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 ...

**Update**

```
>>> 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 ...

`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`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`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