传送门

Description

You have 4 cards each containing a number from 1 to 9. You need to judge whether they could operated through *, /, +, -, (, )to get the value of 24.

Example 1:
Input: [4, 1, 8, 7]
Output: True
Explanation: (8-4) * (7-1) = 24
Example 2:
Input: [1, 2, 1, 2]
Output: False

Note:

  1. The division operator / represents real division, not integer division. For example, 4 / (1 - 2/3) = 12.
  2. Every operation done is between two numbers. In particular, we cannot use - as a unary operator. For example, with [1, 1, 1, 1] as input, the expression -1 -1 -1 -1 is not allowed.
  3. You cannot concatenate numbers together. For example, if the input is [1, 2, 1, 2],  we cannot write this as 12 + 12.

思路

题意:给定四张标有数字(1-9)的卡片,问通过加减乘除和小括号组成的表达式的结果能否等于24。

题解:考虑穷举法的话,四个数字共有4!种排列方法,4个数字中间加入符号共有4x4x4种方法,最后考虑小括号,小括号的放法共有(A(B(CD))、(A((BC)D)、((AB)(CD))、((A(BC))D)、(((AB)C)D)五种,那么种类最多有4!x4^3x5 = 7680种。

考虑回溯法,首先我们从集合A = {1 、2、3、4}中任意取出两个数,如取1、2,那么A = A - {1、2},对取出来的两个数字分别进行不同的四则运算,1 + 2、1 - 2……,将结果加入A中,有{3、3、4}、{-1,3,4}等,通过这种方法,将四个数降为三个数,然后降为两个数……

Java

class Solution {
    boolean res = false;
    final double esp = 1e-4;
    public boolean judgePoint24(int[] nums) {
        List<Double>list = new ArrayList<Double>();
        for (int val:nums)  list.add((double)val);
        solver(list);
        return res;
    }

    void solver(List<Double> array){
        if (res)    return;
        if (array.size() == 1 && Math.abs(array.get(0) - 24.0) <= esp){
            res = true;
            return;
        }

        for (int i = 0;i < array.size();i++){
            for (int j = 0;j < i;j++){
                List<Double>list = new ArrayList<Double>();
                Double p1 = array.get(i),p2 = array.get(j);
                list.addAll(Arrays.asList(p1+p2,p1-p2,p2-p1,p1*p2));

                //除数是否为0
                if (Math.abs(p1) > esp){
                    list.add(p2/p1);
                }
                if (Math.abs(p2) > esp){
                    list.add(p1/p2);
                }

                array.remove(i);
                array.remove(j);

                for (Double val:list){
                    array.add(val);
                    solver(array);
                    array.remove(val);
                }

                array.add(j,p2);
                array.add(i,p1);

            }
        }
    }
}

  

04-15 08:48