• Reverse Integer--整数的反转


    原题:

    Reverse digits of an integer.

    =>反转一个整数的数字。例子如下:

    Example1: x = 123, return 321
    Example2: x = -123, return -321

     

    Have you thought about this?

    Here are some good questions to ask before coding. Bonus points for you if you have already thought through this!

    =>在做题的时候请仔细思考一下下面这些方面。

    If the integer's last digit is 0, what should the output be? ie, cases such as 10, 100.

    =>假如最后一位是0,那么结果会是什么样的呢?比如10,100.

    Did you notice that the reversed integer might overflow? Assume the input is a 32-bit integer, then the reverse of 1000000003 overflows. How should you handle such cases?

    =>你有考虑过反转后的溢出问题嘛?假如是32bit的整数,1000000003反转后就会溢出。你怎么处理这样的情况?

    Throw an exception? Good, but what if throwing an exception is not an option? You would then have to re-design the function (ie, add an extra parameter).

    =>抛出一个异常?很好,假如不能抛出异常呢?其实可以重新定义这个函数(比如加一个参数)

    class Solution {
    public:
        int reverse(int x) {
            // IMPORTANT: Please reset any member data you declared, as
            // the same Solution instance will be reused for each test case.
           
    };

    晓东分析:

    这个题目就反转本身而言是很简单的,晓东就不多分析了。所以,我主要来说一下溢出的问题,我个人的思路就是在得到反转的值的时候,先不乘上最高位,留着进行比较。

    所以总的来说,还是不复杂的。

    代码实现:

    class Solution {
    public:
        int reverse(int x) {
            // IMPORTANT: Please reset any member data you declared, as
            // the same Solution instance will be reused for each test case.
            int max_first_bit = 2; //default for 4
            int max_remain_num = 147483647;
            
            int num = 0;
            int temp = abs(x);
            
            while(temp >= 10){
                num = num * 10 + temp % 10;
                temp /= 10;
            }
            
            switch(sizeof(int)){
                case 1:
                    max_first_bit = 1;
                    max_remain_num = 27;
                    break;
                case 2:
                    max_first_bit = 3;
                    max_remain_num = 2767;
                    break;
                case 4:
                    max_first_bit = 2;
                    max_remain_num = 147483647;
                    break;
                case 8:
                    max_first_bit = 9;
                    max_remain_num = 223372036854775807;
                    break;
            }    
            
            if(x > 0){
                if (temp < max_first_bit)
                    return num * 10 + temp % 10;
                else if(num <= max_remain_num)
                    return num * 10 + temp % 10;
                else
                    throw x;
            }else{
                if (temp < max_first_bit)
                    return 0 - (num * 10 + temp % 10);
                else if(num <= max_remain_num + 1)
                    return 0 - (num * 10 + temp % 10);
                else
                    throw x;
            }
            
        }
    };


    执行结果:

    1020 / 1020 test cases passed.
    Status:

    Accepted

    Runtime: 28 ms

    希望大家有更好的算法能够提出来,不甚感谢。

    若您觉得该文章对您有帮助,请在下面用鼠标轻轻按一下“顶”,哈哈~~·

     

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  • 原文地址:https://www.cnblogs.com/pangblog/p/3398089.html
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