# Python summing itertools.count?

I'm having some trouble with the itertools.count function, and I don't quite understand what it does. I expect the code below to accomplish Project Euler problem 2.

I know that I could write this with a simple while loop, but is there a way to do it with a list comprehension? This code just freezes as I guess it's going to go infinity with count(). I would have hoped it would stop after x > MAX, but I know that won't happen. Is there a way to stop count in a generator expression like below?

``````def fib(n):
if (n <= 1): return 1
else: return fib(n-1) + fib(n-2)

MAX = 4000000

infiniteFib = (fib(x) for x in count())

s = (x for x in infiniteFib if x < MAX and x % 2 == 0)

print sum(s)
``````
-
Either way, this is a terribly inefficient function for calculating Fibonacci values. Anything past mid-30s takes forever to return on my machine, and it's a pretty beefy one. – NullUserException Dec 10 '12 at 23:25
I have the actual function memoized, so it's not as bad. – Ryan Endacott Dec 10 '12 at 23:36
Oh, carry on then. – NullUserException Dec 10 '12 at 23:37

We just need to tell the `infiniteFib` generator when to stop yielding elements. `itertools` provides a number of useful methods to help with this:

``````less_than_max = itertools.takewhile(lambda x: x<MAX, infiniteFib))
even = itertools.ifilter(lambda x: x%2==0, less_than_max)
print sum(even)
``````

We get a generator for all the numbers yielded by `infiniteFib`, until one returned is greater than `MAX`. Then we filter that generator, choosing only the even numbers. And finally we can sum the result.

-

You could use `takewhile`:

``````>>> from itertools import count, takewhile, imap
>>> sum(x for x in takewhile(lambda x: x < 4000000, imap(fib, count())) if x % 2 == 0)
4613732
``````
-
+1 Good call on the `takewhile`. I'll remember that. – jimhark Dec 10 '12 at 23:31

``````def fib():
a, b = 1, 1
while True:
yield b
a, b = b, a+b

sum(f for f in itertools.takewhile(functools.partial(operator.ge, 4000000), fib()) if f % 2 == 0)
``````

Or, pushing the parity check into the generator:

``````def even_fib():
a, b = 1, 1
while True:
if b % 2 == 0: yield b
a, b = b, a+b

sum(itertools.takewhile(functools.partial(operator.ge, 4000000), even_fib()))
``````
-
I had the same idea, but you've done it much more elegantly. – Marius Dec 10 '12 at 23:42

Yeah, `count()` just keeps going, which isn't what you want. List comprehensions / iterator expressions don't have flexible exit conditions (but see @DSM's solution using `takewhile`).

I prefer just using `while`.

Here's my old answer to Euler 2:

``````def SumEvenFibonacci(limit):
x = y = 1
sum = 0
while (sum <= limit):
sum += (x + y)
x, y = x + 2 * y, 2 * x + 3 * y
return sum

ce = SumEvenFibonacci(4000000)
print ce
``````
-

Here's another solution using `takewhile`, but non-recursively. Since the recursive solution requires calculating all the `fib`s less than n for each n, it's horrible slow.

``````def fib_gen(only_even=False):
one = 1
if not only_even:
yield one
two = 1
if not only_even:
yield two
while True:
next = one + two
one = two
two = next
if only_even:
if next % 2 == 0:
yield next
else:
yield next

list(itertools.takewhile(lambda x: x < 4000000, fib_gen()))
``````
-