• leetcode 728. Self Dividing Numbers


    A self-dividing number is a number that is divisible by every digit it contains.

    For example, 128 is a self-dividing number because 128 % 1 == 0, 128 % 2 == 0, and 128 % 8 == 0.

    Also, a self-dividing number is not allowed to contain the digit zero.

    Given a lower and upper number bound, output a list of every possible self dividing number, including the bounds if possible.

    Example 1:

    Input: 
    left = 1, right = 22
    Output: [1, 2, 3, 4, 5, 6, 7, 8, 9, 11, 12, 15, 22]
    

    Note:

    • The boundaries of each input argument are 1 <= left <= right <= 10000.

    解法1:

    养成好习惯,一定要先写测试用例,然后写下伪代码,最后才是代码!切忌直接上代码!

    ans = []

    for num In range(left, right+1):

      for each bit in num:

              check num % bit == 0?

          if all bit div is 0 then add num to ans

    class Solution(object):
        def selfDividingNumbers(self, left, right):
            """
            :type left: int
            :type right: int
            :rtype: List[int]
            [1, 2, 3, 4, 5, 6, 7, 8, 9]
            [11, 12, 15] 10/1,2,5
            [22=2*11, 24=2*2*2*3] 20/2,4,
            [33, 35, 36] 30/3,5,6
            [44, 45, 48] 40/4,5,8
            ...
            [99]
            [111, 112, 115] 110/?
            [122, 124]
            abcd =
            (a*1000+b*100+c*10+d)%a=0
            (a*1000+b*100+c*10+d)%b=0
            (a*1000+b*100+c*10+d)%c=0
            (a*1000+b*100+c*10+d)%d=0
            """
            ans = []
            for i in range(left, right+1):
                if self.is_div_num(i):
                    ans.append(i)
            return ans
        
        def is_div_num(self, n):
            if n == 0:
                return False
            q = n
            while q:
                c = q % 10
                if (c == 0) or (n % c != 0):
                    return False           
                q /= 10
            return True
    

    改进版本:

    class Solution(object):
        def selfDividingNumbers(self, left, right):
            is_self_dividing = lambda num: '0' not in str(num) and all(num % int(digit) == 0 for digit in str(num))
            return filter(is_self_dividing, range(left, right + 1))

    关于all:

    >>> all([1,2,3])
    True
    >>> all([1,2,0])
    False

    官方解法:

    class Solution(object):
        def selfDividingNumbers(self, left, right):
            def self_dividing(n):
                for d in str(n):
                    if d == '0' or n % int(d) > 0:
                        return False
                return True
            """
            Alternate implementation of self_dividing:
            def self_dividing(n):
                x = n
                while x > 0:
                    x, d = divmod(x, 10)
                    if d == 0 or n % d > 0:
                        return False
                return True
            """
            ans = []
            for n in range(left, right + 1):
                if self_dividing(n):
                    ans.append(n)
            return ans #Equals filter(self_dividing, range(left, right+1))

    python2/3 one-liner:
    [x for x in range(left, right+1) if all(y and not x%y for y in map(int,str(x)))]

    >>> map(int, ["12","23"])
    [12, 23]

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  • 原文地址:https://www.cnblogs.com/bonelee/p/8491065.html
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