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counting-bits.py
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counting-bits.py
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from __future__ import print_function
# Time: O(n)
# Space: O(n)
# Given a non negative integer number num. For every numbers i
# in the range 0 <= i <= num calculate the number
# of 1's in their binary representation and return them as an array.
#
# Example:
# For num = 5 you should return [0,1,1,2,1,2].
#
# Follow up:
#
# It is very easy to come up with a solution with run
# time O(n*sizeof(integer)). But can you do it in
# linear time O(n) /possibly in a single pass?
# Space complexity should be O(n).
# Can you do it like a boss? Do it without using
# any builtin function like __builtin_popcount in c++ or
# in any other language.
# Hint:
#
# 1. You should make use of what you have produced already.
# 2. Divide the numbers in ranges like [2-3], [4-7], [8-15]
# and so on. And try to generate new range from previous.
# 3. Or does the odd/even status of the number help you in
# calculating the number of 1s?
class Solution(object):
def countBits(self, num):
"""
:type num: int
:rtype: List[int]
"""
res = [0]
for i in xrange(1, num + 1):
# Number of 1's in i = (i & 1) + number of 1's in (i / 2).
res.append((i & 1) + res[i >> 1])
return res
def countBits2(self, num):
"""
:type num: int
:rtype: List[int]
"""
s = [0]
while len(s) <= num:
s.extend(map(lambda x: x + 1, s))
return s[:num + 1]
if __name__ == '__main__':
s = Solution()
r = s.countBits2(5)
print(r)