212)', setup = 'gcd = lambda a,b:a if not b else gcd(b, a%b)').repeat(3, 100)
[3.0647969245910645, 3.0081429481506348, 2.9654929637908936]
>>> timeit.Timer('gcd(2**9048, 2**248212)', setup = 'from fractions import gcd').repeat(3,   100)
[3.0753359794616699, 2.97499680519104, 3.0096950531005859]
>>> timeit.Timer('gcd(2**9048, 2**248212)', setup = setup).repeat(3, 100)
[3.0334799289703369, 2.9955930709838867, 2.9726388454437256]

even more puzzling ...

share|improve this question
@FelixBonkoski, Python do not optimizes the tail recursion. This code just have a little stack usage :) – astynax Jun 24 '12 at 7:38
@astyntax appears to be correct about TRE: Guido says this. However, This SO answer seems to suggest that that there is some difference how the interpreter actually runs TR functions. Someone more qualified than me needs to answer this question! :) – Felix Bonkoski Jun 24 '12 at 7:55
@kosii: Write a fibonacci function, and then use fibonacci(1200) and fibonacci(1201). Consecutive Fibonacci numbers are the worst case for Euclid's algorithm. – Mark Dickinson Jun 24 '12 at 8:18
@MarkDickinson and with those Fib numbers as examples, even with the OP's lambda form of the gcd function, I hit the recursion limit. Further supporting @astynax's initial remark about Python not optimizing Tail recursion, and there being no difference in how a lambda vs. a def fun() might handle TR. – Felix Bonkoski Jun 24 '12 at 8:30
@samy.vilar will we ever see it? as I linked earlier, Guido van Rossum says TRE would be "unpythonic" – Felix Bonkoski Jun 24 '12 at 9:30
up vote -1 down vote accepted

The type of a lambda is exactly the same as the type of any other function, and in the case of both, if defined in another local scope, environment capture occurs.

The only difference is that functions defined with the lambda syntax do not automatically become the value of a variable in the scope in which it appears, and that lambda syntax requires the body to be one (possibly compound) expression, the value of which is returned from the function.

As to the speed of recursion - yes there's a slight overhead, but apparently not that much. The call overhead would appear to mostly be made of the cost of allocating the stack frame.

share|improve this answer
Did you even look at the times he's showing? You are not seeing the effect that the library function fractions.gcd() is faster. He's trying to show that it's a toss-up, and he's puzzled by that. -1 for not reading the question. – Felix Bonkoski Jun 24 '12 at 7:18
@Marcin I also defined the non-recurs function using regular python and the timings still don't differ, something rather peculiar is happening, and why haven't I reached the recursion limit? – Samy Vilar Jun 24 '12 at 7:23
@samy.vilar You are creating only one new int per stack frame, so memory consumption is not an issue. There is no mystery here. As to the recursion limit, why would you expect that you would hit it with this example? – Marcin Jun 24 '12 at 8:11
@samy.vilar Please read my comment as it stands. – Marcin Jun 24 '12 at 8:17
Recursion is (significantly) slower here. Any explanations? – Thrustmaster Jun 24 '12 at 8:54
counter = 0

def gcd(a, b):
    global counter
    counter += 1
    return a if not b else gcd(b, a % b)

gcd(2**9048, 2**248212)
print counter

Prints 3. Of course there is not a lot of overhead for a recursion of depth 3.

share|improve this answer
yes Im quite of aware of that now, i should have used Fibonacci numbers to run my tests, learning something new everyday ... – Samy Vilar Jun 24 '12 at 9:06

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