I'm trying to solve this programming riddle and although the solution (see code below) works correctly, it is too slow for succesful submission.
- Any pointers as how to make this run faster (removal of every n-th element from a list)?
- Or suggestions for a better algorithm to calculate the same; seems I can't think of anything else than brute-force for now...
Basically, the task at hand is:
GIVEN: L = [2,3,4,5,6,7,8,9,10,11,........] 1. Take the first remaining item in list L (in the general case 'n'). Move it to the 'lucky number list'. Then drop every 'n-th' item from the list. 2. Repeat 1 TASK: Calculate the n-th number from the 'lucky number list' ( 1 <= n <= 3000)
My original code (it calculated the 3000 first lucky numbers in about a second on my machine - unfortunately too slow):
""" SPOJ Problem Set (classical) 1798. Assistance Required URL: http://www.spoj.pl/problems/ASSIST/ """ sieve = range(3, 33900, 2) luckynumbers =  while True: wanted_n = input() if wanted_n == 0: break while len(luckynumbers) < wanted_n: item = sieve luckynumbers.append(item) items_to_delete = set(sieve[::item]) sieve = filter(lambda x: x not in items_to_delete, sieve) print luckynumbers[wanted_n-1]
EDIT: thanks to the terrific contributions of Mark Dickinson, Steve Jessop and gnibbler, I got at the following, which is quite a whole lot faster than my original code (and succesfully got submitted at http://www.spoj.pl with 0.58 seconds!)...
sieve = range(3, 33810, 2) luckynumbers =  while len(luckynumbers) < 3000: if len(sieve) < sieve: luckynumbers.extend(sieve) break luckynumbers.append(sieve) del sieve[::sieve] while True: wanted_n = input() if wanted_n == 0: break else: print luckynumbers[wanted_n-1]