# Transforming nested Python loops into list comprehensions

I've started working on some Project Euler problems, and have solved number 4 with a simple brute force solution:

``````def mprods(a,b):
c = range(a,b)
f = []
for d in c:
for e in c:
f.append(d*e)
return f

max([z for z in mprods(100,1000) if str(z)==(''.join([str(z)[-i] for i in range(1,len(str(z))+1)]))])
``````

After solving, I tried to make it as compact as possible, and came up with that horrible bottom line!

Not to leave something half-done, I am trying to condense the `mprods` function into a list comprehension. So far, I've come up with these attempts:

• `[d*e for d,e in (range(a,b), range(a,b))]`
Obviously completely on the wrong track. :-)
• `[d*e for x in [e for e in range(1,5)] for d in range(1,5)]`
This gives me `[4, 8, 12, 16, 4, 8, 12, 16, 4, 8, 12, 16, 4, 8, 12, 16]`, where I expect `[1, 2, 3, 4, 2, 4, 6, 8, 3, 6, 9, 12, 4, 8, 12, 16]` or similar.

Any Pythonistas out there that can help? :)

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Making things as compact as possible is an rather silly goal. –  Mike Graham Feb 24 '10 at 20:31
Silly, but entertaining! :) –  Lucas Jones Feb 24 '10 at 20:40

``````c = range(a, b)
print [d * e for d in c for e in c]
``````
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Thanks! I didn't know you could do that... :) –  Lucas Jones Feb 24 '10 at 20:23
and then you can put it all together to get [d*e for d in range(a,b) for e in range(a,b). Also, I would recommend using xrange rather than range for speed. –  Justin Peel Feb 24 '10 at 20:26
Just be careful of the order when iterating nested structures. The outer layer needs to be iterated first: `[x for y in N for x in y]` Otherwise the name for the inner structure won't exist when you go to iterate over it (`y` in this case). –  Ignacio Vazquez-Abrams Feb 24 '10 at 20:26
Thanks for the tips. That's a couple more Python nuggets learned today! –  Lucas Jones Feb 24 '10 at 20:30
@Justin: In Python 3.0, there is no xrange function, and range returns an iterator like xrange once did. To simulate range from python 2, you'd call list(range(x)). Lucas did not specify what version of python he was using. –  Brian Feb 25 '10 at 14:21
``````from itertools import product

def palindrome(i):
return str(i) == str(i)[::-1]

x = xrange(900,1000)

max(a*b for (a,b) in (product(x,x)) if palindrome(a*b))
``````
• `xrange(900,1000)` is like `range(900,1000)` but instead of returning a list it returns an object that generates the numbers in the range on demand. For looping, this is slightly faster than range() and more memory efficient.

• `product(xrange(900,1000),xrange(900,1000))` gives the Cartesian product of the input iterables. It is equivalent to nested for-loops. For example, `product(A, B)` returns the same as: `((x,y) for x in A for y in B)`. The leftmost iterators are in the outermost for-loop, so the output tuples cycle in a manner similar to an odometer (with the rightmost element changing on every iteration).

`product('ab', range(3))` --> `('a',0) ('a',1) ('a',2) ('b',0) ('b',1) ('b',2)` `product((0,1), (0,1), (0,1))` --> `(0,0,0) (0,0,1) (0,1,0) (0,1,1) (1,0,0) ...`

• `str(i)[::-1]` is list slicing shorthand to reverse a list.

• Note how everything is wrapped in a generator expression, a high performance, memory efficient generalization of list comprehensions and generators.

• Also note that the largest palindrome made from the product of two 2-digit numbers is made from the numbers 91 99, two numbers in the `range(90,100)`. Extrapolating to 3-digit numbers you can use `range(900,1000)`.

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That is extremely cool... yet another new Python feature learned - generator expressions. Neat :) –  Lucas Jones Feb 28 '10 at 13:56
Note: this could be even more compact: `max(a*b for (a,b) in product(xrange(900,1000),repeat=2) if str(a*b)==str(a*b)[::-1])` –  Synthetica Apr 24 at 6:03

I think you'll like this one-liner (formatted for readability):

``````max(z for z in (d*e
for d in xrange(100, 1000)
for e in xrange(100, 1000))
if str(z) == str(z)[::-1])
``````

Or slightly changed:

``````c = range(100, 1000)
max(z for z in (d*e for d in c for e in c) if str(z) == str(z)[::-1])
``````

Wonder how many parens that would be in Lisp...

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`::-1`? That is cool! :) Python is turning into NetHack - TDTTOE. Thanks. –  Lucas Jones Feb 24 '10 at 20:40