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consecutive-numbers-sum.py
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consecutive-numbers-sum.py
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# Time: O(sqrt(n))
# Space: O(1)
# Given a positive integer N,
# how many ways can we write it as a sum of
# consecutive positive integers?
#
# Example 1:
#
# Input: 5
# Output: 2
# Explanation: 5 = 5 = 2 + 3
# Example 2:
#
# Input: 9
# Output: 3
# Explanation: 9 = 9 = 4 + 5 = 2 + 3 + 4
# Example 3:
#
# Input: 15
# Output: 4
# Explanation: 15 = 15 = 8 + 7 = 4 + 5 + 6 = 1 + 2 + 3 + 4 + 5
# Note: 1 <= N <= 10 ^ 9.
class Solution(object):
def consecutiveNumbersSum(self, N):
"""
:type N: int
:rtype: int
"""
# x + x+1 + x+2 + ... + x+l-1 = N = 2^k * M, where M is odd
# => l*x + (l-1)*l/2 = 2^k * M
# => x = (2^k * M -(l-1)*l/2)/l= 2^k * M/l - (l-1)/2 is integer
# => l could be 2 or any odd factor of M (excluding M)
# s.t. x = 2^k * M/l - (l-1)/2 is integer, and also unique
# => the answer is the number of all odd factors of M
# if prime factorization of N is 2^k * p1^a * p2^b * ..
# => answer is the number of all odd factors = (a+1) * (b+1) * ...
result = 1
while N % 2 == 0:
N /= 2
i = 3
while i*i <= N:
count = 0
while N % i == 0:
N /= i
count += 1
result *= count+1
i += 2
if N > 1:
result *= 2
return result