# highest palindrome with 3 digit numbers in python

In problem 4 from http://projecteuler.net/ it says:

A palindromic number reads the same both ways. The largest palindrome made from the product of two 2-digit numbers is 9009 = 91 * 99.

Find the largest palindrome made from the product of two 3-digit numbers.

I have this code here

``````def isPalindrome(num):
return str(num) == str(num)[::-1]
def largest(bot, top):
for x in range(top, bot, -1):
for y in range(top,bot, -1):
if isPalindrome(x*y):
return x*y
print largest(100,999)
``````

It should find the largest palindrome, it spits out `580085` which I believe to be correct, but project euler doesn't think so, do I have something wrong here?

When I revered the for loop I didn't think it through, I removed the thing that checks for the biggest, silly me. Heres the working code

``````def isPalindrome(num):
return str(num) == str(num)[::-1]
def largest(bot, top):
z = 0
for x in range(top, bot, -1):
for y in range(top,bot, -1):
if isPalindrome(x*y):
if x*y > z:
z = x*y
return z
print largest(100,999)
``````

it spits out 906609

-
FYI the answer is `906609` –  Ashwini Chaudhary Oct 1 '12 at 13:37
By what numbers? –  FabianCook Oct 1 '12 at 13:38
Because I got 995 * 583 = 580085 –  FabianCook Oct 1 '12 at 13:40
There we go, silly me –  FabianCook Oct 1 '12 at 13:46

Iterating in reverse doesn't find the largest `x*y`, it finds the palindrome with the largest `x`. There's a larger answer than 580085; it has a smaller `x` but a larger `y`.

-
Hmm, lets change this around a bit, brb. –  FabianCook Oct 1 '12 at 13:41
Agreed. Rather than returning as soon as you find a palindrome, you need to test every combination and keep track of the largest. –  japreiss Oct 1 '12 at 13:41
Balls. Here we go –  FabianCook Oct 1 '12 at 13:42
Check my edit, it works now –  FabianCook Oct 1 '12 at 13:43

This would more efficiently be written as:

``````from itertools import product

def is_palindrome(num):
return str(num) == str(num)[::-1]

multiples = ( (a, b) for a, b in product(xrange(100,999), repeat=2) if is_palindrome(a*b) )
print max(multiples, key=lambda (a,b): a*b)
# (913, 993)
``````

You'll find `itertools` and generators very useful if you're doing Euler in Python.

-
My simple code works fast enough for me :) –  FabianCook Oct 1 '12 at 13:49
Im only using python for this because it is an interpreted language, otherwise I would use java –  FabianCook Oct 1 '12 at 13:50
@SmartLemon fair enough - Haskell's very useful as well though ;) –  Jon Clements Oct 1 '12 at 13:50
Is it worth learning? –  FabianCook Oct 1 '12 at 13:51
@SmartLemon For these kind of things - definitely - look at the haskell solutions on the Euler answer board for the ones you've already solved - you'll find code snippet (I think there's also a website which has the code written for the first 'n' many problems in Haskell as well) –  Jon Clements Oct 1 '12 at 13:54

Tried making it more efficient, while keeping it legible:

``````def is_palindrome(num):
return str(num) == str(num)[::-1]

def fn(n):
max_palindrome = 1
for x in range(n,1,-1):
for y in range(n,x-1,-1):
if is_palindrome(x*y) and x*y > max_palindrome:
max_palindrome = x*y
elif x * y < max_palindrome:
break
return max_palindrome

print fn(999)
``````
-