- 有一个数组,里面只有一个值是唯一的,其余值都是重复成对出现。请设计一个算法,在O1的空间复杂度和On的时间复杂度内,找出这个值。
def so(arr):
ret = 0
i = 0
while i < len(arr):
ret = ret ^ arr[i]
i += 1
return ret
l = [2, 4, 3, 3, 2, 5, 5]
print(so(l))
- 给定一个整数,统计其二进制表示里有多少个1。
def count1(a):
'''
整数的二进制表达里有多少个1,复杂度为a的二进制长度。
'''
num = 0
while a != 0:
num += a & 1
a >>= 1
return num
def count2(a):
'''
整数的二进制表达里有多少个1,复杂度仅为1的个数
'''
num = 0
while a != 0:
a = a & (a - 1) # 就是这个操作,需要掌握,它的本质含义是抹去了0不考虑
num += 1
return num
题三
def count(a):
num = 0
while a != 0:
a = a & (a - 1)
print(a)
num += 1
return num
# Time3BitCount
def bit_count_solution(A):
a = 0
for i in A:
a += 2 * i
print(count(a * 3))
bit_count_solution([1, 4, 5])
简单做法
一个二进制数乘以2就是向左移动一位,然后乘以3就是[1,4,5]与[2,5,6]相加
就变成[1,2,4,5,5,6]相同进一就是变成[1,2,4,6,6]---->[1,2,4,7]
from itertools import chain
def add_to(item, dic):
if item not in dic:
dic[item] = 1
else:
dic.pop(item)
add_to(item + 1, dic)
def solution(li):
d = {}
new_list = chain(li, [i + 1 for i in li])
# print(list(new_list), 343434)
for i in new_list:
add_to(i, d)
return d.keys()
A = [1, 4, 5]
print(solution(A))
- 最大切片和
# MaxSliceSum
def solution(A):
before_sum = 0
max_sum = 0
for i in range(len(A)):
before_sum += A[i]
if before_sum >= max_sum:
max_sum = before_sum
elif before_sum < 0:
before_sum = 0
return max_sum
li = [3, 2, 0, -6, 4, 0]
print(solution(li))
- 计算序列中,在O(n)时间内求出,第二大元素
def d(li):
max1 = li[0]
max2 = li[0]
for i in range(len(li)):
if li[i] >= max1:
max2 = max1
max1 = li[i]
if max1 > li[i] >= max2:
max2 = li[i]
return max2
l = [4, 2, 2, 3, 5, 10, 3, 4, 6, 8]
print(d(l))
- 得到二进制中1的位置
def test(int_num):
bin_str = str(bin(int_num))
bin_str = bin_str.replace('0b', '')
print(bin_str, type(bin_str))
for i in range(len(bin_str)):
print(i, 00000)
if (1 << i) & int_num:
print(str(i))
test(50)
