first question here. I am trying to learn python by stepping through project euler, and I've run into a roadblock. The following method (returns a list of prime factors) works fine for a single call:
def findPrimeFactors(num, primeFactors = ): '''Find the prime factors of an arbitrary positive integer input: num to factorize returns: a list containing the prime factors of the number ''' pIndex = 2 while (num >= pIndex): if num % pIndex == 0: num /= pIndex primeFactors.append(pIndex) return FindPrimes.findPrimeFactors(num, primeFactors) else: pIndex += 1 return primeFactors
However when I use it in a loop, like so (this method may not be complete yet, currently results in infinite loop since more primes cannot be found):
def countPrimes(n = 1001): '''find n amount of unique primes ascending input: number of primes to find returns: list of n primes starting from 2 ''' primes =  i = 2 while len(primes) < n: primeFactors = FindPrimes.findPrimeFactors(i) print(primeFactors) #verify method behavior if len(primeFactors) is 1: primes.append(primeFactors) i += 1 return primes
The result is that the first loop returns , the next returns [2, 3], and so on, appending the new results to the list that I Wanted to have been empty on the first recursive call. It seems that my list is persisting, but I'm not sure exactly why? I read Python Class scope & lists as well which gives me some clues but the recursion complicates it more.
Recursive also means I cannot simply assign an empty set to it either. Coming from a C++ background, my expectation was that the primeFactors variable should be reinitialized each time the function is called from my program. Still a baby snake here.
EDIT: This is the iterative version of findPrimeFactors I wrote. I know it is not optimal - but I would like to at least make it efficient enough to meet Project Euler's 1 minute rule. Any suggestions for improvement or clarity are appreciated.
PRIMES = [2,3,5,7,11,13,17,19] import math class FindPrimes(): '''V2 iterative''' def findPrimeFactors(n, primeFactors = None): '''Find the prime factors of an arbitrary positive integer input: num to factorize returns: a list containing the prime factors of the number ''' if primeFactors is None: primeFactors =  num = n ceil = math.sqrt(n) #currently unused global PRIMES knownPrimes = PRIMES #check known primes for divisors first, then continue searching for primes by brute force while True: factorFound = False for prime in knownPrimes: if num % prime == 0: primeFactors.append(prime) num /= prime factorFound = True break #ensure that the list returned has ascending primes if not factorFound: break #once attempts have been made to reduce using known primes #search for new primes if the number is not fully reduced i = knownPrimes[-1] + 2 while num != 1: if num % i == 0: knownPrimes.append(i) primeFactors.append(i) num /= i i += 2 return primeFactors def countPrimes(n = 10001): '''find n amount of unique primes ascending input: number of primes to find returns: list of n primes starting from 2 ''' primes =  i = 2 while len(primes) < n: primeFactors = FindPrimes.findPrimeFactors(i) if len(primeFactors) == 1: primes.append(primeFactors) #print(primeFactors[-1]) i += 1 print(len(primes)) return primes nth = 10001 print(FindPrimes.countPrimes(nth)[nth-1]) #print the largest prime found