Extract prime factor functions (from 3 & 5) into util.py

0003.py

@@ -1,57 +1,12 @@
 from functools import reduce
-target = 600851475143
-
-# list = []
-
-# for num in range(1, int(target / 2)):
-#     print(num)
-#     if (target % num == 0):
-#         list.append(num)
-
-# 2^x - 1 6k - 1
-# print(list)
-factors = []
-def findLargestPrimeFactor(n):
-    primeFactor = 1
-    factors.append(primeFactor)
-    print('appended')
-    i = 2
-
-    while i <= n / i:
-        if n % i == 0:
-            factors.append(i)
-            primeFactor = i
-            n = int(n / i)
-        else:
-            i += 1
-
-    if primeFactor < n:
-        primeFactor = n
-
-    return primeFactor
-
-def findPrimeFactors(n):
-    factors = []
-
-    i = 2
-
-    while i <= n / i:
-        if n % i == 0:
-            factors.append(i)
-            n = int(n / i)
-        else:
-            i += 1
-
-    factors.append(n)
-
-    return factors
 
+import util
 
 target = 600851475143
 
-# print(findLargestPrimeFactor(target))
-factors = findPrimeFactors(target)
-print(factors)
+factors = util.find_prime_factors(target)
+
 result = reduce((lambda x, y: x * y), factors)
+
 print(result)
-print(findPrimeFactors(48))
+print(result == target)

0005.py

@@ -1,27 +1,14 @@
 from collections import Counter
 from functools import reduce
+import util
 
-def find_prime_factors(n):
-    factors = []
-
-    i = 2
-
-    while i <= n / i:
-        if n % i == 0:
-            factors.append(i)
-            n = int(n / i)
-        else:
-            i += 1
-
-    factors.append(n)
-
-    return factors
+target = 232792560
 
 def divisible(rng):
     factors = None
 
     for num in rng:
-        nums = find_prime_factors(num)
+        nums = util.find_prime_factors(num)
         count = Counter(nums)
 
         if (factors == None):
@@ -32,18 +19,15 @@ def divisible(rng):
                     factors[key] = value
 
     return factors
-    # max_num = max(rng)
 
 
 factors = divisible(range(1, 21))
 
-# print(factors)
-
-# reduce(def fnc(value, key): print(value), factors.items())
-
 result = 1
+
 for key, value in factors.items():
     result *= key ** value
 
 print(result)
+print(result == target)
 

util.py

@@ -0,0 +1,36 @@
+def find_largest_prime_factor(n):
+    prime_factor = 1
+    factors.append(prime_factor)
+
+    print('appended')
+    i = 2
+
+    while i <= n / i:
+        if n % i == 0:
+            factors.append(i)
+            prime_factor = i
+            n = int(n / i)
+        else:
+            i += 1
+
+    if prime_factor < n:
+        prime_factor = n
+
+    return prime_factor
+
+
+def find_prime_factors(n):
+    factors = []
+
+    i = 2
+
+    while i <= n / i:
+        if n % i == 0:
+            factors.append(i)
+            n = int(n / i)
+        else:
+            i += 1
+
+    factors.append(n)
+
+    return factors